KR101353466B1 - Apparatus for controlling height sleeper and instrumentation system using the same - Google Patents

Abstract

The purpose of the present invention provides an apparatus controlling the height of ties and a measuring system using the apparatus controlling the height of ties, and to an apparatus controlling the height of ties which controls the height of ties for maintaining the height of the ties constantly, and analyzes and outputs the displacement in real time and which comprises: a first storage space having a second housing disposed therein; a second housing having a stopper disposed on both side walls therein for supporting a second housing to be fixated on a predetermined position; the second housing which is disposed inside the first housing for being movable up and down and which has a second storage space formed therein for storing a metal unit and an outlet formed on the bottom side thereof for discharging the metal unit to the first storage space; and multiple metal units filled in the second storage unit of the second housing. Therefore, the apparatus controlling the height of ties and the measuring system using the apparatus controlling height of ties are provided to maintain the height of rails by controlling the height of the rails even though the height of railroad rails are changed by ground subsidence and to always monitor the safety condition of the railroads by sensing and analyzing the displacement of the ties and by providing the result of the analysis and to make a quick decision on the maintenance of the rails by performing a safety test by determining the durability of the rails, on the possibility of train derailment and on the replacement time of rails.

Description

Sleeper height adjusting device and measuring system using same {APPARATUS FOR CONTROLLING HEIGHT SLEEPER AND INSTRUMENTATION SYSTEM USING THE SAME}

The present invention relates to a sleeper height adjusting device and a measurement system using the same, and more particularly, to adjust the height of the sleepers to maintain a constant height of the railway rail, the sleeper height to analyze the displacement of the sleepers to output in real time It relates to a control device and a measurement system using the same.

The general railroad track is made by filling soil on the ground without any movement deformation, making the ground of soil, arranging a plurality of sleepers at regular intervals on the ground and installing a pair of rails at 1480mm intervals (standard gauge).

Railroad tracks can be installed on soft grounds, such as landfills, adjacent to, or at the bottom of the mountain, next to incisions or facing valleys of the mountain, as needed, and around the railroad tracks for river maintenance or tunnel construction or building new buildings May be generated.

However, in the summer, the soil ground of railroad tracks facing incisions or mountain valleys due to landslides or floods due to rainy seasons or heavy rains may cause sudden ground subsidence, and even when adjacent to soft ground Ground subsidence may occur gradually, and ground subsidence may occur due to design immaturity or error, even when civil works occur adjacent to the ground of railroad tracks.

In addition, in the case of railway rails passing over tunnels or bridges, ground subsidence may gradually occur as the structure in which the sleepers are installed is aging due to prolonged use.

Thus, soft ground, incisions, areas facing valleys, tunnels, or railway rails that pass over bridges, which are concerned with rail subsidence and deformation, may be caused by ground subsidence and deformation. It is necessary to prevent large-scale railway accidents in advance and to always measure the safety status of railway rails for the safe operation of trains.

For example, if the rail displacement exceeds the standard gauge deviation range (-4mm or + 7mm), or the height difference between the inner and outer rails on the curved line is called cant, the maximum cant (160 mm). Even if the speed is exceeded, there is a fear of derailment when the speed of the train is high.

In the conventional railway ground sediment measuring device used in the civil engineering site, a scale tape measure, inclinometer, laser light wave, optical fiber measuring device, etc. are used according to the construction application site.

In addition, most instruments measure only one point manually, or are temporary measurements using expensive equipment for research purposes (e.g., laser light drills, fiber optic meters). There have been many limitations in the constant measurement by employing.

The device for measuring railway rail displacement is disclosed in Korean Utility Model Registration No. 20-0359014 as a soft ground and railway rail support settling strain measurement device, and the railroad is installed on a fill ground formed by laying soil on the ground at a civil engineering site. When it is opened, ground subsidence is feared, so it is a technique to measure the amount of settlement simply by manually measuring the settlement scale with a ruler.

However, such a conventional measuring device is a method for measuring the scale, and therefore, the measurer should always be in the field or have to check it from time to time.

In addition, the conventional measuring device has a problem in that it is not possible to adjust the height so that the railway rail can maintain a predetermined position when the ground subsidence occurs only to measure whether the ground subsided.

