KR20230027773A - Scaffolding Displacement Measuring Device - Google Patents

Abstract

The present invention provides a scaffold displacement measuring device, comprising: a measuring rod having one end fixed to a scaffold installed at a construction site and the other end formed with a displacement measuring needle; and a measuring plate fixed to a surface of a building at the construction site, and capable of checking a vertical displacement and a horizontal displacement by the measuring needle of the measuring rod. The measuring rod includes: a first single rod fixed to the scaffold; a second single rod coupled to the first single rod to be adjustable in length; and a third single rod inserted into the second single rod and having a scale engraved on the surface to check a longitudinal displacement of the measuring rod, wherein a spring is built-in between the second single rod and the third single rod. Therefore, the present invention can provide the displacement measuring device that is easy to install on a scaffold at a construction site, particularly a small-scale construction site.

Description

Scaffolding Displacement Measuring Device {Scaffolding Displacement Measuring Device}

The present invention relates to a scaffolding displacement measuring device, and more particularly, to a scaffolding device installed directly on a scaffold at a construction site to measure three-dimensional displacement, including up-and-down displacement, left-right displacement, and front-back displacement of the scaffold, individually or simultaneously. suggest a device.

Large and small accidents are frequent at construction sites, and the largest number of accidents occurs among all industries. In addition, looking at the current status of fatalities and accidents by construction size, the highest number of accidents occurred at 81% at small construction sites worth less than 5 billion won.

In particular, the proportion of deaths caused by scaffolding in the construction industry is the highest at 18%. Scaffolding is a temporary facility installed to allow smooth access to the relevant place during construction, remodeling, dismantling, and management of structures. There are downsides.

As a result of investigating small-scale construction sites, there are many cases where the fixing of the support part of the scaffolding is poor, which can be attributed to insufficient safety management due to a small budget. Since it is installed directly on the ground, if the ground or surface layer is not sufficiently compacted or reinforced, even a small amount of load can cause antifreeze settlement.

Conventionally, various displacement measurement devices have been proposed. According to Patent Publication No. 10-2013-0091698, in a scaffold assembly in which rectangular unit scaffolds of vertical and horizontal members are stacked and stacked in a large square shape, the vertical angle and inclination change of the scaffold assembly A quick assembly type sensor that evaluates a change in health based on a quick assembly, a processor 100 that analyzes and stores a signal of the sensor that evaluates a change in health in real time, and a communication device that notifies the person concerned and issues an alert when an abnormal state is detected ( 110) is proposing a soundness evaluation and notification device of a scaffold assembly including.

This device includes a quick-assembly type sensor that evaluates a change in integrity based on a change in vertical angle and inclination, a diagonal displacement measuring device 20 that measures the distance between two vertices facing the diagonal of the scaffold assembly, and a foundation outside the scaffold structure. and a relative displacement measuring device 50 connected to a certain point of the scaffolding structure, a tilt measuring device 40 fixed in parallel to the horizontal member of the scaffolding structure, a vertical angle measuring device 30 fixed in parallel to the vertical member of the scaffolding structure, The vertical load measuring device 10 provided at the bottom of the vertical member of the scaffolding structure must be provided, and the video monitoring device 60 installed at a position where the scaffolding structure can be viewed is further included, so that the device configuration is complicated and suitable for small-scale construction sites. There are limits to its application.

Also, according to Patent Registration No. 10-1521843, a measuring device for measuring the displacement of an object, comprising: a fixing member fixed to the object to be measured; Rotating members each rotatably connected to both ends of the fixing member; Doedoe rotatably connected to the pivoting member, the main rod member rotated in a direction different from the rotational direction of the pivoting member with respect to the fixing member; And a rotational displacement sensor provided at the connection part of the rotational member and the main rod member to sense the amount of displacement in the connection part while functioning as a hinge. While it has the advantage of reducing the number of parts and reducing the manufacturing cost by using it, it is not suitable for measuring the displacement of scaffolding because it is a device that measures the 3-dimensional displacement of civil structures such as tunnels and bridges. It is difficult to install in the field, and errors may occur due to malfunction of the sensor because it uses a sensor.

In order to be easily applied to small-scale construction sites, the economic feasibility of the scaffold displacement measurement device and the ease of installation and disassembly must be considered, and a measurement device that can easily check the scaffold displacement with the naked eye is required.

