KR20200131732A - Apparatus for managing verticality of pile - Google Patents

Abstract

According to one aspect of the present invention, provided is an apparatus for controlling verticality of a pile, which controls the verticality of a sheet pile penetrating into the ground in a vertical direction and including a web unit and connection units bent to be extended from both ends of the web unit to the outer side along a longitudinal direction. The apparatus for controlling verticality of a pile includes: a sensor unit which includes an acceleration sensor measuring a slope of the pile and a transmission side short distance wireless communication module wirelessly transmitting a measurement value measured in the acceleration sensor and is coupled to the pile; a gateway unit which includes a receiving side short distance wireless communication module receiving the measurement value transmitted from the sensor unit and a calculation unit calculating the measurement value as a slope value of the pile and is arranged to be spaced apart from the sensor unit; and a fixing jig which includes a pair of fastening units coupled to the connection units of the sheet pile by facing each other, a support rod coupled across the pair of fastening units, and a sensor support unit coupled to the support rod and having the sensor unit coupled thereto, and installs the sensor unit on the pile.

Description

File verticality management device{Apparatus for managing verticality of pile}

The present invention relates to a file verticality management apparatus. More specifically, it relates to a pile verticality management apparatus capable of managing the verticality of the pile by measuring the inclination of the pile using an acceleration sensor when the pile is penetrated on the ground.

When constructing structures such as buildings on the ground, the foundation is formed to stably transmit the weight of the structure and the load applied to the structure to the ground, and to prevent obstacles such as settlement, slope, movement, deformation, vibration, etc. Is done.

The form of the foundation is a direct foundation (or shallow foundation) that is transmitted directly to the ground by the foundation plate without using a pile, etc., if the ground can sufficiently support the load of the structure, and the support capacity of the ground is insufficient or settled. In the case where is excessively likely to occur, it can be roughly classified as a deep foundation that transfers the load of the structure to the lower ground with sufficiently large bearing capacity using piles, piers, caissons, etc.

In the case of piles among deep foundations, column-shaped piles must be penetrated onto the ground to support the structure, and maintaining the verticality during pile penetration is very important for improving the bearing capacity. This is because if the verticality is not precisely adjusted from the beginning of the penetration during the pile penetration, the eccentricity of the rear end of the pile increases as the depth of the pile penetration increases, leading to a decrease in the bearing capacity.

On the other hand, in construction, a sheet pile in the form of a steel plate is used for water film or dirt film, but when the sheet pile is penetrated to form a water film or earth film wall, if the verticality of the first intrusive sheet pile cannot be accurately aligned Subsequent sheet piles may also continuously affect the verticality, thereby distorting the shape of the formed wall.

Therefore, in the case of a pile or sheet pile that penetrates the ground, it is necessary to perform penetration construction on the ground while managing the verticality from the beginning of the penetration.

Republic of Korea Patent Publication No. 10-0955753 (announced on April 30, 2010)

The present invention provides a pile verticality management apparatus capable of managing the verticality of a pile by measuring the inclination of a pile using an acceleration sensor when a pile is penetrated onto the ground.

According to an aspect of the present invention, as an apparatus for managing the verticality of a pile penetrated in a vertical direction to the ground, an acceleration sensor measuring the slope of the pile, and a measured value measured by the acceleration sensor wirelessly A sensor unit including a transmitting-side short-range wireless communication module that transmits, and coupled to the file; A reception-side short-range wireless communication module for receiving the measurement value transmitted from the sensor unit, and a gateway unit disposed to be spaced apart from the sensor unit, comprising: A file verticality management apparatus is provided including a fixing jig for installing the sensor unit on the pile.

The gateway unit may further include an alarm generator for comparing the slope value with a management reference value and generating an alarm when the slope value exceeds the management reference value.

The gateway unit may further include a screen display that displays a slope value of the file in real time.

The short-range wireless communication module may be configured as a Bluetooth communication module.

The gateway unit includes a transmitting-side wireless LAN module for wirelessly transmitting the calculated gradient value, and in this case, the file verticality management device receives the gradient value transmitted wirelessly from the transmitting-side wireless LAN module. It includes a receiving-side wireless LAN module, and may further include a server unit for storing the received slope value.

The fixing jig includes: a support part placed on the ground around the pile standing upright on the ground for penetration of the pile; The sensor unit is coupled and one end is hinge-coupled to the support to be inclined according to the inclination of the pile, and the tilting frame is rotatably coupled to the other end of the tilting frame and is in contact with the outer surface of the pile to penetrate the pile It may include a first sensor coupling portion including a roller portion that rotates along.

