KR100670976B1 - Apparatus for measuring displacement of ground settlement using pulley - Google Patents

Abstract

An apparatus for measuring sinking extent of a ground using a pulley is provided to easily sense the fine sinking fluctuation by using the rotating pulley and attaching the rotary-type potentiometer. An apparatus for measuring sinking extent of a ground using a pulley(26) comprises a sinking plate(25) installed in the object; a fixing anchor(20) fixed at the lower part of the ground; a sinking measuring pipe(21) installed between the sinking plate and the fixing anchor; the single pulley mounted on the sinking plate and rotatably mounted to both directions; a steel wire(22) whose one end is connected to the fixing anchor and other end is perpendicularly extended through the pulley; a weight(23) placed in the sinking measuring pipe and connected to the other end of the steel wire to pull the steel wire; a rotary-type potentiometer(27) mounted at the same rotary shaft as the rotary shaft of the pulley; a measuring cable(29) transferring the electric signal to the ground; and a protective box(28) protecting the pulley and the potentiometer.

Description

Apparatus for Measuring Displacement of Ground Settlement Using Pulley}

1 is a buried underground installation diagram of a conventional ground subsidence measuring device,

2 is an explanatory diagram for explaining the principle of settlement measurement of the conventional ground settlement measurement device,

3 is a buried installation diagram of the ground subsidence measuring apparatus using a pulley according to the present invention,

 4 is an explanatory diagram for explaining the principle of settlement measurement of the ground settlement measurement apparatus using a pulley according to the present invention;

5 is a schematic configuration diagram showing a protection box further including an extra cable storage space.

 (Explanation of symbols for the main parts of the drawing)

10,20; Fixed anchor 11; Corrugated pipe

12,22; Steel wire 13,25; Sinking plate

14,28; Protective box 15; Reel

16; Data extractor 17,29; Cable

18; Display section 21; Settlement tube

22a, 22b; First and second steel wire portions 23,23a, 23b; Weight

24; Steel wire sheath 26; Pulley

26a; Axis 27; potentiometer

28a; Cable space 30; Multichannel Measurement Module

31; Communication cable 32; Data logger

33; Settlement measurement distance 34: Measuring tube fixing guide

35; Measuring tube coupling 21a; Unit

The present invention relates to a device for measuring the ground subsidence of the soft ground by using a pulley, the land sedimentation amount by embedding the ground sediment measuring device in the fill in the construction of roads, landfills and soft ground The present invention relates to a device that can monitor the behavior of civil structures and grounds, and can also analyze three-dimensionally by measuring the amount of settlement for each fill layer by automatic measurement.

Since the settlement of roads, landfills and soft ground is directly related to the stability of civil structures constructed on the ground, the amount of physical change in which the foundation ground subsides, i.e., the soil, when the soil is piled up on the soft ground for civil works Settlement should be measurable and predictable in advance.

Referring to the installation example of a conventional displacement measuring device of a representative civil structure as follows.

1 is a diagram illustrating the underground laying of the ground subsidence measuring apparatus disclosed in Korean Patent Laid-Open Publication No. 1999-30353.

As shown in Fig. 1, in order to measure the ground settlement, the boring ball wall 9 is formed from the settlement plate 13 installed in the soft ground under the fill to the ground where no ground subsidence is formed, and the settlement width of the soft ground is as follows. The corrugated pipe 11 is provided in the boring hole wall 9 so that it contracts.

At the top of the soft ground, the sinking plate 13 and the measuring device 8 are installed, and the outside is protected by a protective box 14, and one end of the steel wire 12 is fixed to the fixed anchor 10 installed on the ground without settlement. The other end of the steel wire 12 is connected to the measuring machine winding reel 15. Therefore, when the corrugated pipe 11 is folded and the needle plate 13 is lowered according to the ground subsidence, the spring (19 in FIG. 2) installed inside the measuring machine winding reel 15 is wound to rotate the winding reel 15. In accordance with the rotation of the winding reel 15, the electrical signal generated from the data extractor 16 is displayed on the display unit 18 via the measurement cable 17.

However, the conventional ground settlement measuring apparatus described above has a structure in which a detector for detecting ground settlement is embedded in the ground as shown in FIG. 2 and includes a winding reel 15, a driving spring 19, and a data extractor 16. Is complicated, and frequent failures occur.

In general, embankment work on soft grounds and landfill sites continues for at least one to several years. The above-mentioned prior art has a draw force of the internal drive spring 19 is weakened even after only a few months can not pull the steel wire in response to the ground subsidence, even if the actual settlement occurs, there is no result, the drive spring 19 This has a problem that causes loosening and malfunction.