Korea Utility Model Registration No. 20-0359014

In order to solve this problem, the present invention is to provide a sleeper height adjustment device and a measuring system using the same to adjust the height of the sleeper so as to maintain a constant height of the rail rail, and analyzes the displacement of the sleeper to output in real time The purpose.

In order to achieve the above object, the present invention provides a stopper for adjusting the sleeper height, forming a first storage space in which a second housing is installed, and supporting the second housing to be fixed at a predetermined position on both sides of the inner sidewall. An installed first housing; The second housing is provided to be movable in the vertical direction in the first housing, and has a second accommodation space for accommodating the metal sphere therein, and has a discharge hole for discharging the metal sphere into the first housing space of the first housing. A second housing; And a plurality of metal balls filled in the second storage space of the second housing.

In addition, the sleeper height adjustment device according to the invention is characterized in that it further comprises a pressing unit for adding an elastic force so that the metal ball is installed in the second storage space of the second housing is discharged to the discharge port.

In addition, the sleeper height adjusting device according to the present invention further includes a sensor unit installed between the inner surface of the first housing and the outer surface of the second housing for detecting the vertical movement displacement of the first housing and the second housing. Characterized in that.

In addition, the present invention is a measurement system using a sleeper height adjustment device, a stopper for forming a first storage space in which the second housing is installed therein and supporting the second housing to be fixed at a predetermined position on both sides of the inner side wall. A first housing and a second accommodation space provided in the first housing to be movable in the vertical direction, and having a second housing space for accommodating the metal sphere therein, and having the metal sphere as a first housing space of the first housing at a bottom surface thereof; A second housing having a discharge port for discharging, a plurality of metal balls filled in the second storage space of the second housing, and an inner surface of the first housing and an outer surface of the second housing, Sleeper height adjustment device having a sensor unit for detecting the vertical movement displacement of the second housing; A measurement module for converting the vertical movement displacements of the first and second housings detected from the sensor unit of the sleeper height adjusting device into digital signals and storing the digital displacements, and transmitting the converted movement displacement signals to a server; Is connected via a network with the measurement module, the movement displacement signal transmitted by the measurement module and the result of analyzing the movement displacement signal through a preset analysis program to be stored in the database, the movement displacement signal and the analysis result Server for transmitting to the manager terminal; A database for storing the moving displacement signal and the analysis result transmitted to the server; And connected to the server through a network, and transmits the user login information, the setting information of the measurement module 200, the display information input by the user to the server, and receives the movement displacement signal and the analysis result transmitted from the server An administrator terminal to be displayed.

In addition, the measuring module according to the present invention AC conversion unit for converting the output displacement detected by the sensor unit of the sleeper height adjustment device into a digital signal and outputs; A measurement control unit which assigns an arbitrary identification number to the moving displacement signal converted by the AC conversion unit, stores it in a memory, and outputs the moving displacement signal to which the identification number is assigned to be transmitted to a server; And a first data communication unit connected to the server to transmit the movement displacement signal to which the identification number outputted by the measurement control unit is transmitted to the server.

In addition, the server according to the present invention is connected to the measurement module and the manager terminal second data communication unit for transmitting and receiving data signals; And a web server manager connected to an administrator terminal to manage user login information, web page access information, and display information, and a moving displacement signal assigned with an identification number transmitted from the measurement module, and analyzed through a preset analysis program. And a server manager having a DB server manager for managing the analyzed result to be stored in a database and transmitting the movement displacement signal and the analysis result to an administrator terminal.

In addition, the manager terminal according to the present invention is connected to the server third data communication unit for transmitting and receiving data signals; The user login information, the setting information of the measurement module, and the web page access information input by the user are transmitted to the server through the third data communication unit, and the movement displacement signal and the analysis result of the measurement module transmitted by the server are received. An administrator control unit to display a corresponding measurement module according to an arbitrary output format; An input unit which detects information input by the user and outputs the information to the manager controller; And a display unit configured to receive and display a movement displacement signal and an analysis result of the measurement module output by the manager controller.

The present invention has the advantage of maintaining a constant height of the rail rail by adjusting the height of the sleeper even if the height of the rail rail changes due to ground subsidence.

In addition, the present invention has the advantage that it is possible to always measure the safety state of the railway rail by detecting and analyzing the displacement of the sleeper, and providing the analysis results in real time.