The first sensor coupling portion may further include an elastic member providing an elastic force so that the roller portion of the tilting frame presses the outer surface of the pile.

The first sensor coupling portion may further include a hinge coupling portion interposed between the support portion and one end of the tilting frame to hinge the tilting frame to the support portion, and linearly reciprocate in the tilt direction.

The fixing jig may further include a second sensor coupling portion to which the other sensor unit is coupled and disposed in a direction perpendicular to a tilt direction of the tilting frame of the first sensor coupling portion.

The pile includes a web portion and a sheet pile including a connecting portion extending outwardly and bent along a length direction at both ends of the web portion, and in this case, the fixing jig is A pair of fastening portions coupled to each other; A support rod coupled across the pair of fastening portions; The sensor unit may be coupled, and may include a sensor support portion coupled to the support rod.

The fastening part may include a locking part having an inverted shape with the connection part.

According to an embodiment of the present invention, when the pile is penetrated on the ground, the tilt of the pile is measured in real time using an acceleration sensor and the tilt of the pile is wirelessly notified to the manager, thereby managing the verticality of the pile and the penetration of the pile. .

1 is a view for explaining the configuration of a measuring device of a file verticality management apparatus according to an embodiment of the present invention.
2 is a view showing the internal configuration of a measuring device of the file verticality management apparatus according to an embodiment of the present invention.
3 is a view for explaining the configuration of a fixing jig according to an embodiment of the present invention.
4 is a side view showing the installation state of the file verticality management apparatus according to an embodiment of the present invention.
5 is a plan view showing the installation state of the file verticality management apparatus according to an embodiment of the present invention.
6 is a view showing a modified example of the fixing jig of the file verticality management apparatus according to an embodiment of the present invention.

Since the present invention can apply various transformations and have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Hereinafter, a file verticality management apparatus according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are assigned the same reference numbers and overlapped therewith. Description will be omitted.

1 is a view for explaining the configuration of a measurement device of a file verticality management apparatus according to an embodiment of the present invention, Figure 2 is a diagram showing the internal configuration of the measurement device of the file verticality management apparatus according to an embodiment of the present invention It is a drawing. And, Figure 3 is a view for explaining the configuration of the fixing jig according to an embodiment of the present invention, Figure 4 is a side view showing the installation state of the file verticality management apparatus according to an embodiment of the present invention, 5 is a plan view showing the installation state of the file verticality management apparatus according to an embodiment of the present invention. And, Figure 6 is a view showing a modified example of the fixing jig of the file verticality management apparatus according to an embodiment of the present invention.

1 to 6, the pile 10, the ground 11, the sensor unit 12, the antennas 14, 18, the gateway unit 16, the fixed jig 20, the server unit 22, the acceleration The sensor 24, the transmitting side short-range wireless communication module 26, the receiving side short-range wireless communication module 28, the transmitting side wireless LAN module 30, an operation unit 40, a memory unit 42, 50, an alarm generating unit (44), a screen display (46), a receiving-side wireless LAN module (48), a monitoring part (52), a support part (54), a tilting frame (56), a roller part (58), a first sensor coupling part (68) , The second sensor coupling part 70, the hinge shaft 62, the elastic member 64, the hinge coupling part 66, the rail 67, the web part 72, the connection part 74, the sheet pile 76, A locking portion 77, a fastening portion 78, a support rod 80, a sensor support 82, and a bolt 84 are shown.

The apparatus for managing verticality of a pile according to the present embodiment is an apparatus for managing the verticality of a pile 10 that penetrates the ground 11 in a vertical direction, and an acceleration sensor that measures the slope of the pile 10 ( 24) and a sensor unit 12 coupled to the file 10, comprising a transmitter-side short-range wireless communication module 26 for wirelessly transmitting the measured value measured by the acceleration sensor 24; A receiving-side short-range wireless communication module 28 for receiving a measured value transmitted from the sensor unit 12, and an operation unit 40 for calculating the measured value as a slope value of the file 10, and the sensor unit 12 A gate way unit 16 spaced apart from and disposed; It includes a fixing jig 20 for installing the sensor unit 12 to the pile 10.

In construction, a pile 10 (pile) for supporting the load of a structure, or a sheet pile 76 (sheet pile) for water film or earth protection, etc. is penetrated in the vertical direction into the ground (11). During the intrusion process, it is necessary to penetrate the ground 11 while maintaining the verticality of the pile 10. The method of penetrating the pile 10 into the ground 11 is roughly classified into a direct hitting method, a pre-excavation method, and the like, and maintaining the verticality of the pile 10 is very important in any method.