The present invention has been created under the above-mentioned technical background, and an object of the present invention is to provide a displacement measuring device that is easy to install on a scaffold at a construction site, particularly a small-scale construction site.

Another object of the present invention is to provide a device that is easy to install and measure the displacement of the displacement device, and can measure three-dimensional displacement, including vertical and horizontal displacements of the scaffold, as well as displacements in the forward and backward directions, individually or at once.

Another object of the present invention is to provide a novel scaffold displacement measuring device that is inexpensive to manufacture and easy to use in the field.

Other objects and technical features of the present invention will be presented in more detail in the following detailed description.

In order to achieve the above object, the present invention provides a measuring rod having one end fixed to a scaffold installed at a construction site and a displacement measuring needle formed at the other end, fixed to the surface of a building at a construction site, and the vertical displacement by the measuring rod of the measuring rod. and a measuring plate capable of checking the left and right displacement, wherein the measuring rod is inserted into the first single rod fixed to the scaffold, the second single rod coupled to the first single rod to be adjustable in length, and the length of the measuring rod inserted into the second single rod and printed on the surface. It provides a scaffold displacement measuring device, characterized in that it includes a third single rod with a graduation that can check the directional displacement, and a spring is embedded between the second and third single rods.

In the present invention, the first end rod of the measuring rod may be fixed to a scaffold at a construction site with a first clamp, and the measuring plate may be fixed to a building at a construction site with a second clamp.

In the present invention, any one of the first single bar and the second single bar may be inserted into the other one, and the bolts for fixing by adjusting the insertion degree of the first single bar and the second single bar are the first and second single bars. It can be fastened to the surface of any one of the single rods.

In the present invention, it is preferable that the first end rod and the second end rod are pipe structures with hollow insides, and the third end rods are pipe structures with closed insides. Further, in the present invention, it is preferable that the spring is loaded into the inside of the double rod.

According to the present invention, as a scaffold displacement measuring device having a simple structure, it measures not only vertical or horizontal displacement of the scaffold, but also three-axis displacement including displacement corresponding to the longitudinal direction of the scaffold by inserting a spring between the second and third stages of the measuring rod. possible.

The scaffolding displacement measuring device of the present invention can be combined and installed according to the size of various existing scaffolding, can be easily used at a small construction site, and can be installed in several places at one construction site because the overall size is not large, and can be installed at the site. Easy to install and dismantle.

The installed measuring device makes it easy to recognize even minute displacements at a glance and can measure the displacement of scaffolds in real time on site, so scaffold collapse accidents can be prevented.

In addition, since it is physically measured differently from existing displacement measuring devices using sensors, manufacturing and cost of parts are low, so the cost is low, and it is possible to manufacture using commercially available parts.

1 is a schematic diagram showing a scaffold displacement measuring device of the present invention
Figure 2 is a cross-sectional view showing the measurement unit structure
Figure 3 is a side view comparing the state in which the length of the measuring part is changed
Figure 4 is a schematic diagram showing the internal structure of the measuring unit
5a and 5b are schematic diagrams showing a displacement measurement method;
6a and 6b are schematic diagrams showing a method of installing a displacement measuring device on scaffolding and buildings at a construction site;
7a and 7b are photographs showing a scaffold displacement measuring device installed in an actual construction site

Scaffolding used in construction sites is vulnerable to floating settlement. However, it is difficult to feel the displacement of the scaffold, so many people work without knowing that the scaffold is tilted, which increases the risk of scaffold collapse. Even the slightest inclination of some of the scaffolding can affect the scaffolding surrounding the entire building. If there is a device that measures the displacement of the scaffold, the collapse of the entire scaffolding system can be prevented in advance.

The present invention is a displacement measuring device installed directly on a scaffold, composed of a measuring unit and a measuring plate, and basically measures the amount of change of the scaffold in the vertical and horizontal biaxial directions of the building, and is easy to apply to small-scale construction sites. In addition to this, the length adjustment function of the measuring part is added, so it is possible to measure the displacement in the 3-axis direction in the longitudinal direction as well as the measurement in the 2-axis direction, up, down, left and right.

