KR102643917B1 - Scaffolding Displacement Measuring Device - Google Patents

Abstract

The present invention provides a measuring rod, one end of which is fixed to a scaffold installed at a construction site and the other end of which is formed with a displacement measuring needle, and which is fixed to the surface of a building at a construction site, and the vertical displacement and left and right displacement can be confirmed by the measuring needle of the measuring rod. It includes a measuring plate, wherein the measuring rod includes a first single rod fixed to the scaffold, a second single rod coupled to the first single rod so that the length is adjustable, and a scale inserted into the second rod and having a scale on the surface to check the longitudinal displacement of the measuring rod. A scaffold displacement measuring device is provided, which includes an engraved third end bar, and a spring is built between the second end bar and the third end bar.

Description

Scaffolding Displacement Measuring Device

The present invention relates to a scaffold displacement measurement device, and more specifically, to a new scaffolding displacement measurement device that can be installed directly on a scaffold at a construction site to measure three-dimensional displacement, including vertical displacement, left and right displacement, and forward and backward displacement of the scaffold, individually or at once. Propose a device.

Accidents large and small occur frequently at construction sites, and the largest number of accidents occur among all industries. In addition, looking at the status of deaths and accidents by construction size, the highest number of accidents (81%) occurs at small-scale construction sites with less than KRW 5 billion.

In particular, among the construction industry fatalities, the proportion caused by scaffolding is the highest at 18%. Scaffolding is a temporary facility installed to provide smooth access to the relevant location when performing work such as construction, remodeling, dismantling, and management of a structure. As it is easy to combine members, it has low precision and is prone to unsafe defects. There is a downside.

As a result of investigating small-scale construction sites, there are many cases where the support portion of the scaffolding is poorly fixed, which can be attributed to insufficient safety management due to the small budget. Since it is installed directly on the ground, if the ground or surface layer is not sufficiently compacted or reinforced, floating settlement may occur even with a small load.

Various displacement measuring devices have been proposed in the past. According to Publication Patent No. 10-2013-0091698, in a scaffold assembly made by stacking square unit scaffolds of vertical and horizontal members into a large square shape, the vertical angle and tilt of the scaffold assembly changes. Based on this, a quickly assembled sensor that evaluates changes in health, a processor (100) that analyzes and stores the signal from the sensor that evaluates the change in health in real time, and a communication device that notifies the relevant person and issues a warning when an abnormal state is detected ( 110), a health evaluation and notification device for scaffolding assemblies is proposed.

This device is a quickly assembled sensor that evaluates changes in health based on changes in vertical angle and tilt, a diagonal displacement meter (20) that measures the distance between two vertices facing the diagonal of the scaffold assembly, and a base outside the scaffold structure. A relative displacement measuring device (50) connected to a certain point of the scaffolding structure, a tilt measuring device (40) fixed 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, Each vertical load measuring device (10) installed at the bottom of the vertical member of the scaffolding structure must be provided, and a video surveillance device (60) installed at a position where the scaffolding structure can be viewed is further included, making the device configuration complex and suitable for small-scale construction sites. There are limits to its application.

Also, according to Patent Registration No. 10-1521843, it is a measuring device for measuring the displacement of an object, comprising: a fixing member fixed to the object to be measured; Rotating members rotatably connected to both ends of the fixing member; A main rod member rotatably connected to the rotating member, but rotated in a direction different from the rotating direction of the rotating member with respect to the fixing member; and a rotational displacement sensor provided at the connection portion of the rotational member and the main rod member, respectively, to function as a hinge and detect the amount of displacement at the connection portion. This technology includes a rotational displacement sensor with a rotational axis that rotatably connects the components. While it has the advantage of reducing production costs by reducing the number of parts, it is not suitable for measuring the displacement of scaffolding because it is a device that measures the three-dimensional displacement of civil engineering structures such as tunnels and bridges, and is not suitable for use in construction where scaffolding is used. It is difficult to install in the field, and since it uses sensors, errors may occur due to sensor malfunction.

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 taken into consideration, and a measurement device that can easily confirm the scaffold displacement with the naked eye is needed.

The present invention was created under the above-described technical background, and the purpose of the present invention is to provide a displacement measuring device that is easy to install on scaffolding at construction sites, especially small-scale construction sites.

Another object of the present invention is to provide a device that is easy to install and measure displacement of the displacement device, and can measure three-dimensional displacement, including displacement in the forward and backward directions as well as up and down and left and right displacements of the scaffold, separately or all at once.

Another object of the present invention is to provide a new scaffold displacement measurement device that is inexpensive to manufacture and easy to utilize in the field.