In addition, although the electronic circuit of the data extractor 16 is old and malfunctions, or a failure occurs frequently due to internal flooding, the ground subsidence measuring device, which has failed once, is buried in the ground, and thus, repair of the failure is impossible, and a repair is attempted. In this case, there was a difficult problem that a lot of manpower and equipment is wasted. In addition, the data extractor should be replaced after a certain time since the battery for the backup (BACKUP) for constant power supply is not suitable for use in construction sites with continuous reclamation work.

Korean Patent Laid-Open Publication No. 2004-108384 is inserted perpendicular to the soft ground and the sand layer or the fill layer, and can measure the ground subsidence of the soft ground by a measuring device installed on the upper surface of the fill layer. Ground subsidence measuring apparatus; A buried ground subsidence measuring device which is buried between the upper layer surface of the soft ground and the fill layer to the sand layer to automatically measure the ground subsidence of the soft ground; And buried between the top layer of the soft ground and the fill layer to the sand layer, the sinking rod that can measure the ground subsidence of the soft ground and the corrugated protective tube to protect the sinking rod is protruding to protrude into the fill layer A multifunctional ground subsidence measuring apparatus including a ground subsidence measuring apparatus is disclosed.

However, the measurement apparatus of Korean Patent Laid-Open Publication No. 2004-108384 uses the ground subsidence measuring apparatus disclosed in Korean Laid-Open Patent Publication No. 1999-30353, and this technique also has many problems.

On the other hand, Korean Patent No. 220923 is applied to measure and manage the deformation of various structures generated by the influence of ground behavior, wind power, vibration, etc. in civil engineering works such as roads, bridges, ports, and dams, An apparatus and method for automatically measuring the length deformation using an encoder that can take the length deformation of the structure according to the influence as an electric pulse signal and count it and convert it to the length deformation, and also can be measured at a remote location automatically have.

The Korean patent discloses a measurement wheel for changing a linear motion that changes according to the deformation of a structure into a rotational motion, an encoder for generating a pulse signal in conjunction with rotation of the measurement wheel, and counting a pulse signal generated from the encoder. Although it includes a control means for calculating the amount of deformation, such a structure is not suitable for measuring the ground settlement, there is a problem that the possibility of malfunction due to flooding and maintenance is difficult when the encoder is installed in the ground.

On the other hand, Korean Patent No. 195789 has a settlement plate buried to sink like ground in the basement to measure the amount of settlement of the ground, and is connected through the piano wire from the settlement plate to convert the linear motion according to the settlement of the settlement plate into a rotary motion Ground sediment automatic measurement device using an encoder consisting of a measuring wheel, an encoder for generating a pulse signal in conjunction with the rotation of the measuring wheel, and a control means for counting the pulse signal generated from the encoder to calculate the ground settlement amount Is disclosed.

Patent No. 195789 has only a sedimentation plate embedded in the ground and detects the sedimentation movement of the ground through a measuring wheel installed on the ground through a piano wire connected to the settlement plate. It is not suitable for measuring settlement by embedding the device in the ground at the construction site where the landfill work is performed. The reason is that there is a complicated electronic device to control the encoder and a memory storage electronic circuit, so that the electronic device is frequently damaged due to shock and leakage, and the measurement data is erased even when the power supply is suspended. Since there is a battery for backup, it needs to be replaced after a certain period of time, so it is not suitable for use in construction sites with continuous landfill construction.

The present invention has been made to solve the problems of the conventional measuring device as described above, its purpose is to rotate without using a reel and a spring to pull the steel wire connected to the fixed anchor of the lower ground as the ground subsides Using the weight connected with the pulley and the steel wire, it is possible to measure the accurate displacement amount corresponding to the ground subsidence even if time passes, and there is no built-in memory device for data storage, so there is no need for a backup battery, and the power supply is always By using only a simple potentiometer instead of a complex data extractor, it is possible to provide a ground subsidence measuring device that is easy to install and lowers the probability of failure.

Another object of the present invention by connecting the weight (WEIGHT) to one end of the steel wire and the other end of the steel wire to the fixed anchor via the pulley (PULLEY), ground subsidence occurs on the same principle as the balance balance of bilateral balance (BALANCE) The lower weight and the pulley acts to provide a ground subsidence measuring device that can detect minute ground subsidence changes.

Another object of the present invention is to position the multi-channel measurement module that can be connected to the measurement cable of a plurality of ground subsidence devices in the non-sedimented ground and to connect the data logger, automatic measurement is possible, easy ground maintenance measurement To provide a device.