The scaffold displacement measuring device of the present invention includes a measuring rod including a first end rod, a second end rod, and a third end rod as a measuring unit of a multi-stage pipe structure, and a fixing clamp connected to the first end rod of the measuring rod and fixed to the scaffold. In addition, the measuring device includes a measuring plate for visually checking scaffold displacement by contacting the end of the third end bar of the measuring rod and a fixing clamp for fixing the measuring plate to the building. It is preferable that the measuring rod is formed in at least a three-stage structure, and a spring is embedded between the second and third stages to check the displacement of the scaffold in the forward and backward directions, and a length adjustment and fixing bolt is included between the first and second stages to ensure the scaffold. The distance between the measuring part with one end fixed and the measuring plate can be adjusted. A scale is formed on the surface of the third end of the measuring rod to measure the length change in the forward and backward directions, so that the forward and backward displacement of the scaffold can be measured.

Hereinafter, with reference to the drawings, the technical configuration and operation of the present invention will be described in more detail through preferred embodiments.

1 is a schematic diagram showing the scaffold displacement measuring device of the present invention, wherein the displacement measuring device 100 includes a probe-type measuring unit 110 capable of adjusting the length and a measuring plate 130 installed on the outer wall of a building, etc. The part and the measuring plate are fixed to the scaffold and the building by fixing means such as clamps 120 and 140, respectively.

2 is a cross-sectional view showing the structure of the measuring unit 110. The measuring unit is composed of a rod-shaped structure having one end fixed to a scaffold 210 installed at a construction site and the other end having a displacement measuring needle 113a formed thereon. As will be described later, the measuring unit can be adjusted according to the construction site situation by varying the overall length. 112), and a third single rod 113 inserted into the second single rod and having a scale 113b engraved on the surface thereof to check the displacement of the measuring rod in the longitudinal direction. The meter reading scale on the surface of the third single bar corresponds to a kind of displacement target that can check the movement of the scaffold in the forward and backward (front and rear) directions.

The measuring unit including the measuring rod and the fixing clamp 120 is installed vertically close to the measuring plate fixed to the surface of the building at the construction site, and the vertical and horizontal displacements of the scaffold can be checked by the measuring needle of the measuring rod. It is necessary to adjust the distance between the entire measuring rod and the measuring plate or the distance between the measuring rod and the measuring plate so that the distance between the measuring needle and the surface of the measuring plate is minimized so that the position change of the measuring needle can be easily checked. . In the present invention, the bolt 114 for adjusting and fixing the insertion degree of the first and second single rods is fastened to the surface of any one of the first and second single rods, and the first and second single rods are connected to the measuring rod. One of them is configured to be inserted into the other one. 3 shows a comparison of changes in the length of the entire measurement unit by adjusting the relative distance or length between the first and second single bars.

Figure 4 is a schematic diagram showing the internal structure of the measuring unit, wherein the first and second single rods are pipe structures with empty insides, and the third single rod is composed of a pipe structure with an inside closed, and the third single rod has a measurement scale on the surface of the single rod. this is formed A spring is built between the second single bar and the third single bar. In the present invention, by inserting the spring into the second single bar, the forward and backward displacement of the scaffold is confirmed by the length change of the third single bar. That is, the longitudinal displacement of the measuring rod can be measured by checking the scale formed on the surface of the third single rod, and as a result, the longitudinal displacement of the scaffold can be confirmed.

The scaffolding displacement measuring device of the present invention measures the displacement of the scaffold by installing a measuring device in the space between buildings such as scaffolding installed near the outer wall of a building under construction at a construction site and the outer wall of a building, and attaching a measuring plate to the outer wall of the building. 5a and 5b are schematic diagrams showing a displacement measurement method. The length of each part of the illustrated measuring unit is shown as an example, and may vary depending on the scaffolding installation position at the construction site. As described above, in the measuring device, a spring is installed between the second and third single rods so that the tip (measuring needle) of the measuring device comes into contact with the surface of the measuring plate. The measuring rod can simultaneously measure 2-axis displacement in the up-down or left-right directions depending on whether the scaffold is displaced or not, and can also measure displacement in the 3-axis direction corresponding to the change in the distance between the scaffold and the building. there is. Since the tip of the measuring device is in contact with the measuring plate, it is possible to accurately measure scaffold displacement and the degree of displacement. there is.

The measuring device is made of the same material as the steel pipe and has a short overall length, so that downward deflection can be prevented even during long-term use in the installed state. If the distance between the scaffolding and the building is different for each construction site, the relative distance between the first and second single rods is adjusted using the fixing bolts of the measuring part when the measuring part and the measuring plate are installed on the scaffold and the outer wall of the building, respectively, to adjust the site situation. can be fixed to an optimized length.

