KR101024118B1 - A safety diagnosis apparatus of agricultural facility - Google Patents

Abstract

Structural safety diagnostic device of the agricultural facility structure according to the present invention is provided to diagnose the structural stability of agricultural facilities, and installed on the agricultural facility to measure the external force generated from the force and the force for applying external force to the agricultural facility. It is equipped with a plurality of sensors and a control device for storing and analyzing the data measured by the sensors to systematically evaluate the structural safety of agricultural facilities, present the current performance indicators, and provide appropriate performance for facilities lacking design strength. By establishing reinforcement measures, it is possible to establish economically and socially stable agricultural production infrastructure, such as preventing property damages by farmers, reducing national disaster recovery costs, and stabilizing agricultural prices.

Description

Structural Safety Diagnostic Device for Agricultural Facility Structures {A SAFETY DIAGNOSIS APPARATUS OF AGRICULTURAL FACILITY}

The present invention relates to a structural safety diagnostic apparatus for agricultural facility structures, and more particularly, to measure the behavior of agricultural facilities in the field by using a movable force and an engineering precision control and measurement device for existing or new agricultural facilities. On the basis of the results, the present invention relates to a structural safety diagnosis system that can accurately evaluate the performance of agricultural facilities such as structural integrity and aging.

Agricultural facilities, such as vinyl houses and barns, are very expensive structures ranging from tens of millions of won to hundreds of millions of won, and are important facilities for producing major agricultural products. However, since the construction of actual facility structures has been based on the empirical judgments of farmers and builders, rather than through systematic analysis of design strength, the current agricultural facilities have passed over time once constructed, despite the importance of such structures. As a result, it is impossible to know how much safety is secured against the magnitude of weather load such as wind load and snow load.

Due to the recent abnormal weather, massive meteorological disasters of more than 300 billion won (2006, Ministry of Food, Agriculture, Forestry and Fisheries) have occurred. There may be many causes of the damage, but the fault of the structure due to the aging of the facility can not be ignored. Damage and destruction of facilities may lead to production disruption of agricultural produce, which may cause a surge in consumer prices.

On the other hand, the structural safety evaluation of facilities can be carried out through 'safety inspection' and 'precision safety diagnosis'. Based on this, appropriate reinforcement of the facilities can be prevented from disasters and disasters, thereby improving the utility of the facilities. However, at present, there is no technology on the structural safety evaluation of agricultural facilities in Korea, and the “Special Act on the Safety Management of Facilities”, which was enacted in January 1995, excludes agricultural facilities.

That is, in the past, formal structural reinforcement measures by qualitative evaluation based on the design reference strength at the time of design were taken or life-saving causes of damage to natural disasters were made. Therefore, there is no quantitative structural safety and performance index for the facility. As such, the structural safety evaluation of agricultural facilities due to the deterioration of durability after construction has not been properly performed, and the new technology in the field due to the absence of safety diagnosis technology to evaluate the structural safety that can resist the extreme weather such as typhoon, heavy rain and heavy snow. This is urgently needed.

The present invention has been conceived from the above-described prior art, and an object of the present invention is to present the current performance indicators after systematically evaluating the structural safety of agricultural facilities, and to provide appropriate reinforcement measures for facilities lacking design strength. It is to provide a structural safety diagnosis device for agricultural facility structures that can help build an economically and socially stable agricultural production infrastructure, such as preventing property damage, reducing national disaster recovery costs, and stabilizing agricultural prices.

Structural safety diagnostic device of the agricultural facility structure according to the present invention for achieving the above object is provided to diagnose the structural safety of agricultural facilities, measuring the external force generated by the force for applying external force to the agricultural facility, To provide a plurality of sensors installed in the agricultural facility, and a control device for storing and analyzing the data measured by the sensors.

In addition, in the structural safety diagnostic apparatus of the agricultural facility structure according to the present invention, the force device is installed in a movable vehicle, the vehicle is provided with a force wall that can provide a reaction force of the external force generated from the force unit.

In addition, in the structural safety diagnostic apparatus of the agricultural facility structure according to the present invention, the sensor includes a displacement sensor, a vibration sensor and a load sensor.

In addition, in the structural safety diagnosis apparatus for agricultural facility structures according to the present invention, the control device is an information recording unit for receiving the data measured by the sensor, and a simulation unit to enable on-site verification of the performance of the facility based on the input data. Include.