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

In order to achieve the above object, the present invention provides a measuring rod, one end of which is fixed to a scaffold installed at a construction site and the other end of which is formed with a displacement measuring needle, and which is fixed to the surface of a building at a construction site, and the vertical displacement is measured by the measuring needle of the measuring rod. and a measuring plate capable of checking left and right displacement, wherein the measuring rod includes a first single rod fixed to the scaffold, a second single rod coupled to the first single rod so that the length is adjustable, and the length of the measuring rod inserted into the second rod and on the surface. A scaffold displacement measuring device is provided, including a third bar with a graduated scale capable of checking directional displacement, and having a spring built in between the second and third bars.

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

In the present invention, one of the first single rod and the second single rod can be inserted into the other, and the bolt for fixing the first single rod and the second single rod by adjusting the insertion degree of the first single rod and the second single rod can be inserted into the other. 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 and the second end are pipe structures with an empty interior, and the third end is a pipe structure with a closed interior. Additionally, in the present invention, it is preferable that the spring is installed inside the two-stage rod.

According to the present invention, it is a scaffold displacement measuring device of a simple structure, which measures not only the vertical or left and right displacement of the scaffold, but also the three-axis displacement, including the 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 scaffold displacement measuring device of the present invention can be combined and installed according to the size of various existing scaffolds, and can be easily used even at small-scale construction sites. The overall size is not large, so it can be installed in multiple locations at one construction site as well as on-site. Easy to install and dismantle.

The installed measuring device makes it easy to detect even the slightest displacement at a glance and prevents scaffolding collapse accidents because it can measure the displacement of the scaffold in real time on site.

In addition, unlike displacement measuring devices using existing sensors, it measures physically, so the manufacturing and cost of parts are low, so it is inexpensive, and it is also possible to manufacture using commercial parts.

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

Scaffolding used at construction sites is vulnerable to floating settlement. However, it is difficult to feel the displacement of the scaffold, so people often work without knowing that the scaffold is tilted, which increases the risk of scaffold collapse. If any part of the scaffolding tilts even slightly, it 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 scaffold system can be prevented in advance.

The present invention is a displacement measuring device installed directly on a scaffold. It consists of a measuring unit and a measuring plate, and basically measures the amount of change in the scaffolding in the two axes of the building, up and down and left and right, and is easy to apply to small-scale construction sites. In addition, the length adjustment function of the measuring part has been added, making it possible to measure displacement in 3 axes along the length as well as in 2 axes, up, down, left and right.

The scaffold displacement measuring device of the present invention is a measuring unit of a multi-stage pipe structure and includes a measuring rod including a first end, a second end, and a third end, and a fixing clamp connected to the first end of the measuring rod and fixed to the scaffold. In addition, the measuring device includes a measuring plate that allows the scaffold displacement to be visually confirmed by contacting the end of the third end of the measuring rod, and a fixing clamp that secures the measuring plate to the building. It is preferable that the measuring rod is formed in at least a three-stage structure. A spring is built between the second and third stages to check the forward and backward displacement of the scaffold, and between the first and second stages there are length adjustment and fixing bolts to secure 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 stage of the measuring rod to measure the change in length in the front-to-back direction, making it possible to measure the front-to-back displacement of the scaffold.

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

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

Figure 2 is a cross-sectional view showing the structure of the measuring unit 110. The measuring unit is composed of a rod-shaped structure with one end fixed to a scaffold 210 installed at a construction site and a displacement measuring needle 113a formed at the other end. As described later, the measuring part can be adjusted to suit the conditions of the construction site by varying the overall length, and for this purpose, the measuring rod includes a first single rod (111) fixed to the scaffold, and a second single rod (111) that is coupled to the first single rod so that the length is adjustable ( 112), and includes a third single rod 113 that is inserted into the second single rod and has a scale 113b engraved on its surface to check the longitudinal displacement of the measuring rod. The meter reading scale on the surface of the third single bar corresponds to a type of displacement target that can check the movement of the scaffold in the front and back (forward and backward) directions.

The measuring unit, which includes the measuring rod and the fixed 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 left-right displacement of the scaffold can be confirmed 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 needle of the measuring rod and the measuring plate, so that changes in the position of the measuring needle can be easily confirmed by minimizing the distance between the measuring needle of the measuring part and the surface of the measuring plate. . In the present invention, the bolt 114, which adjusts and fixes the insertion degree of the first single rod and the second single rod, is fastened to the surface of one of the first single rod and the second single rod, so that the first single rod and the second single rod are connected to the measuring rod. One of them is configured so that it can be inserted into the other one. Figure 3 shows a comparison of changes in the overall length of the measurement unit by adjusting the relative distance or length between the first and second end rods.

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 an empty interior, the third single rod is composed of a pipe structure with a closed interior, and a measurement scale is provided on the surface of the third single rod. This is formed. A spring is built between the second and third bars. In the present invention, by inserting the spring inside the second bar, the forward-backward displacement of the scaffold is confirmed by the change in the length of the third 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 forward-forward displacement of the scaffold can be confirmed.