In order to achieve the above object, the ground subsidence measuring apparatus of the present invention in the ground subsidence measuring apparatus for measuring the ground subsidence of any one of the measured object of soft ground, road, landfill, slope and dam, A settled plate installed, a fixed anchor fixed to the bottom of the ground without settlement of the measurement object, a settled measurement tube installed between the settled plate and the fixed anchor and contracted according to the ground settled, and installed on the settled plate and rotatable A pulley and a steel wire having one end connected to the fixed anchor in the settlement measuring tube and the other end extending in the vertical direction through the pulley so that the vertical length changes according to the contraction of the settlement measuring tube, and the other end of the steel wire. A weight which is connected and pulls the steel wire by a vertical length change, a potentiometer for converting the amount of rotation of the pulley into an electrical signal, and That comprising the hwandoen electrical signal to the measuring cable is passed to the surface is characterized.

In addition, the present invention has another feature capable of automatic measurement by connecting a multi-channel measurement module that can connect the measurement lines of the plurality of devices and a data logger capable of collecting data.

In the present invention, the measurement device embedded in the ground for the measurement of ground subsidence is very simple, so that the installation is easy and there is no failure, the measurement module is to be installed on the ground without settlement so that the failure can be repaired.

In addition, the sedimentation measuring tube is not a corrugated tube, but a telescopic tube that allows the tube section to be contracted, and a tube insertion guide (GUIDE) is formed at the lower part of the sink plate so that it does not fall sideways under the ground subsidence. To go down.

Furthermore, the sediment detection speed can be adjusted by adding or subtracting the weight of the WEIGHT according to the soil soil and water pressure, and a softly shrinkable steel wire protection tube was inserted to the expected settlement length so that the wires do not get tangled with each other.

In addition, by using a rotary pulley (PULLEY) that fits the center of gravity, it has the advantage that it can detect minute settlement fluctuations.

In addition, since the structure of the present invention is very simple in structure and can be designed to have a small appearance, since the free space is formed in the sinking plate, it is possible to additionally install an inclination sensor or a manual sinking rod on the sinking plate. It can be done.

(Example)

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

3 is a diagram illustrating the underground installation of the ground settlement measuring apparatus using the pulley according to the present invention, and FIG. 4 is an explanatory diagram for explaining the principle of settlement measurement of the ground settlement measuring apparatus using the pulley according to the present invention.

Referring to Figure 3, the ground settlement measurement device using the pulley according to the present invention to protect the fixed anchor 20 and the steel wire (22) connected to the fixed anchor under the ground without settlement, and contracted according to the ground settlement The steel wire 22 having one end connected to the settlement measuring tube 21 and the fixed anchor and having a vertical length changed according to the contraction of the settlement measuring tube 21, and a weight pulling the steel wire as much as the vertical length is connected to the other end of the steel wire. A weight 23, a pulley 26 that rotates as the steel wire is pulled, a potentiometer 27 that converts the amount of rotation of the pulley 26 into an electrical signal, and a measurement cable that transmits the converted electrical signal to the ground ( 29).

The electric signal can be measured by simply connecting a common voltmeter to the measurement cable 29 drawn out to the ground for manual measurement, and for measuring automatically the multi-channel measurement module for the measurement cable 29. After the analog signal is converted into digital data by connecting to 30, a well-known digital communication method using a communication cable 31, for example, a long-distance communication using an RS-232C method using a one-line bus, for example, a manager Remote logging can be achieved by storing it in a data logger 32, which is a data collection device installed in the control station where the resident resides. Then, by analyzing the settlement data stored in the data logger 32 with a computer and displaying the analysis results in a graph on the display it is possible to ensure the stability due to soft ground settlement.

In the present invention, the ground subsidence measuring device is simply fixed and installed at the measurement site, and the measurement time and manpower are reduced by automatically measuring the ground subsidence in the office using a computer communication line. It is possible to measure the ground settlement easily and quickly.

The settlement measuring tube 21 of the present invention protects the steel wire 22 connected to the fixed anchor and contracts the plurality of unit measuring tubes 21a and the plurality of unit measuring tubes 21a so as to contract according to the ground settlement. It consists of a plurality of measuring tube couplings 35 to connect the joint shrinkage (TELESCOPIC TYPE) is made.

The upper end of the settlement measuring tube 21 is coupled to the measuring tube fixing guide 34 (GUIDE) installed in the lower plate 25, the measuring tube coupling (35) node shrinks during the ground subsidence 25) were to be moved vertically without tilting to the side, and when there was no ground subsidence, they were not moved from side to side.

