KR200368329Y1 - Measuring instrument used for erosion - Google Patents

Abstract

The present invention is a safety diagnostic measuring device for measuring soil erosion to continuously measure the ground erosion degree of the slope or incision surface and the degree of runoff of the soil to predict the occurrence of landslides as well as the collapse of the slope or incision surface The present invention relates to a hollow bar shape, comprising: a cutout portion for opening a hollow portion along a longitudinal direction on an upper surface thereof, and a insertion hole into the hollow portion on one side thereof, the scale being formed along the cutout portion; A moving bar having one end inserted into the insertion hole and fixedly movable along the longitudinal direction of the frame, wherein a scale corresponding to the scale is formed on an upper surface exposed to the outside through the cutout; The fastening hole and the through hole are vertically formed, respectively, the plate is disposed and fixed on the other side facing the insertion hole, and the lower end is tapered to facilitate the longitudinal indentation into the ground, and the inlet grooves are formed on the both sides in the longitudinal direction, respectively. A first support part comprising a main panel having an anchor fitted and fixed to the through hole at an upper end thereof, and a pair of auxiliary panels fixedly movable to be pulled in or pulled out horizontally in the inlet groove; And a through-hole penetrating up and down, the plate being disposed and fixed at the other end of the moving bar, the lower end of which is tapered to facilitate longitudinal indentation into the ground, and the inlet grooves are formed along the longitudinal direction on both sides thereof. And a second support part comprising a main panel having an anchor inserted and fixed to the through hole, and a pair of auxiliary panels that are fixedly movable in or out of the inlet groove in a horizontal direction.

Description

Measuring device for safety diagnosis to measure the erosion of soil {Measuring instrument used for erosion}

The present invention is a safety diagnostic measuring device for measuring soil erosion that continuously determines the degree of ground erosion of the slope or incision surface and the degree of runoff of the soil by predicting the occurrence of landslides as well as the collapse of the slope or incision surface. It is about.

Due to the nature of Korea, which has a higher occupancy rate than the plain, it is often necessary to cut the mountain to secure the necessary site when constructing roads or constructing artificial structures. However, not only the steep slopes were formed in some of the incised mountains, but the soil and supporting ground on the slopes thus formed were unstable, thus increasing the risk of collapse.

In particular, the road construction or construction of artificial structures under the inclined slope, such that the worker is exposed to the risk of landslides and collapse of slopes, and property damage as well as damage to life was expected.

However, no safety measures have been taken for the above-mentioned inclined surface, and there are no special measures that can fundamentally prevent the collapse of a widely formed inclined surface. There was a problem that can only be hoped not to occur.

Therefore, the present invention was devised to solve the above problems, and in real time to observe the settlement and runoff of the soil on the unstable slope caused by artificial incision of a part of the mountain, and through the observed values An object of the present invention is to provide a safety diagnostic measuring device for measuring soil erosion that can predict whether a collapse or landslide will occur.

1 is a perspective view showing the appearance of the safety diagnostic measurement device according to the present invention,

2 is an exploded perspective view of a safety diagnosis measuring device according to the present invention,

3 is a partially exploded perspective view showing the structure of the main panel and the auxiliary panel according to the present invention.

-Explanation of terms for main parts of attached drawings-

10; Measuring device 100; frame

110; Incision 120; parenthesis

130; Transparent plate 200; Moving bar

300; First support portion 400; Second support

500; Hinge

The present invention to achieve the above object,

A frame having a hollow long bar shape, each having a cutout for opening the hollow part along a longitudinal direction on an upper surface thereof, and an insertion opening into the hollow part on one side thereof, the scale being formed along the cutout;

A moving bar having one end inserted into the insertion hole and fixedly movable along the longitudinal direction of the frame, wherein a scale corresponding to the scale is formed on an upper surface exposed to the outside through the cutout;

The fastening hole and the through hole are vertically formed, respectively, the plate is disposed and fixed on the other side facing the insertion hole, and the lower end is tapered to facilitate the longitudinal indentation into the ground, and the inlet grooves are formed on the both sides in the longitudinal direction, respectively. A first support part comprising a main panel having an anchor fitted and fixed to the through hole at an upper end thereof, and a pair of auxiliary panels fixedly movable to be pulled in or pulled out horizontally in the inlet groove; And

A through hole penetrated up and down is formed so that the plate is disposed and fixed at the other end of the moving bar, and the lower end is tapered to facilitate longitudinal indentation into the ground, and inlet grooves are formed along the longitudinal direction on both sides thereof. A second support part comprising a main panel having an anchor inserted into and fixed to a ball, and a pair of auxiliary panels that are fixedly movable in or out of the inlet groove in a horizontal direction;

It is a measuring device for safety diagnosis.

In order to achieve the above object, the present invention, in the safety diagnostic measurement device, one end is fixed to the fastening hole formed in the plate of the first support portion via a fixing member, the other end is grounded through the other fixing member It is a safety diagnosis measuring device further includes a hinge fixed to the pinch.