According to another aspect of the present invention for a agricultural facility including a plastic house for crop cultivation, livestock breeding, a lively movable device installed in the agricultural facility, and is fixed to the force device to load the agricultural facility And a force unit capable of loading vibration, a force wall capable of supporting the load generated by the force unit, a load sensor attached to the force unit and measuring a load load, and the force unit and the agricultural facility. A force string for transferring a load, a displacement sensor connected to the agricultural facility and the elastic string to measure displacement occurring in the agricultural facility, and vibration of the agricultural facility generated by the force unit attached to the agricultural facility Vibration detection sensor for measuring the, and is connected to the load sensor, displacement sensor, and vibration detection sensor An information recording unit capable of recording and storing displacements, vibrations, and loads generated in the agricultural facility, and connected to the information recording unit to control the loads and vibrations loaded on the agricultural facility in stages, and grasp the displacement and vibration to limit the load. And a control unit for controlling not to exceed the control unit, a simulation unit for systematically evaluating and verifying the structural safety of the agricultural facility based on the data transmitted to the information recording unit and the control unit, and providing reactive reaction weight to the force wall. Structural safety of the agricultural facility on the basis of the data transmitted from the information recording unit and the control device by applying the load and vibration using the force at the site where the agricultural facility was constructed, including a vehicle that can install the force device A structural safety diagnosis system for farming is provided for evaluating on-site.

Structural safety diagnosis device for agricultural facility structures according to the present invention by installing a control device and a force on the movable vehicle step by step load on the agricultural facilities in the field and measuring the degree of deformation of the facilities according to the structural safety of the agricultural facility structures Can be evaluated quantitatively. In other words, it is possible to calculate appropriate loads according to the type and type of facilities, establish reasonable structural safety indicators of facilities, and perform systematic and reasonable structural safety evaluation and verification in connection with computer simulation while performing safety diagnosis. Can be. Ultimately, appropriate maintenance and reinforcement methods can be suggested according to the structural safety indicators derived through safety diagnosis, thereby laying the foundation for building a stable agricultural infrastructure by minimizing the damage caused by degradation of durability and natural disasters. In particular, most of agricultural facilities are in the form of steel-framed structures using pipes, which is a structural form in which the distinction and detailed structure of structural and substructured materials can be confirmed with the naked eye. Therefore, when actively utilizing the structural safety diagnostic device of the agricultural facility structure according to the present invention, it is possible to avoid the uncertainty and inaccuracies appearing on the safety diagnosis after construction, such as reinforced concrete structures.

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

1 is a view schematically showing a structural safety diagnostic apparatus of an agricultural facility structure according to an embodiment of the present invention, Figure 2 is a block diagram of a structural safety diagnostic apparatus.

Referring to the drawings, the structural safety diagnostic apparatus according to the present invention is a force sensor 10 for applying an external force to the agricultural facility, and a plurality of sensors installed in the agricultural facility to measure the external force generated by the force unit 10 ( 22, 24 and 26, and a control device 30 for storing and analyzing the data measured by the sensors 22, 24 and 26.

The tensioner 10 includes a force device 12, a force wall 14 for supporting a load, and a force string 16 for transferring a load. The urging device 12 uses a hydraulic pump or the like, and is installed in the vehicle to facilitate movement. The pressing device 12 is preferably capable of applying a compressive and tensile force of about 2000 to 10000N. The tension wall 14 provides a weight of reaction force against external force applied to the agricultural facility so that the vehicle can support the external force. In addition to the force device 12, the vehicle is provided with a control device 30. The controller 30 utilizes a conventional notebook computer, a desktop computer, and the like, which will be described later.

The sensors 22, 24, and 26 include a displacement sensor 22, a vibration sensor 24, and a load sensor 26. Displacement detection sensor 22 is installed on the facility side to measure the deformation of the facility. The stroke range of the displacement detection sensor 22 is preferably 5 to 300 mm. Vibration detection sensor 24 is installed on the facility side to measure the vibration generated by removing the external force applied to the facility at a time. Vibration detecting sensor 24 measures the range of 0.1 ~ 200Hz. The load sensor 26 is installed between the force device 12 and specifically the force string 16 and the force device 12 to measure the compressive or tensile force applied to the facility.