In addition, the present invention has the advantage of determining the maintenance through the safety diagnosis of the structure by determining the durability of the railway rails, the derailment prediction of the train, the replacement time of the railway rails according to the strain rate of the sleeper.

1 is a cross-sectional view showing an installation state of the sleeper height adjustment device according to the present invention.
Figure 2 is a cross-sectional view showing the structure of the sleeper height adjustment device according to the present invention.
Figure 3 is a cross-sectional view showing the operation of the sleeper height adjustment device according to the invention.
Figure 4 is a cross-sectional view showing a state in which the height of the sleeper height adjustment device according to the present invention is adjusted.
Figure 5 is a cross-sectional view showing another embodiment of the sleeper height adjustment device according to the present invention.
Figure 6 is a cross-sectional view showing the operation state of the sleeper height adjustment device according to the differential settlement.
Figure 7 is a block diagram showing the configuration of a measurement system using a sleeper height adjustment device according to the present invention.
8 is a block diagram showing a measurement module configuration of a measurement system using the sleeper height adjustment device according to FIG.
9 is a block diagram showing a server configuration of a measurement system using the sleeper height adjustment device according to FIG.
10 is a block diagram showing the configuration of the manager terminal of the measurement system using the sleeper height adjustment device according to FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the sleeper height adjustment device and a measurement system using the same according to the present invention.

(Sleeper height adjuster 1)

1 is a cross-sectional view showing an installation state of the sleeper height adjustment device according to the present invention, Figures 2 to 4 is a cross-sectional view showing a sleeper height adjustment device according to the present invention.

As shown in Figures 1 to 4, the sleeper height adjustment device 100 according to the present invention is a sleeper 20 is installed railroad rail 10 is installed, gravel 30 is installed in the lower part of the sleeper 20 Even if the height of the railroad rail 10 due to ground subsidence is changed between the first housing 110 and to maintain a constant height of the railroad rail 10 by adjusting the height of the sleeper 20 And a second housing 120, a metal sphere 130, a pressurizing unit 140, and a sensor unit 150.

The first housing 110 forms a first accommodating space 111 in which the second housing 120 is installed, and an upper portion of the first housing 110 has an open rectangular shape, and the bottom surface is in close contact with the gravel 30. When settling down, a displacement that moves downward occurs.

In addition, on both sides of the inner sidewall of the first housing 110, when the first housing 110 moves downward due to ground subsidence, the second housing 120 embedded in the first accommodating space 111 may be formed. It is configured to include at least one stopper 112 to be fixed to a predetermined position, and to restrict the movement of the first housing 110 moved upward.

The stopper 112 has a stopper accommodating groove 112a formed in a predetermined size on an inner sidewall of the first housing 110, and the stopping jaw 124 of the second housing 120 is formed in the stopper accommodating groove 112a. The support part 112b which is engaged and restricts the movement of the first housing 110 in the upward direction is formed, and the support part 112b is caught between the stopper accommodation groove 112a and the support part 112b. It is configured to include an elastic portion (112c) for pressing to maintain a state in which it is engaged.

In addition, the stopper 112 supports the second housing 120 embedded in the first accommodating space 111 to be fixed at a predetermined position when the first housing 110 moves downward due to ground subsidence. As a result, the metal spheres 130 embedded in the second housing 120 may sufficiently fill the spaces formed between the first housing 110 and the second housing 120 due to the movement displacement.

The second housing 120 is installed to be movable up and down in the first receiving space 111 of the first housing 110, the upper surface is in close contact with the sleeper 20, the ground due to subsidence of the first housing ( When the 110 moves downward, the metal sphere 130 embedded in the second accommodation space 121 is discharged to the first accommodation space 111 of the first housing 110 through the discharge hole 122 formed at the bottom thereof. To ensure that the sleeper 20 to maintain a certain position.

In addition, the second housing 120 is inclined 123 toward the discharge port 122 so that the metal sphere 130 in the second receiving space 121 can easily move through the discharge hole 122 formed on the bottom surface. ) Is formed.

In addition, the engaging jaw 124 is formed at both ends of the outer surface of the second housing 120 to engage with the stopper 112 of the first housing 110.

The metal sphere 130 is a member of a deformable metal material filled in the second accommodation space 121 of the second housing 120, and the first housing 110 moves downward due to ground subsidence. The gap between the first housing 110 and the second housing 120 is filled to allow the second housing 120 to maintain a predetermined position.