In order to achieve the above object, the present invention is a safety diagnosis measuring device, the safety diagnostic measuring device further comprises a transparent plate for covering the cutout to block the inflow of foreign matter into the hollow portion of the frame.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the use of the safety diagnostic measuring device according to the present invention will be described with reference to this.

Measuring device 10 according to the present invention is composed of a frame 100, the moving bar 200, the first support portion 300, the second support portion 400 and the hinge 500.

In this case, graduations 101 and 201 are formed on the upper surfaces of the frame 100 and the moving bar 200, respectively. The scales 101 and 201 are provided to numerically confirm the movement value of the movement bar 200. As the soils located on the inclined surface D flow, the movement bar 200 also moves. As the scale 201 of the moved bar 200 and the scale 101 of the frame 100 are different from the previous state, the observer can observe the degree of movement of the movable bar 200, that is, the degree of flow of soil. do.

On the other hand, the scales 101 and 201 are provided in only one of the frame 100 or the moving bar 200, and the scales according to the movement of the moving bar 200 are provided in the remaining one where the scales 101 and 201 are not formed. It is not unreasonable to achieve the purpose according to the present invention by forming only a reference that helps to visually check the change of position of the position. . Therefore, the measuring device 10 according to the present invention should be formed with the scales 101 and 201 corresponding to each other on both the frame 100 and the moving bar 200.

2 is an exploded perspective view of the measuring device for safety diagnosis according to the present invention will be described in detail with respect to each component of the measuring device 10 according to the present invention.

As described above, the measuring device 10 according to the present invention includes a frame 100, a moving bar 200, a first support part 300, a second support part 400, and a hinge 500. do.

The frame 100 has a hollow long bar shape, and has an incision 110 for opening the hollow portion along the longitudinal direction on an upper surface thereof, and an insertion hole 120 into the hollow portion on one side thereof, respectively. A scale 101 is formed along 110.

The moving bar 200 is one end is inserted into the insertion hole 120 is fixed to be movable along the longitudinal direction of the frame 100, the graduation 101 on the upper surface exposed to the outside through the cutout 110 A scale 201 corresponding to) is formed.

That is, the movable bar 200 is inserted and fixed to the hollow portion of the frame 100 through the insertion hole 120 of the frame 100 so as to be movable, and the movable bar exposed through the cutout 110. A scale 201 is formed on the upper surface of the 200 to measure the moving length of the moving bar 200 together with the scale 101 formed along the cutout 110.

At this time, it is preferable that the locking protrusion 210 is formed at one end of the moving bar 200 so as not to be separated from the frame 100 through the insertion hole 120. In addition, since the measuring device 10 according to the present invention is disposed on the inclined surface (D) with a lot of soil, the soil may be introduced into the hollow part through the cutout 110. Of course, when the soil is introduced into the hollow portion interferes with the movement of the movement bar 200, the transparent plate 130 is provided to cover the cut portion 110 to prevent the inflow of the soil through the cut portion 110 It is preferable.

The first support portion 300 is a plate 310 and a through hole 311 which is vertically penetrated and formed on the other side facing the insertion hole 120, respectively, and the ground The lower end portion is tapered to facilitate the longitudinal indentation of the main panel 320 having an anchor 340 fitted into the through hole 311 and having an inlet groove 321 formed in the longitudinal direction on each side thereof. And, it is composed of a pair of auxiliary panel 330 is fixedly movable to be drawn or drawn in the horizontal direction in the inlet groove 321.

The second support part 400 is formed with a through hole 411 penetrating up and down, the plate 410 is disposed and fixed at the other end of the moving bar 200, and the lower end portion is easy to longitudinally press into the ground The main panel 420 which is tapered and has an inlet groove formed in each side in the longitudinal direction, and has an anchor 440 fitted to and fixed to the through hole 411 at the upper end thereof, and is drawn in or drawn out horizontally in the inlet groove. It is composed of a pair of auxiliary panel 430 is fixedly movable.

Since the measuring device 10 according to the present invention is for numerically checking the degree of flow of the earth and sand, the moving bar 200 flows along with the flow of the earth and sand. To this end, the moving bar 200 must respond sensitively to the degree of flow of the soil, and for this purpose, the support parts 300 and 400 are required. In addition, the main panels 320 and 420 and the auxiliary panels 330 and 430 are press-fitted perpendicularly to the inclined direction of the inclined surface D while forming a wide flat plate shape, so that they are sensitive to soil flowing down from the upper layer. To react.

However, the fundamental purpose of the support 300, 400 is different from each other.

First, the first support part 300 expands the area of the main panel 320 and the auxiliary panel 330 as much as possible, thereby amplifying a resistance force that prevents the frame 100 from flowing downward on the inclined surface D. In this case, the second support part 400 widens the area of the main panel 420 and the auxiliary panel 430 as much as possible, so that the moving bar 200 rides the inclined surface D through the flow of the soil. It is to let it flow down sensitively.