In addition, the steel wire protection tube 24 extends downward in the measurement tube fixing guide 34 by a predetermined length, for example, the expected settlement length, and the steel wire 22 passes through the inside thereof to be fixed at the time of settlement. The first steel wire portion 22a connected to the anchor 20 and the second steel wire portion 22b connected to the weight 23 are smoothly operated vertically without being twisted with each other.

In addition, the pulley 26 and the potentiometer 27 embedded in the ground in the ground subsidence measuring device is installed on the upper part of the sinking plate 25 and the upper part thereof is sealed by a protective box 28 to prevent the penetration of water. In this case, a grease may be placed in the measuring tube fixing guide 34 below the sinking plate 25 to prevent water from penetrating into the protection box 28.

In the embodiment shown in Figure 3, one end of the steel wire 22 is connected to the fixed anchor 10, it is also possible to fix to the lower lid of the settlement measuring tube 21 instead of the fixed anchor 20.

The ground subsidence measuring principle of the ground subsidence measuring apparatus using the pulley according to the present invention configured as described above will be described in detail with reference to FIG. 4.

First, in the present invention, the fixed anchor 20 is connected to one end of the first steel wire portion 22a, and the other end of the steel wire, that is, the second steel wire portion 22b, is freely movable through the pulley (PULLEY) 26. Connected to (23).

Therefore, when the ground is settled to the bottom, the needle plate 25 is lowered, and thus the first steel wire portion 22a having one end connected to the fixed anchor 20 fixed to the lower portion that is not settled is loosened. When the first steel wire portion 22a is loosened, the weight 23 suspended from the second steel wire portion 22b on the opposite side via the rotary pulley 26 is as long as it is settled, that is, the settlement distance 33 is measured. Go down. At this time, the rotary potentiometer 27 (POTENTIOMETER) connected to the same shaft 26a as the pulley 26 also rotates to generate an electrical signal corresponding to the rotation angle of the pulley, for example, a resistance signal or a voltage signal. The electrical signal is transmitted to the multi-channel specific module 30 installed on the ground through the measuring cable 29.

Accordingly, the pulley 26 serves to change the linear motion of the needle plate into a rotary motion in response to the ground subsidence, and the potentiometer 27 serves to generate an electrical signal corresponding to the amount of rotational motion.

As a result, the present invention does not use a conventional winding reel, a spring and data extractor, an electronic control device with a built-in data memory and a battery, and attaches only a potentiometer to the pulley to simplify and reduce the size. The probability of failure is reduced so that it is measurable and easy to install even for long-term construction.

That is, in the conventional measuring apparatus, power must be supplied from the outside to the embedded data extractor to calculate the ground subsidence, and as a result, when the water penetrates, the circuit may be easily damaged or malfunction. Since only potentiometers that do not need to be powered from the inside are embedded, it is possible to greatly reduce the possibility of malfunction due to water infiltration.

In addition, in the present invention, as shown in Figure 4, the steel wire 22 has a fixed anchor 20 at one end, and the other end of the opposite direction of the pulley 26 has a weight 23 (WEIGHT). Therefore, this structure acts on the same principle as the balance balance of bilateral balance (BALANCE), so fine ground subsidence change is also sensed, so that the weight 23 is lowered, so that precise measurement is possible.

Meanwhile, as shown in FIG. 4, the weight 23 is preferably divided into a plurality of unit flat weights 23a and 23b. When the ground subsidence measuring device is buried in the ground and ground subsidence occurs, the weight 26 is lowered and the pulley 26 is rotated. In this case, the weight 23 may not be caught by the connecting portion of the measurement tube coupling 35 of the settlement measuring tube 21 or may not be caught by the bent sidewall of the settlement measuring tube 21. In order to prevent this, when the weight 23 is divided into a plurality of unit weights (23a, 23b) and suspended, the weight itself has flexibility, so it can pass through the settlement tube (21) well. In addition, according to the soil soil and water pressure, the settlement detection speed was adjusted by adding or subtracting the weight of the weight 23. In order to reduce the slip error of the steel wire by increasing the friction force of the pulley 26, the steel wire 22 may be wound around the pulley 26 one or more times to reduce the slip error of the steel wire, and may be adjusted to operate more sensitively according to settlement. .

On the other hand, the ground subsidence measuring apparatus of the present invention can also deform the protective box 28 as shown in FIG. That is, when the subsidence occurs in the state in which the subsidence plate 25 of the subsidence measuring device is buried in the ground and the subsidence plate 25 descends to the basement, the subsidence plate 25 and the measurement cable 29 of the main body of the measurement apparatus. If it goes down in this way, there will be no abnormality, but if there is a difference going down, the measuring cable 29 can be cut | disconnected. Therefore, in order to prevent such a cable cutting phenomenon, by making a separate cable receiving space (28a) in the protective box 28 and winding the excess of the measurement cable 29 can be prevented from cutting the cable.