6a and 6b are schematic diagrams showing a method of installing a displacement measuring device on scaffolding and buildings at a construction site, wherein the first end rod of the measuring rod is fixed to the scaffolding at the construction site with a first clamp 120 (FIG. 6a), and the measurement The plate is fixed to the building at the construction site with the second clamp 140. Since the scaffold is usually composed of a circular pipe, the first clamp is relatively small in size, whereas the second clamp is large in size, such as an L-shaped clamp, to fix the measuring plate to the outer wall of the building.

Install the first single rod to be fixed to the pipe constituting the scaffold by using the first clamp for fixing the measuring part. In addition, the measurement plate is fixed to the surface of the building via the L-shaped second clamp at the opening such as the outer wall of the building after the center of the measuring scale engraved inside is located at the measuring needle. On the other hand, in order to control the length of the measuring needle at the end of the third single bar of the measuring part to touch the surface of the measuring plate fixed to the outer wall of the building, loosen the fixing bolt of the first single bar and adjust the insertion and protrusion of the second single bar. After that, tighten the bolt again to change the relative length of the first and second single bars.

With the measuring part and measuring plate installed, it is possible to measure 3-dimensional changes such as the height or inclination of scaffolding during building construction. Check and record the displacement in the anteroposterior longitudinal direction through the scale change. When installed at the recommended installation standard of 3000mm, it can measure up to about 4˚ displacement.

7a and 7b are photographs showing a scaffold displacement measuring device installed in an actual construction site. It can be seen that one end of the measuring device is fixed to the scaffolding pipe and the other end is fixed to the center of the measuring plate. The measurement plate may be directly attached to the outer wall of the building or the like, or may be fixed to the outer wall of the building using the above-described clamp.

At a construction site, even minute displacements of scaffolding have a great impact, and small movements can accumulate and lead to collapse of the scaffold or fall accidents. can do. In particular, many accidents occur in small-scale construction sites due to insufficient scaffolding management, but the production unit cost is low, so it can be fully used in small-scale sites. It has the advantage of being easy to install and dismantle.

In particular, the spring is built into the measuring device to enable detailed measurement of displacement in the 3-axis direction as well as the displacement in the 2-axis direction, and by checking the floating settlement through scaffold displacement, collapse accidents can be prevented and safety at the construction site can be greatly improved.

Although the present invention has been illustratively described through preferred embodiments above, the present invention is not limited to such specific embodiments, and various forms are provided within the scope of the technical idea presented in the present invention, specifically, the claims. may be modified, changed, or improved.

100: scaffold displacement measuring device 110: measuring unit
111: first single bar 112: second single bar
113: third single bar 113a: measuring needle
113b: measurement scale 114: fixing bolt
115: spring 120: first clamp
130: measuring plate 140: second clamp
210: Scaffolding 220: Building

Claims (5)

A measuring rod having one end fixed to a scaffold installed at a construction site and a displacement measuring needle formed on the other end;
It is fixed to the surface of the building at the construction site and includes a measuring plate capable of checking vertical displacement and left and right displacement by the measuring needle of the measuring rod,
The measuring rod is a first single rod fixed to the scaffold, a second single rod coupled to the first single rod to be adjustable in length, and a third single rod inserted into the second single rod and having a graduation engraved on the surface to check the longitudinal displacement of the measuring rod. include,
Characterized in that a spring is built-in between the second single bar and the third single bar
Scaffold displacement measurement device.
According to claim 1,
The scaffold displacement measuring device, characterized in that the first end of the measuring rod is fixed to the scaffold at the construction site with a first clamp, and the measuring plate is fixed to the building at the construction site with a second clamp.
According to claim 1,
Any one of the first single bar and the second single bar may be inserted into the other one, and the bolt for fixing by adjusting the insertion degree of the first single bar and the second single bar is either one of the first single bar and the second single bar. Scaffold displacement measuring device, characterized in that fastened to the surface.
According to claim 1,
The scaffold displacement measuring device, characterized in that the first end rod and the second end rod are pipe structures with an empty inside, and the third end rod is a pipe structure with an inside blocked.
According to claim 1,
The spring is a scaffold displacement measuring device, characterized in that loaded inside the double rod.

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