The pressing unit 140 is configured to add an elastic force so that the metal ball 130 accommodated in the second housing space 121 of the second housing 120 is quickly discharged through the discharge port 122, It includes a plate-shaped pressing plate 141 for pressing in close contact with the upper portion of the metal sphere 130 accommodated in the second storage space 121, and a spring 142 for providing an elastic force to the pressing plate 141. do.

When the first housing 110 is moved downward due to the ground subsidence, the pressurizing part 140 rapidly moves into the space formed between the first housing 110 and the second housing 120. Pressurized to move.

The sensor unit 150 includes a first housing sensor 150a installed on an inner side surface of the first housing 110 and a second housing sensor 150b installed between an outer side surface of the second housing 120. And, as a configuration for detecting the vertical movement displacement of the first housing 110 and the second housing 120, the change in the resistance value according to the position change of the first housing 110 and the second housing 120 It detects and outputs the displacement signals of the first and second housings 110 and 120.

The sensor unit 150 is a position sensor for measuring an amount having a dimension of length, and is not limited thereto, and is configured by using a mechanical sensor, an electric sensor, a magnetic sensor, an optical sensor, a contact sensor, a non-contact sensor, or the like. You may.

The following describes the operation process of the sleeper height adjustment device 100 according to the present invention.

When the train passes through the railway rails 10 and the ground subsidence occurs, the first housing 110 moves downward due to the ground subsidence.

As the first housing 110 moves downward, a space is generated between the second housing 120 and the second housing 120 in close contact with the bottom of the first housing 110. The discharge port 122 is opened so that the metal ball 130 embedded in the second accommodating space 121 is introduced into the space formed between the first housing 110 and the second housing 120 through the discharge hole 122. The elastic force provided by the pressing unit 140 allows the metal sphere 130 to be introduced more quickly.

On the other hand, when the first housing 110 is moved downward, the metal contained in the second storage space 121 by limiting the movement of the first housing 110 again upward through the stopper 112 The sphere 130 may be easily discharged through the discharge hole 122, and the sensor unit 150 detects a movement displacement according to a change in position of the first housing 110 and the second housing 120. Output to external devices connected via wired or wireless network.

(Sleeper height adjuster 2)

5 is a cross-sectional view showing another embodiment of the sleeper height adjustment device according to the present invention, Figure 6 is a cross-sectional view showing the operation state of the sleeper height adjustment device according to the differential settlement.

As shown in FIG. 5 and FIG. 6, a plurality of sleeper height adjusting devices 100, 100 ′ arranged in parallel are provided at the lower part of the sleeper 20 on which the railroad rail 10 is placed.

The plurality of sleeper height adjustment devices (100, 100 ') are arranged parallel to each other at the bottom of the sleeper 20 to operate when the ground is settled so that the height of the railway rail 10 can be kept constant.

In addition, the plurality of sleeper height adjustment device (100, 100 ') is a plurality of sleeper height adjustment device (100, 100') even if the ground around the sleeper 20 is unevenly settled due to uneven settlement, the sleeper ( By adjusting the height of 20, the height of the railway rail 10 can be kept constant.

That is, when the sleeper height adjusting device 100 and the sleeper height adjusting device 1 (100 ') are installed in the lower part of the sleeper 20 and the differential sleeper occurs in the ground where the sleeper height adjusting device 100 is installed, the sleeper height adjustment is performed. Only the first housing 110 of the device 100 moves downward and the second housing 120 remains in close contact with the sleeper 20.

In addition, the sleeper height adjusting device 1 (100 ') having no uneven settlement is maintained even if unevenly settled due to uneven settlement so that the first housing 110' and the second housing 120 'are installed. By constantly adjusting the height of the) the height of the railway rail 10 can be kept constant.

Therefore, even if a condition occurs that changes the height of the railroad rail due to ground subsidence, by adjusting the height of the sleepers it is possible to maintain a constant height of the railroad rail.

(Measurement system)

7 is a block diagram showing the configuration of the measurement system using the sleeper height adjustment device according to the present invention, Figure 8 is a block diagram showing the configuration of the measurement module of the measurement system using the sleeper height adjustment device according to Figure 7, 7 is a block diagram illustrating a server configuration of a measurement system using the sleeper height adjustment device according to FIG. 7, and FIG. 10 is a block diagram illustrating a manager terminal configuration of the measurement system using the sleeper height adjustment device according to FIG. 7.

