JP2019007311A - Compression device and collapse prevention device - Google Patents

Abstract

To achieve miniaturization, weight reduction, work load reduction, and cost reduction.SOLUTION: A compression device (2) comprises a compression part (21) for capturing an object (S) and compressing the object (S) by deformation with the load of the captured object (S), and a holding part (22) which holds the compression part (21) and deforms according to the deformation of the compression part (21).SELECTED DRAWING: Figure 3

Description

  The present invention relates to, for example, a compression device that stops snow movement (glide creep) that leads to the occurrence of an avalanche, captures and compresses snow, and a collapse prevention device including the compression device.

An avalanche protective fence installed on the slope of a mountain is known.
As shown in FIG. 6, the guard fence 200 mainly includes a first column 110 fixed substantially at a right angle to the slope K, and a vertically upper side on the valley side of the slope K with respect to the first column 110. It includes a second support column 120 that extends, and a lateral member 130 that is provided from the first support column 110 to the second support column 120, and is configured to dam an avalanche with a protective fence 200 (for example, Patent Documents). 1).

JP 2014-109181 A

  However, the above-mentioned protective fence is supported by a support or a face material (in Fig. 6, a horizontal member (pipe)) against the static snow pressure caused by snow movement (glide creep). This increases the size and weight of the fence, increases the work load during installation and maintenance, and increases costs.

  Then, this invention is made | formed in view of the said subject, and it aims at providing the compression apparatus and collapse prevention apparatus which can implement | achieve size reduction, weight reduction, reduction of a work burden, and cost reduction. To do.

  In order to solve the above-described problems, the present invention is a compression device that captures an object, deforms the load by the captured object, compresses the captured object, and holds the compression unit. And a holding portion that is deformed in accordance with the deformation of the compression portion.

  Moreover, it is preferable to provide the support part which supports the said holding | maintenance part.

  Moreover, it is preferable that the said support part is formed from the elastic material.

  Moreover, it is preferable that the said holding | maintenance part is formed from the elastic material.

  In addition, in a state before the compression unit captures the object, the holding unit is preferably provided in a state of being elastically deformed in a direction in which the load of the object is applied.

  The object is preferably snow.

  In order to solve the above-mentioned problems, the present invention is a collapsing prevention device, characterized by comprising the compression device described above and a fixing device that fixes the compression device to the ground.

  According to the present invention, it is possible to realize downsizing, weight reduction, reduction of work load, and cost reduction.

It is a perspective view of the avalanche prevention apparatus provided in the ground. It is a perspective view of an avalanche prevention apparatus. It is a perspective view of the avalanche prevention apparatus at the time of catching snow. It is a figure explaining the compression principle of the snow by a compression device. It is a figure which shows the example of the compression apparatus provided in the existing guard fence. It is a side view of the conventional avalanche protection fence.

  A preferred embodiment of the present invention will be described with reference to the drawings. In addition, embodiment shown below is one illustration and can take a various form in the scope of the present invention. In the following description, as an example, the compression device will be described as a device that compresses snow that is moving on a slope, and the collapse prevention device is described as a device that prevents avalanches. It may be. The avalanche prevention device described below is an avalanche prevention work (avalanche prevention fence) equipped with a compression device. While capturing snow, the avalanche prevention fence is deformed by the load of snow movement (glide creep), and the deformation Compresses the snow and builds a virtual wall with the compressed snow, thereby preventing avalanches.

<Compression device and avalanche prevention device>
As shown in FIG. 1, an avalanche prevention device (avalanche prevention work) 1 is installed on a ground G such as a roadside or a hillside slope, and by blocking the snow to be moved, It prevents avalanches from occurring.
The avalanche prevention device 1 includes a compression device 2 and a fixing device 3.

(Compressor)
As shown in FIGS. 1 and 2, the compression device 2 captures snow, and compresses the captured snow by being deformed by the load of the captured snow.
The compression device 2 includes a compression unit 21, a holding unit 22, a support unit 23, and a locking unit 24.

The compressing unit 21 captures and compresses snow that is about to move slowly on the slope. The compression part 21 is comprised by the net | network formed from cloth, a metal, resin etc., for example, and deform | transforms when snow is caught. The deformation of the compression unit 21 is not limited to elastic deformation and plastic deformation. That is, the compression unit 21 suppresses the movement of the snow while absorbing the load due to the movement of the snow by its deformation. When the compression unit 21 captures snow, the compression unit 21 sandwiches (wraps) the captured snow and compresses the snow.
In addition, if the compression part 21 captures snow, the structure and material will not be limited, However, In order to achieve weight reduction, it is preferable to comprise by cloth or a net | network. The compression part 21 is formed, for example, in a substantially rectangular shape in plan view, and holding parts 22 are attached to both side ends.