The apparatus for managing verticality of a pile according to the present embodiment is a device for managing the verticality of the pile 10 penetrated into the ground 11, and a sensor unit 12 and a sensor unit measuring the inclination of the pile 10 A gateway unit 16 for collecting the value measured in (12) and a fixing jig 20 for installing the sensor unit 12 on the pile 10 are included.

In the present invention, the term pile 10 is a pre-built pile 10 that is penetrated onto the ground 11, and includes a wooden pile, a steel pile, a concrete pile, a sheet pile 76, a PHC pile, and the like.

The sensor unit 12 includes an acceleration sensor 24 that measures the inclination of the file 10, and a transmission-side short-range wireless communication module 26 that wirelessly transmits the measured value measured by the acceleration sensor 24. . The sensor unit 12 is a device for measuring the inclination of the pile 10 that is upright on the ground 11, and includes an acceleration sensor 24 for measuring the inclination of the pile 10. The acceleration sensor 24 is a sensor that measures dynamic forces such as acceleration, vibration, and impact of an object. If the acceleration sensor 24 is used, it is possible to measure the inclination of an object without motion. In this embodiment, the inclination of the pile 10 is measured using a 3-axis (X, Y, Z) acceleration sensor 24. When the direction of penetration into the ground 11 is called the Z-axis direction, the horizontal plane (XY plane) The slope of the phase can be measured.

The transmitting-side short-range wireless communication module 26 wirelessly transmits the measured value of the slope measured by the acceleration sensor 24 to the receiving-side short-range wireless communication module 28 of the gateway unit 16. The transmitting-side short-range wireless communication module 26 of the sensor unit 12 and the receiving-side short-range wireless communication module 28 of the gateway unit 16 may include a Bluetooth module capable of transmitting and receiving.

The gateway unit 16 includes a receiving-side short-range wireless communication module 28 that receives a measured value transmitted from the sensor unit 12, and an operation unit 40 that calculates the measured value as a slope value of the file 10. Include. As shown in FIG. 1, a plurality of sensor units 12 may be installed in the pile 10 for measuring the inclination, and the gateway unit 16 measures the measured values transmitted from the plurality of sensor units 12. It is converted into a slope value and displayed to the user. That is, in a 1:N relationship with the gateway unit 16 and the sensor unit 12, the measured values measured by the plurality of sensor units 12 are transmitted to one gateway unit 16, and the gateway unit 16 Is converted to the slope value and shown.

Meanwhile, the measured values transmitted from the gateway unit 16 may be transmitted to the server unit 22 again through a wireless local area network (LAN) module. For wireless LAN communication between the gateway unit 16 and the server unit 22, the transmitting side wireless LAN module 30 is coupled to the gateway unit 16, and the receiving side wireless LAN module 48 is attached to the server unit 22. ) Can be combined. Antennas 14 and 18 may be attached to the sensor unit 12 and the gateway unit 16 for wireless communication between such units and servers.

The server unit 22 and the gateway unit 16 also have a 1:N relationship like the gateway unit 16 and the sensor unit 12, so that file verticality management of various sites is integrated in the server unit 22. Can be done.

Referring to FIG. 2, a memory unit 42 capable of storing a measured value transmitted from each sensor unit 12 or a calculated slope value may be coupled to the gate way unit 16. The memory unit 42 may be configured to be detachable from the gate way unit 16, and by removing the memory unit 42 from the gateway unit 16, the measured value or the slope value can be checked by other devices.

In addition, the gateway unit 16 may include an alarm generator 44 that compares the slope value with the management reference value and generates an alarm when the slope value exceeds the management reference value. The measured value transmitted from the sensor unit 12 from the gateway unit 16 is calculated as a slope value, and when it is determined that it is a dangerous situation by comparing the calculated slope value with a preset management reference value, the alarm generator 44 Trigger an alarm. The alarm can be configured in the form of lighting a warning light, generating an alarm sound, and notifying an alarm to the user's wireless terminal.

In addition, a screen display unit 46 is attached to the gateway unit 16, and the measured value measured by the sensor unit 12 is converted into a slope value in real time and displayed so that the user can check the slope of the file 10 in real time. I can.

A separate memory unit 50 is installed in the server unit 22 to store the slope value transmitted from each gateway unit 16, and the monitoring unit 52 is coupled to each gateway unit 16 You can monitor the measured values transmitted in real time.