2 to 10, the measurement system using the sleeper height adjustment device according to the present invention detects and analyzes the movement displacement of the sleeper according to the ground subsidence, and provides the analysis results in real time, the safety state of the railroad rail The sleeper height adjustment device can be measured at any time, and the sleeper height adjustment device can be quickly determined by the safety diagnosis of the structure by judging the durability of the railroad rail, predicting the derailment of the train, and when to replace the railroad rail according to the strain rate of the sleeper ( 100, a measurement module 200, a server 300, a database 400, and an administrator terminal 500.

The sleeper height adjusting device 100 is installed in the lower part of the sleeper 20, even if the height of the railroad rail 10 due to ground subsidence is changed, by adjusting the height of the sleeper 20 of the railroad rail 10 It is possible to maintain a constant height, and detects and provides a displacement of the sleeper height adjustment device 100 according to the ground subsidence.

The sleeper height adjusting device 100 forms a first accommodating space 111 in which the second housing 120 is installed, and supports the second housing 120 to be fixed at a predetermined position on both sides of the inner side wall. The first housing 110 having the stopper 112 and the second housing space 121 installed in the first housing 110 so as to be movable upward and downward and accommodating the metal sphere 130 therein are provided. A second housing 120 having a discharge hole 122 for discharging the metal sphere 130 to the first accommodating space 111 of the first housing 110, and the second housing 120 at a bottom surface thereof. A plurality of metal spheres 130 filled in the second storage space 121 of the first and second inner space of the first housing 110 and the outer surface of the second housing 120, the first housing 110 ) And a sensor unit 150 for detecting a vertical movement displacement of the second housing 120.

In addition, the sleeper height adjusting device 100 is installed on the second housing space 121 of the second housing 120 to add an elastic force so that the metal ball 130 accommodated is quickly discharged through the discharge port 122. Pressing unit 140 may be further configured.

The measurement module 200 is connected to a plurality of sleeper height adjustment device 100, the upper and lower sides of the first and second housings 110, 120 detected from the sensor unit 150 of each sleeper height adjustment device 100 Receives a directional movement displacement, converts and stores it as a digital signal, and transmits the converted movement displacement signal to the server 300, the AC converter 210, the measurement control unit 220, the first data communication unit 230.

The AC converter 210 converts the analog movement displacement signal detected by the sensor unit 150 of the sleeper height adjusting device 100 into a digital signal and outputs the digital signal.

The measurement control unit 220 assigns and distinguishes an identification number to the digital movement displacement signal converted by the AC converter 210, and stores the movement displacement signal to which the arbitrary identification number is assigned to the memory 221. The controller transmits the movement displacement signal to which the identification number is assigned to the server 300.

The first data communication unit 230 is connected to the server 300 via a wired or wireless network to transmit a movement displacement signal to which the identification number outputted by the measurement control unit 220 is transmitted to the server 300. Preferably, data communication is performed using the TCP / IP protocol.

The server 300 is connected to the plurality of measurement modules 200 through a network, receives a movement displacement signal transmitted by each measurement module 200, and analyzes the received movement displacement signal through a preset analysis program. A result of storing the result in the database 400, and transmits the received movement displacement signal and the analysis result to the manager terminal 500, the second data communication unit 310 and the server manager 320 It is configured by.

The second data communication unit 310 is connected to the measurement module 200 and the manager terminal 500 through a wired or wireless network to transmit and receive data signals to be provided to the server manager 320.

The server manager 320 is connected to the administrator terminal 500 to authenticate user login information, to store setting information of the measurement module 200 set by the user, and to manage web page access information for accessing the server 300. And a web server manager 321 for managing display information to be output to the manager terminal 500, and a moving displacement signal to which an identification number transmitted by the measurement module 200 is received, through a preset analysis program. Analyze the maintenance of the structure through safety diagnosis by determining the strain of the sleeper according to the displacement amount, the durability of the railway rail according to the strain of the sleeper, the prediction of the derailment of the train, the replacement time of the railway rail, etc. The stored result in the database 400 and transmit the moving displacement signal and the analysis result to the manager terminal 500 in real time through a text message SNS. It is configured to include a DB server management unit 322 to manage.