That is, the first support part 300 may be embedded in relatively hard and solid soil, and the second support part 400 may be embedded in earth and sand that requires continuous observation because the soil may flow down. will be. Of course, the hinge 500 is further provided to assist the first support part 300.

Figure 3 is a partial exploded perspective view showing the structure of the main panel and the auxiliary panel according to the present invention will be described with reference to this.

As described above, the main panels 320 and 420 and the auxiliary panels 330 and 430 are preferably provided separately. This is to facilitate the storage and management of the main panel 320, 420 and the auxiliary panel (330, 430) that is relatively wide, to achieve the following structure.

The main panels 320 and 420 are tapered at lower ends thereof, and recess grooves 321 are formed at both side surfaces thereof. Meanwhile, the auxiliary panels 330 and 430 are fixed to be movable in the horizontal direction while being inserted into the inlet groove 321. The auxiliary panels 330 and 430 once inserted are easily separated from the main panels 320 and 420. It is preferable that the engaging end 331 which is caught at the inlet of the inlet groove 321 is formed at the inlet end of the auxiliary panels 330 and 430.

Therefore, the auxiliary panels 330 and 430 are drawn out from the inlet groove 321 when the measuring device 10 according to the present invention is disposed on the inclined surface D to measure the degree of flow of soil. In addition to the main panel 320, the area is as wide as possible, and when not in use, the auxiliary panels 330 and 430 are pushed into the inlet grooves 321 to minimize the area.

One end of the hinge 500 is fixed to the fastening hole formed in the plate of the first support part through a fixing member, and the other end is fixed to the ground by another fixing member.

As described above, the frame 100 should be held as much as possible so that the hinge 500 is further provided together with the first support 300. At this time, it is obvious that the ground should be a very low risk of collapse.

Measuring device 10 according to the present invention having the above configuration is fixed to the frame 100 and the moving bar 200 to be mutually movable, it is arranged vertically along the inclined surface via the support portion 300, 400 In particular, since the second support part 400 is embedded in the inclined surface with a predetermined depth, when the earth and sand flows downward, the second support part 400 also detects this and moves downwards to change the scales 101 and 201.

Obviously, the observer writes down the scales 101 and 201 before the movement of the moving bar 200 and observes the change based on a predetermined time to predict the collapse risk of the inclined surface D on which the measuring device 10 is placed. do.

Unexplained withdrawal symbol "350" is a fixing member to facilitate the coupling between the anchor 340 and the through hole 311, and serves as a knuckle to prevent the anchor from being easily separated from the through hole 311. However, since the coupling method between the anchor 340 and the plate 310 may be variously modified, the fixing member 350 is not necessarily provided.

According to the present invention as described above, after placing the measuring device at the risk of collapse of the inclined surface formed as an unstable incision, the change in the soil of the soil or landslides by periodically observing the scale change of the measuring device on a regular basis. Objectives can be predicted objectively, so observations can be made to evacuate workers in hazardous areas or take other necessary steps.

Claims (3)

A frame having a hollow long bar shape, each having a cutout for opening the hollow part along a longitudinal direction on an upper surface thereof, and an insertion opening into the hollow part on one side thereof, the scale being formed along the cutout; A moving bar having one end inserted into the insertion hole and fixedly movable along the longitudinal direction of the frame, wherein a scale corresponding to the scale is formed on an upper surface exposed to the outside through the cutout; The fastening hole and the through hole are vertically formed, respectively, the plate is disposed and fixed on the other side facing the insertion hole, and the lower end is tapered to facilitate the longitudinal indentation into the ground, and the inlet grooves are formed on the both sides in the longitudinal direction, respectively. A first support part comprising a main panel having an anchor fitted and fixed to the through hole at an upper end thereof, and a pair of auxiliary panels fixedly movable to be pulled in or pulled out horizontally in the inlet groove; And A through hole penetrated up and down is formed so that the plate is disposed and fixed at the other end of the moving bar, and the lower end is tapered to facilitate longitudinal indentation into the ground, and inlet grooves are formed along the longitudinal direction on both sides thereof. A second support part comprising a main panel having an anchor inserted into and fixed to a ball, and a pair of auxiliary panels that are fixedly movable in or out of the inlet groove in a horizontal direction; Safety diagnostic measuring device for measuring the erosion of the earth, characterized in that consisting of. The method of claim 1, One end is fixed to the fastening hole formed in the plate of the first support via a fixing member, the other end is measured by erosion of the earth, characterized in that it further comprises a hinge that is fixed to the ground by the other fixing member. Safety diagnostic measuring device. The method according to claim 1 or 2, Safety measuring device for measuring the erosion of the earth and sand characterized in that it further comprises a transparent plate for covering the incision to block the inflow of foreign matter into the hollow portion of the frame.