The fixing jig 20 is a configuration for installing the sensor unit 12 on the pile 10, and since the sensor unit 12 is configured as a separate unit, the fixing jig 20 is used to attach the sensor unit 12 to the pile 10. Install.

In FIG. 3, a fixing jig 20 according to this embodiment is shown, wherein the fixing jig 20 is a ground 11 around a pile 10 that is upright on the ground 11 for penetration of the pile 10 A support part 54 placed on it; The sensor unit 12 is coupled and one end is hinged to the support 54 to be rotatably coupled to the tilting frame 56 inclined according to the inclination of the pile 10, and the other end of the tilting frame 56. It includes a first sensor coupling portion 68 including a roller portion 58 which is in contact with the outer surface of 10 and rotates according to the penetration of the pile 10.

The support part 54 is placed on the ground 11 around the pile 10 standing upright on the ground 11 for penetration of the pile 10. The support part 54 is placed on the ground 11 to support the first sensor coupling part 68 to be described later. As the pile 10 is inclined, the first sensor coupling part 68 with respect to the support part 54 As is inclined, the inclination of the pile 10 is indirectly measured. Therefore, the support part 54 is firmly fixed to the ground 11 so that displacement does not occur when measuring the inclination of the pile 10. When the length of the upright pile 10 is long, the position of the support part 54 may also be changed up and down.

In the present embodiment, the support part 54 is formed of a plate-shaped steel plate, and the support part 54 is fixed to the ground 11, but an elevating part (not shown) supported by the ground 11 and raised up and down is provided. It is also possible to change the height of the support part 54 according to the length of the pile 10 by raising and lowering the support part 54 by placing it.

The first sensor coupling unit 68 is configured to be inclined in conjunction with the inclination of the pile 10, and the sensor unit 12 described above is attached.

A sensor unit 12 is coupled to the tilting frame 56, and since one end of the tilting frame 56 is hinged to the support 54, the tilting frame is centered on the hinge axis 62 according to the tilt of the pile 10. (56) tilts while tilting.

The roller part 58 is rotatably coupled to the other end of the tilting frame 56 and is in contact with the outer surface of the pile 10. Since it is in contact with the outer surface of the pile 10, rotation occurs due to frictional force when penetration of the pile 10 proceeds.

In the case of the acceleration sensor 24, the acceleration in the direction of gravity (Z-axis direction) is determined, so it is possible to measure the inclination of the X-axis and Y-axis. In case of applying vibration or driving for penetration of the pile 10, the acceleration in the Z-axis direction As is changed, it may be difficult to measure the slope. Therefore, by placing the roller part 58 at the other end of the tilting frame 56, it is possible to minimize the change in acceleration in the Z-axis direction when the pile 10 penetrates, and through this, even during the construction where the penetration of the pile 10 occurs. The slope of the pile 10 can be measured in real time.

If a change in the inclination of the pile 10 occurs during the penetration of the pile 10, the roller part 58 rotates and the pile 10 tilts the tilting frame 56, which was attached to the tilting frame 56. The sensor unit 12 may indirectly measure the tilt of the pile 10 by measuring the tilt of the tilting frame 56.

Referring to FIG. 3, an elastic member 64 that provides an elastic force so that a roller portion 58 of the tilting frame 56 presses the outer surface of the pile 10 at the coupling portion between the tilting frame 56 and the hinge shaft 62. ) Is combined. In FIG. 3, when the pile 10 is inclined in the left direction, the pile 10 pushes the tilting frame 56 to measure the inclination, and when the pile 10 is inclined in the right direction, the elastic member 64 is Accordingly, as the tilting frame 56 comes into contact with the outer surface of the pile 10, the tilting frame 56 is linked to the tilt of the pile 10 so that the tilt can be measured. A torsion spring may be used as the elastic member 64.

Meanwhile, the first sensor coupling portion 68 is interposed between the support portion 54 and one end of the tilting frame 56 to hinge the tilting frame 56 to the support portion 54, and linearly reciprocate in the inclination direction. It may include a hinge coupling portion (66). As shown in Fig. 5, the position of the tilting frame 56 must be changed according to the cross-sectional shape of the pile 10, and the tilting frame 56 is provided by providing a hinge coupling part 66 that moves on the rail 67. ) Can be easily set.

4 and 5 illustrate the installation state of the file verticality management apparatus according to the present embodiment, by installing two sensor coupling portions 68 and 70 whose inclination directions are perpendicular to each other in the pile 10 Tilt measurement on the XY plane is possible. That is, as shown in FIG. 5, one sensor coupling part 68 measures the inclination in the X-axis direction, and the other sensor coupling part 70 measures the inclination in the Y-axis direction. You can measure the slope on the plane.