In other words, the analysis program stored in the server management unit 320 is a strain of the sleeper according to the amount of movement displacement analyzed through a predetermined numerical analysis program, the durability of the railroad rail according to the strain of the sleeper, the derailment prediction of the train, the replacement time of the railroad rail For example, the safety diagnosis result of the structure is compared with reference values for preset alarm notification, and the alarm or warning information is transmitted in real time through a text message or SNS to the administrator terminal 500 for the analysis result exceeding the reference value. .

 In addition, the server management unit 320 may be configured using a known analysis program, the information stored in the database 400 is transmitted to the manager terminal 500 in a certain period or in real time to quickly check the administrator remotely To help.

The database 400 stores the movement displacement signal transmitted to the server 300 and the result analyzed by the server 300, and stores setting information of the measurement module 200 set by the user.

The manager terminal 500 is connected to the server 300 through a wired or wireless network, and transmits user login information, setting information of the measurement module 200, and display information input by the user to the server 300. A third data communication unit 510, a manager controller 520, an input unit 530, and a display unit 540 are configured to receive and display a movement displacement signal and an analysis result transmitted from the server 300. It is configured to include, and consists of any one of a desktop computer, a notebook computer, a tablet computer, a mobile terminal.

The third data communication unit 510 is connected to the server 300 through a wired or wireless network to transmit and receive data signals.

The manager controller 520 is installed with a web access program, the user login information input by the user through the input unit 530, for example, the displacement information, the displacement amount, the generation cycle, the duration, the measurement module of the The server 300 transmits the setting information of the measurement module 200 including the number, the presence of an alarm, the range of the displacement amount, the mobile web page access information, or the web page access information using a URL through the third data communication unit 510. And receiving the displacement signal and the analysis result of the measurement module 200 transmitted by the server 300 to display the corresponding measurement module according to an arbitrary output format.

In addition, when the alarm signal or the warning signal is output from the server 300, the manager control unit 520 is output through the display unit 540 so that the manager can quickly check.

The input unit 530 detects information input by the user and outputs the information to the manager control unit 520. The input unit 530 is an input unit such as a keyboard, a mouse, a touch screen, and the like.

The display unit 540 is configured to receive and display a movement displacement signal and an analysis result of the measurement module 200 output by the manager controller 520. The display unit 540 includes any one of a monitor and an LCD display unit.

Therefore, when the measurement module 200 receives the movement displacement signal input through the sensor unit 150 and provides it to the server 300, the strain of the sleeper according to the displacement amount of the sleeper through the analysis program in the server 300, and the Determining the durability of railway rails according to the strain rate of sleepers, predicting the derailment of trains, replacing the railway rails, and analyzing the maintenance of the structure through safety diagnosis, and analyzing the analysis result through the remote terminal 500. By providing in real time, the manager can always measure and check the safety status of the railroad rails. Maintenance can be checked quickly, and managers can check it without having to visit the site.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the definitions of these terms should be based on the contents throughout this specification.

10: railroad rail 20: sleeper
30: gravel 100: sleeper height adjustment device
110: first housing 111: first storage space
112: stopper 112a: stopper receiving groove
112b: support portion 112c: elastic portion
120: second housing 121: second storage space
122: discharge port 123: inclined portion
124: locking step 130: metal ball
140: pressure unit 141: pressure plate
142: spring 150: sensor
150a: first housing sensor 150b: second housing sensor
200: measuring module 210: AD converter
220: measurement control unit 221: memory
230: first data communication unit 300: server
310: second data communication unit 320: server management unit
321: Web server management unit 322: DB server management unit
400: database 500: administrator terminal
510: third data communication unit 520: manager control unit
530: input unit 540: display unit

Claims (7)