The scaffold displacement measuring device of the present invention installs 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 the building, and attaches a measuring plate to the outer wall of the building to measure the displacement of the scaffolding. Figures 5a and 5b are schematic diagrams showing the displacement measurement method. The length of each part of the shown measuring part is an example and may vary depending on the location of scaffolding installed at a construction site. As described above, in the measuring device, a spring is installed between the second and third rods so that the end (measuring needle) of the measuring device contacts the surface of the measuring plate. The measuring rod can simultaneously measure displacement in two axes, up and down or left and right, depending on whether the scaffold is displaced, and can even measure displacement in the three-axis direction, corresponding to the change in the distance between the scaffold and the building, along the length of the measuring rod. there is. Since the end of the measuring device is in contact with the measuring plate, it is possible to accurately measure whether the scaffold is displaced and the degree of displacement. For example, the movement of the scaffold can be easily confirmed with the naked eye and quantified at the same time through graduations made at 5 mm intervals on the measuring plate. there is.

The measuring device is manufactured from the same material as a steel pipe and has a short overall length to prevent downward sagging even during long-term use in the installed state. If the gap between the scaffolding and the building is different for each construction site, when installing the measuring unit and measuring panel on the scaffold and the exterior wall of the building, etc., use the fixing bolt of the measuring unit to adjust the relative distance between the first and second rods to adjust the relative distance between the first and second rods to determine the site situation. It can be fixed to an optimized length.

Figures 6a and 6b are schematic diagrams showing a method of installing a displacement measuring device on scaffolding and buildings at a construction site. The first end 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 a second clamp (140). Since the scaffold is usually composed of a circular pipe, the first clamp is relatively small in size, while the second clamp is large in size, such as an L-type clamp, to secure the measuring plate to the exterior wall of a building, etc.

Using the first clamp for fixing the measuring part, install the first end bar so that it is fixed to the pipe constituting the scaffold. In addition, the measuring plate is fixed to the surface of the building using an L-shaped second clamp at an opening such as the outer wall of the building so that the center of the measuring scale engraved inside is located on the measuring needle. Meanwhile, in order to control the length of the measuring needle at the end of the third single rod of the measuring unit so that it touches the surface of the measuring plate fixed to the exterior wall of the building, loosen the fixing bolt of the first single rod and adjust the degree of insertion and protrusion of the second single rod. After that, tighten the bolt again to change the relative length of the first and second bars.

With the measuring unit and measuring board installed, three-dimensional changes such as height and tilt of scaffolding can be measured during building construction. Displacements in the two axes, up and down and left and right, can be checked through the scales on the measuring board, while measuring the surface of the third single bar. Check and record the displacement in the front-to-back longitudinal direction by changing the scale. When installed at the recommended installation standard of 3000mm, displacement of up to approximately 4° can be measured.

Figures 7a and 7b are photographs showing a scaffold displacement measurement device installed at an actual construction site. You can see 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 measuring plate may be attached directly to the exterior wall of a building, etc., or may be fixed to the exterior wall of the building using the clamp described above.

At a construction site, even a slight displacement of scaffolding has a significant impact, and small movements can accumulate and lead to a collapse of the scaffold or a fall accident. However, the scaffolding displacement measuring device of the present invention can easily detect small displacements with the naked eye to prevent scaffolding-related accidents in advance. can do. In particular, among construction sites, many accidents occur due to insufficient management of scaffolding at small-scale sites. However, the production cost is low, so it can be fully utilized at small-scale sites, and since there are no other changes after installation of the measuring device, it is not only easy to manage, but also quickly on site. It has the advantage of being easy to install and dismantle.

In particular, by embedding a spring in the measuring device, it is possible to measure in detail not only the displacement in the two-axis direction but also the displacement in the three-axis direction. By checking the floating settlement through the scaffold displacement, collapse accidents can be prevented and the safety of the construction site can be greatly improved.

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

100: Scaffold displacement measuring device 110: Measuring unit
111: 1st single bar 112: 2nd single bar
113: Third single rod 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, one end of which is fixed to a scaffold installed at a construction site and the other end of which is formed with a displacement measuring needle,
It is fixed to the surface of a building at a construction site and includes a measuring plate that can check vertical displacement and left and right displacement using 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 so that the length can be adjusted, and a third single rod inserted into the second rod and engraved on the surface with a scale to check the longitudinal displacement of the measuring rod. Contains,
There is a spring built in between the second and third rods,
The first end of the measuring rod is fixed to the scaffolding 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.
Scaffolding displacement measuring device.
delete According to paragraph 1,
Either of the first single rod and the second single rod can be inserted into the other, and the bolt that adjusts the degree of insertion of the first single rod and the second single rod and fixes it is installed on one of the first single rod and the second single rod. A scaffold displacement measuring device, characterized in that it is fastened to the surface.
According to paragraph 1,
The first and second end rods are pipe structures with an empty interior, and the third end rod is a pipe structure with a closed interior.
According to paragraph 1,
A scaffold displacement measuring device, characterized in that the spring is charged inside a two-stage rod.