When measuring inclination in one direction, the inclination in the corresponding direction can be measured with the sensor unit 12 of one sensor coupling part 68, but when measuring inclinations in various directions on a plane, the inclination directions are perpendicular to each other. By providing the two sensor coupling portions 68 and 70 to be formed, the inclination on the XY plane can be measured.

6 shows a modified example of the fixing jig 20 of the apparatus for managing verticality of a file according to the present embodiment. When the file to be measured inclination is a sheet file 76, the fixing jig 20 according to the modified example ) To measure the slope of the sheet pile 76.

As shown in Figure 6, the sheet pile 76 is composed of a "c"-shaped web portion 72 and a connection portion 74 that extends outward and bends along the length direction at both ends of the web portion 72, respectively. Correspondingly, the fixing jig 20 of the present modified example includes a pair of fastening portions 78 that are coupled to the connection portion 74 to face each other; A support rod 80 coupled across a pair of fastening portions 78; The sensor unit 12 is coupled and includes a sensor support 82 coupled to the support rod 80. Further, the fastening portion 78 coupled to the connecting portion 74 of the sheet pile 76 includes a connecting portion 74 and a locking portion 77 having an inverted shape.

The connecting portion 74 of the sheet pile 76 is bent in a state extending outward, and the locking portion 77 of the fixing jig 20 is inverted with respect to the connecting portion 74 bent so as to engage with the connecting portion 74. It is bent in shape.

A pair of fastening portions 78 are engaged with the connection portion 74 of the sheet pile 76 and fixed in a state opposite to each other, and the support rod 80 is coupled across them. In this embodiment, two support rods 80 in the form of screw bars with threads formed on the outer circumferential surface are coupled across a pair of fastening portions 78.

A sensor support 82 to which the sensor unit 12 is coupled is coupled to the support rod 80, and the sensor support 82 can be coupled at an appropriate position between the support rods 80 using bolts 84, etc. have.

The above has been described with reference to the embodiments of the present invention, but those of ordinary skill in the relevant technical field variously modify the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. And it will be easily understood that it can be changed.

10: File 11: Ground
12: sensor unit 14, 18: antenna
16: gateway unit 20: fixed jig
22: server unit 24: acceleration sensor
26: transmitting side short-range wireless communication module 28: receiving side short-range wireless communication module
30: transmitting side wireless LAN module 40: operation unit
42, 50: memory unit 44: alarm generating unit
46: screen display unit 48: receiving side wireless LAN module
52: monitoring unit 54: support unit
56: tilting frame 58: roller portion
68, 70: sensor coupling part 62: hinge shaft
64: elastic member 66: hinge coupling portion
67: rail 72: web portion
74: connection 76: sheet file
77: locking portion 78: fastening portion
80: support rod 82: sensor support
84: bolt

Claims (6)

As a device for managing the verticality of a sheet pile including a web portion penetrated in a vertical direction into the ground, and a connection portion extending outwardly and bent along a length direction at both ends of the web portion,
A sensor unit coupled to the file, comprising: an acceleration sensor for measuring the inclination of the file; and a short-range wireless communication module for transmitting wirelessly the measured value measured by the acceleration sensor;
A receiving-side short-range wireless communication module for receiving the measured value transmitted from the sensor unit, and a gateway unit disposed to be spaced apart from the sensor unit, comprising: a calculation unit calculating the measured value as a slope value of the file;
A pair of fastening portions coupled to the connection portion of the sheet pile to face each other, a support rod coupled across the pair of fastening portions, and a sensor support portion coupled to the sensor unit and coupled to the support rod And a fixing jig for installing the sensor unit to the pile.
The method of claim 1,
The gate way unit,
And an alarm generator for comparing the slope value with a management reference value and generating an alarm when the slope value exceeds the management reference value.
The method of claim 1,
The gate way unit,
The file verticality management apparatus, further comprising a screen display that displays the inclination value of the file in real time.
The method of claim 1,
The short-range wireless communication module, characterized in that the Bluetooth communication module, file verticality management apparatus.
The method of claim 1,
The gate way unit,
A transmitting side wireless LAN module for wirelessly transmitting the calculated slope value,
And a receiving-side wireless LAN module for receiving the tilt value wirelessly transmitted from the transmitting-side wireless LAN module, and further comprising a server unit for storing the received tilt value.
The method of claim 1,
The fastening part,
File verticality management apparatus comprising a locking portion having a reverse shape and the connection portion.

Images