Sleeper height adjustment device,
A first storage space 111 in which a second housing 120 is installed, and a stopper 112 for supporting the second housing 120 to be fixed at a predetermined position on both sides of an inner sidewall; A housing 110;
The second housing space 121 is installed in the first housing 110 so as to be movable upward and downward, and accommodates the metal sphere 130 therein, and the metal sphere 130 is disposed on the bottom surface of the first housing 110. A second housing 120 having a discharge port 122 discharged to the first storage space 111 of the 110; And
Sleeper height adjustment device comprising a plurality of metal spheres (130) filled in the second receiving space (121) of the second housing (120). The method of claim 1,
The sleeper height adjusting device further includes a pressing unit 140 installed in the second accommodation space 121 of the second housing 120 to add an elastic force so that the metal ball 130 accommodated therein is discharged to the discharge hole 122. Sleeper height adjustment device comprising a.
3. The method according to claim 1 or 2,
The sleeper height adjusting device is installed between the inner surface of the first housing 110 and the outer surface of the second housing 120 to adjust the vertical displacement of the first housing 110 and the second housing 120. Sleeper height adjustment device further comprises a sensor unit for detecting 150.
A measurement system using a sleeper height adjustment device,
A first storage space 111 in which a second housing 120 is installed, and a stopper 112 for supporting the second housing 120 to be fixed at a predetermined position on both sides of an inner sidewall; The housing 110 and the first housing 110 is installed to be movable in the vertical direction, and a second storage space 121 is formed thereinto accommodates the metal balls 130 therein, and the metal balls are formed on the bottom surface thereof. The second housing 120 having a discharge port 122 for discharging the 130 to the first housing space 111 of the first housing 110, and the second housing space 121 of the second housing 120. A plurality of metal spheres 130 filled in the gap between the inner surface of the first housing 110 and the outer surface of the second housing 120 to be disposed between the first housing 110 and the second housing 120. Sleeper height adjustment device 100 having a sensor unit 150 for detecting the vertical movement displacement;
The vertical movement displacement of the first and second housings 110 and 120 detected by the sensor unit 150 of the sleeper height adjusting device 100 is converted into a digital signal and stored therein, and the converted movement displacement signal is stored in the server. A measurement module 200 for transmitting to 300;
Connected to the measurement module 200 through a network, the movement displacement signal transmitted by the measurement module 200 and the result of analyzing the movement displacement signal through a preset analysis program to be stored in the database 400 A server 300 transmitting the movement displacement signal and the analysis result to a manager terminal 500;
A database 400 for storing the moving displacement signal and the analysis result transmitted to the server 300; And
The mobile terminal is connected to the server 300 through a network, and transmits user login information, setting information of the measurement module 200, and display information input by the user to the server 300, and is transmitted from the server 300. Measurement system using the sleeper height adjustment device comprising a manager terminal 500 for receiving and displaying the displacement signal and the analysis result.
5. The method of claim 4,
The measuring module 200 includes an AC converter 210 for converting the displacement detected by the sensor unit 150 of the sleeper height adjusting device 100 into a digital signal and outputting the digital signal;
The measurement control unit assigns an arbitrary identification number to the moving displacement signal converted by the AC converter 210 and stores it in the memory 221, and outputs the moving displacement signal to which the identification number is assigned to be transmitted to the server 300. 220; And
Sleeper height characterized in that it comprises a first data communication unit 230 is connected to the server 300 and transmits the movement displacement signal given the identification number output from the measurement control unit 220 to the server 300 Measurement system with control device.
5. The method of claim 4,
The server 300 includes a second data communication unit 310 connected to the measurement module 200 and the manager terminal 500 to transmit and receive data signals; And
Connected to the manager terminal 500 and receives a web server management unit 321 for managing user login information, web page access information and display information, and the movement displacement signal is assigned an identification number transmitted from the measurement module 200 Analyzes through a preset analysis program, the analyzed result is stored in the database 400, and has a DB server manager 322 for managing the movement displacement signal and the analysis result to be transmitted to the manager terminal 500. Measurement system using a sleeper height adjustment device comprising a server management unit (320).
5. The method of claim 4,
The manager terminal 500 is connected to the server 300, the third data communication unit 510 for transmitting and receiving data signals;
The user login information input by the user, setting information of the measurement module 200, and web page access information are transmitted to the server 300 through the third data communication unit 510, which is transmitted by the server 300. An administrator control unit 520 which receives the movement displacement signal and the analysis result of the measurement module 200 and displays the corresponding measurement module according to an arbitrary output format;
An input unit 530 which detects information inputted by the user and outputs the information to the manager controller 520; And
And a display unit (540) for receiving and displaying the movement displacement signal and the analysis result of the measurement module (200) output by the manager controller (520).

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