The holding unit 22 holds the compression unit 21 in a stretched state so that the compression unit 21 faces the snow traveling direction. That is, the holding unit 22 holds the compression unit 21 so that the compression unit 21 maintains a substantially rectangular shape in plan view.
The holding unit 22 is provided along the left and right side edges of the compression unit 21 in a state where the holding unit 22 is installed on the ground G, and both side ends of the compression unit 21 are attached.
The holding portion 22 is made of, for example, an elastically deformable spring steel material, and is formed in a plate shape that is long in one direction. The side end portion of the compression portion 21 is attached over the longitudinal direction of the holding portion 22. The holding portion 22 is not limited to a plate shape, and may be formed in a string shape or a rod shape like a wire rope.
The holding unit 22 is provided in a state in which the holding unit 22 is elastically deformed in a direction in which a load of snow is applied (a traveling direction of the snow to be moved) before the compression unit 21 captures snow. Specifically, the holding portion 22 is provided in a state where the end edge in the longitudinal direction is elastically deformed so as to be bent in a bow shape (a state in which the holding portion 22 is bent like a bow). This is for facilitating the deformation of the compression unit 21 and the holding unit 22 and the compression of the snow when capturing the snow. The holding part 22 is deformed so as to be folded along the short direction of the holding part 22 together with the deformation of the compressing part 21 due to the weight of the compressing part 21 that has captured snow. Thereby, the compression part 21 compresses the captured snow so that it may be pinched | interposed from an up-down direction.

The support part 23 supports the holding part 22. The support portion 23 is made of, for example, an elastically deformable spring steel material, and is formed in a bar shape that is long in one direction.
Each end portion of the support portion 23 is inserted into each end portion of the holding portion 22. At each end portion of the support portion 23, a locking portion 24 to which the fixing device 3 is attached is provided.
The support portion 23 extends linearly without being elastically deformed in a state before the compressing portion 21 captures snow.

  The locking portion 24 is joined to each end portion of the support portion 23 by welding or the like. A part of the locking part 24 is formed in an annular shape, and locks a wire rope 31 (described later) of the fixing device 3.

(Fixing device)
As shown in FIGS. 1 and 2, the fixing device 3 fixes the compression device 2 to the ground G. The fixing device 3 includes a connection part 31 and a fixing part 32.
The connection part 31 is comprised by the wire rope, for example, One end is connected to the latching | locking part 24 provided in the edge part of each support part 23, The other end is the fixed part fixed to the ground G 32.
Since the compression device 2 is provided with two holding portions 22, and the locking portions 24 are provided at both ends of each holding portion 22, a total of four locking portions 24 are provided. Become. The connection portions 31 are respectively connected to the respective locking portions 24, and the two connection portions 31 respectively connected to both end portions of the one holding portion 22 are connected to one fixing portion 32.
The fixing part 32 is constituted by, for example, an anchor, and is provided above the slope than the compression device 2. At least one end of the fixing part 32 is embedded and fixed in the ground G, and the other end is exposed to the ground surface and the connection part 31 is connected. One fixing portion 32 is provided corresponding to each holding portion 22, and two fixing portions 32 are provided in total. That is, the two connection parts 31 connected to the one holding part 22 are connected to one fixing part 32.

<Construction method of avalanche prevention device>
In order to construct the avalanche prevention apparatus 1, first, the both side edges of the compression part 21 are attached to the two holding parts 22 prepared. Next, the support portion 23 is passed through holes formed in the upper end portion and the lower end portion of the holding portion 22, and the locking portions 24 are attached to both end portions of the support portion 23. At this time, the holding part 22 is attached to the support part 23 in a curved state. Next, one end of the connection portion 31 is connected to each locking portion 24, and the other end of the connection portion 31 is connected to the fixed portion 32 fixed to the ground G. At this time, the two connection parts 31 connected to the one holding part 22 are connected to the same fixing part 32.
With the above, the avalanche prevention apparatus 1 is constructed. The avalanche prevention apparatus 1 is not limited to being fixed to the ground G by the two fixing portions 32, but three or more connecting portions 31 are connected to one holding portion 22 and are connected to different fixing portions 32. May be.