The control device 30 is an information recording unit 32 for receiving the data measured from the displacement sensor 22, the vibration sensor 24 and the load sensor 26 described above, and on the basis of the input data It is provided with a simulation unit 34 to be able to verify the performance in the field. The simulation unit 34 is capable of finite element method and matrix analysis, and models the facility to give the property values, boundary conditions, load conditions, etc. under the same conditions as the load test, and then analyzes the behavior of the facility. It is a program that can be simulated. The simulation unit 34 is installed and used in a computer including a central computing device and a microcomputer.

Then, the operation of the structural safety diagnostic apparatus of the agricultural facility structure having the above configuration will be described.

For example, if you want to diagnose the structure of the plastic house (1) as an agricultural facility, as shown in Figure 2, first park the vehicle equipped with the force generator 10 adjacent to the plastic house, and then the force wall 14 on the ground Secure firmly. Then, the displacement sensor 22 and the vibration sensor 24 are mounted on the frame of the vinyl house, respectively. The load applied to the vinyl house 1 measures the oil pressure generated by the power pump 13 of the force device 12 by the load sensor 26.

The load, vibration, etc. applied to the vinyl house 1 are loaded while adjusting the strength step by step, which is controlled by the controller 30. At this time, the plastic house 1 does not exceed the limit load that can be supported.

Data measured by the sensors 22, 24 and 26 are stored in the information recording section 32 of the control device 30. And the control apparatus 30 evaluates the performance of a facility through the program stored in the simulation part 34. FIG. The structural stability index 100 derived through the evaluation results can provide a proper maintenance and reinforcement method of the vinyl house 1, which is utilized to minimize the damage caused by deterioration of durability and natural disasters, and to establish a stable agricultural infrastructure. You can secure the foundation.

1 is a view schematically showing a structural safety diagnostic apparatus of an agricultural facility structure according to an embodiment of the present invention.

2 is a schematic operation block diagram of a structural safety diagnosis apparatus for a farming facility structure according to an embodiment of the present invention.

* Brief description of the major reference marks in the drawings *

10. Force 12. Force device

14. tension wall 16. tension string

22. Displacement sensor 24. Vibration sensor

26. Load sensor 30. Control device

32. Information recorder 34. Simulation unit

Claims (5)

In order to diagnose the structure of agricultural facilities, And a plurality of sensors installed in the agricultural facility for measuring external force generated by the force, and a control device for storing and analyzing data measured by the sensors. Structural safety diagnostic system for agricultural facility structures. The method of claim 1, The force unit is installed in the movable vehicle, The vehicle is a structural safety diagnosis device for a farming facility structure, characterized in that the supporting wall is provided to provide a reaction force of the external force generated in the force unit. The method of claim 1, The sensor is a structural safety diagnosis device for a farming facility structure, characterized in that it comprises a displacement sensor, a vibration sensor and a load sensor. The method according to any one of claims 1 to 3, The control device includes an information recording unit for receiving data measured by a sensor, and a structural safety diagnosis device for an agricultural facility structure, characterized in that it comprises a simulation unit for enabling the site to verify the performance of the facility on the basis of the input data. . For agricultural facilities including plastic houses for crop cultivation and livestock raising,  A movable force device installed at the agricultural facility, a force fixed to the force device to load and vibrate the agricultural facility, a force wall capable of supporting a load generated from the force device, and A load sensing sensor attached to the force unit and measuring a load, a force string for connecting the force unit and the agricultural facility to transfer loads, and a displacement connected to the agricultural facility and the elastic string to measure the displacement occurring in the agricultural facility A displacement detection sensor, a vibration detection sensor attached to the agricultural facility to measure the vibration of the agricultural facility generated by the force, and connected to the load detection sensor, the displacement detection sensor, and the vibration detection sensor. An information recording unit capable of recording and storing displacement, vibration, and load occurring in the For example, a control device for controlling loads and vibrations loaded on the agricultural facilities step by step, and controlling displacement and vibration so as not to exceed a limit load, and based on data transmitted to the information recording unit and the control device, Including a simulation unit for systematically evaluating and verifying structural safety, and a vehicle that provides an auxiliary reaction force weight to the force wall and install the force device,  The agricultural facility, characterized in that on the site where the agricultural facility was constructed, applying the load and vibration using the force device and evaluating the structural safety of the agricultural facility on the basis of the data transmitted from the information recording unit and the control device. Structural safety diagnostic system for structures.

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