In the above description of the embodiment, the ground subsidence is set to be from top to bottom, but in the case of measuring in the opposite direction, when the fixed anchor 20 is replaced with the settlement plate 25, the settlement plate can be measured to sink to the bottom. have.

In the above-described embodiment of the present invention, when the single settlement plate 25 is installed on any one layer of the soft ground, it becomes possible to measure the ground settlement of the layer. Therefore, the present invention can be used in combination of two or more settlement plates 25 with different embedding depths, and at the same time, it is possible to analyze three-dimensionally by measuring the settlement amount for each fill layer by automatic measurement.

As described above, the present invention simplifies and reduces the size by attaching only a potentiometer to the pulley without using a winding reel, a spring and a data extractor, an electronic device with a memory and a battery, and a constant power supply. The probability of failure that can be caused by being buried in the ground is reduced so that it can be measured and installed even in long-term construction.

In addition, by using a pulley, it acts on the same principle as a balance balance of symmetry, so it has the effect of detecting minute settlement changes, and by using a rotary pulley that fits the center of gravity, it has the advantage of detecting minute settlement fluctuations. .

In the present invention, automatic measurement is possible by connecting a multi-channel measurement module that can connect the measurement lines of multiple devices and a data logger capable of collecting data, and the measurement device embedded in the ground for ground subsidence measurement is very simple and easy to install. And no failure was made, and the measurement module was able to be installed on the ground without settlement so that it could be repaired.

In addition, since the structure of the present invention is very simple in structure and can be designed to have a small appearance, since the free space is formed in the sinking plate, it is possible to additionally install an inclination sensor or a manual sinking rod on the sinking plate. It can be done.

Since the present invention is not limited to the installation site, it can be variously applied in the field for measuring the ground subsidence displacement of various civil sites such as roads, soft ground, landfills, slopes, dams, and the like.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the spirit of the present invention. Various changes and modifications will be possible by those who have the same.

Claims (7)

In the ground subsidence measuring device for measuring the ground subsidence of any one of the measured object of the soft ground, road, landfill, slope and dam, A needle plate installed in the object to be measured, A fixed anchor fixed to the bottom of the ground without settlement of the measurement object, A settlement measuring tube installed between the settlement plate and the fixed anchor and having a length displacement corresponding to the ground behavior; A single pulley installed on the settlement plate and rotatably installed in both directions; A steel wire having one end connected to the fixed anchor in the settlement measuring tube and the other end extending in the vertical direction through the pulley to change its vertical length according to the behavior of the settlement measuring tube; A weight which is disposed in the settlement measuring tube and connected to the other end of the steel wire and pulls the steel wire as the vertical length is changed; A rotary type potentiometer installed on the same rotation shaft as that of the pulley and generating an electrical signal corresponding to the rotation angle of the pulley; And measuring cable for transmitting the generated electrical signal to the ground, Ground subsidence measuring device using a pulley, characterized in that consisting of a protective box for protecting the pulley and the potentiometer installed on the settlement plate. According to claim 1, Multi-channel measuring module that can connect a plurality of measurement cables of the ground subsidence measuring device, And a data logger capable of collecting data transmitted by data communication from the multi-channel measurement module, and automatically measuring the ground settlement using the pulley. According to claim 1, Ground subsidence measurement apparatus using a pulley characterized in that it further comprises a measurement tube fixing guide for fixing the settlement measuring tube attached to the lower side of the settlement plate. According to claim 3, Ground subsidence measurement apparatus using a pulley is installed on the lower end of the sink plate further comprises a steel wire protection tube for preventing tangling of the steel wire. The method of claim 1, The protective box is ground subsidence measuring device using a pulley, characterized in that it comprises a cable storage space for storing in advance the measuring cable of the margin corresponding to the lowering of the sinking plate. According to claim 1, wherein the weight is ground subsidence measurement device using a pulley, characterized in that consisting of a plurality of unit weights divided into equal parts in order to prevent the sedimentation measuring tube during operation. The method of claim 1, wherein the settlement measuring tube is a plurality of unit measuring tube that is protected by the ground subsidence to protect the steel wire connected to the anchor anchor, Ground subsidence measuring device using a pulley, characterized in that for connecting the plurality of unit measuring tube interconnection (TELESCOPIC TYPE) consisting of a plurality of measuring tube coupling to connect the node to be made.

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