<Operation of compression device>
As shown in FIGS. 3 and 4, the snow S about to move from the inclined surface of the mountain or cliff moves toward the compression device 2 of the avalanche prevention device 1 but is held by the compression device 2. The compressing unit 21 captures the snow S and is deformed so as to bend toward the downstream side in the traveling direction (arrow A direction) of the snow S due to the load of the snow S (particularly, the central portion is downstream in the traveling direction of the snow S). Overhang). Similarly, the load of the snow S acts on the holding portion 22 that holds the compression portion 21, the holding portion 22 is further elastically deformed so as to bend toward the downstream side, and supports the holding portion 22. 23 is also elastically deformed so as to bend toward the downstream side.
The compression portion 21 and the holding portion 22 are deformed to reduce the distance between the upper end portion and the lower end portion. As shown in FIG. 4, the captured snow S is compressed in the direction of arrow P by the compression portion 21 and compacted. It is done. In this way, since the snow S can be positively compressed and compacted, the compacted snow S becomes a new wall. Thereby, static behavior (glide, creep) of snow can be prevented, snow S can be accumulated to prevent snow movement, and avalanche can be prevented from occurring. In addition, since the snow itself is not compressed by the weight of the snow but is compressed positively by the compression unit 21, even a relatively small amount of snow can be compressed, and an avalanche is effectively generated. Can be prevented.
Moreover, since the avalanche prevention apparatus 1 has a simple configuration as described above, it can be reduced in size and weight as compared with the conventional avalanche protection fence. It is possible to reduce the work load and cost at the time. In particular, since the avalanche prevention apparatus 1 is provided on an inclined surface in most cases, the effect of reducing the work burden is great.
Moreover, since the support part 23 also elastically deforms following the elastic deformation of the holding part 22, the elastic deformation of the holding part 22 is not hindered.
Moreover, since the holding | maintenance part 22 and the support part 23 are formed from the elastic material, it can be used repeatedly.
Further, in a state before the compressing unit 21 captures the snow S, the holding unit 22 is provided in a state of being elastically deformed in a direction in which the load of the snow S is applied (downstream in the traveling direction of the snow S). Therefore, it becomes easy to induce the deformation of the compression unit 21 and the holding unit 22.

<Others>
Note that the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the scope of the present invention.
For example, the holding unit is not limited to a single plate material, and may be configured by connecting a plurality of plate materials. In this case, if the adjacent plate members are connected to each other by a torsion coil spring or the like, the entire holding portion can be curved in the snow traveling direction without elastic deformation.
Further, the holding part may not be an elastic member. In this case, the holding part is plastically deformed by snow, and the number of times it can be used repeatedly is limited.
Further, the support portion may be a string-like member such as a wire rope instead of an elastic member. In this case, the support portion functions as a guide for both ends of the holding portion when the holding portion is deformed. That is, the end of the holding part slides along the support part.
Further, the fixing portion is not limited to being provided above the compression device (upstream side in the snow movement direction), and may be provided on the side of the compression device.
Moreover, the avalanche prevention apparatus is not limited to the case where all of the compression apparatus and the fixing apparatus are constructed, and the compression apparatus 2a may be installed on an existing avalanche protection fence 50 as shown in FIG. For example, the holding portion 22a is attached to the column 51 or the beam 52 of the adjacent avalanche protection fence 50, and the compression portion 21a is attached to the holding portion 22a. In this case, the support part is not necessary, but of course, a support part may be provided.
Thus, the compression device and the avalanche prevention device are not limited to being installed in a place where avalanche prevention measures are not taken, but can also be installed to further strengthen a place where avalanche measures are already taken. High versatility.

DESCRIPTION OF SYMBOLS 1 Avalanche prevention apparatus 2 Compression apparatus 3 Fixing apparatus 21 Compression part 22 Holding part 23 Support part 24 Locking part 31 Connection part 32 Fixing part S Snow

Claims (7)

A compression unit that captures an object, deforms the object by the load of the captured object, and compresses the captured object;
Holding the compression unit, and a holding unit that deforms along with the deformation of the compression unit;
A compression apparatus comprising:   The compression apparatus according to claim 1, further comprising a support portion that supports the holding portion.   The compression apparatus according to claim 2, wherein the support portion is made of an elastic material.   The compression device according to any one of claims 1 to 3, wherein the holding portion is made of an elastic material.   The state before the said compression part capture | acquires a target object WHEREIN: The said holding | maintenance part is provided in the state elastically deformed toward the direction where the load of a target object is applied. Compression device.   The compression apparatus according to claim 1, wherein the object is snow. A compression device according to any one of claims 1 to 6;
A fixing device for fixing the compression device to the ground;
A collapse prevention device comprising:

Images