KR100921706B1 - Earthquake Reinforcement Device and Safety Diagnosis Device for Aged Building Structures - Google Patents

Abstract

PURPOSE: An earthquake-proof reinforcement device and safety examine device for outworn construction structures are provided to facilitate sensing the safety of an earthquake-proof reinforcement device. CONSTITUTION: An earthquake-proof reinforcement device and safety examine device for outworn construction structures comprise a fixing member, a wire, a sensor part, a controller, a damage warning lamp, a safety lamp, a warning lamp, a charge part, and a solar energy charge plate. A plurality of fixing members(10) are installed at the upper and lower ends and the edge of the outer wall of the construction structure. The wire(20) is connected between the fixing members in the diagonal direction. The sensor part is installed at the wire and measures the abnormality of the current flowing in the wire. The controller(40) is connected to the sensor part and controls the measured value of the current flowing in the wire. The damage warning lamp is operated by the control signals of the controller in case of the abnormality of the current. A plurality of safety lamps are installed at the cable. The safety lamp is operated in case of the normality of the current. The warning lamp is turned on by the control signals of the controller in case of the abnormality of the measured current. The charge part(60) is connected to the solar energy charge plate supplying the electricity to the solar energy. The charge part is charged with the electricity transmitted from the solar energy charge plate and supplies the electricity. The solar energy charge plate(50) generates the electricity from the solar energy.

Description

Earthquake-proof reinforcement and safety diagnosis device of aging building structure {Safety examine equipment and earthquake-proof reinforcement equipment to superannuation construction a structure}

The present invention relates to a seismic reinforcement device and a safety diagnosis device of the aging building structure, and more specifically, the fixing member is installed on the upper and lower sides and corners of the building structure, the wire is installed diagonally between the fixing member, the end of the wire A sensor unit installed in the sensor unit, a control unit connected to the sensor unit, a safety light and a warning light installed on a cable connected to the control unit, a damage warning light connected to the control unit, a charging unit connected to the control unit, It relates to a seismic reinforcement device and a safety diagnosis device of the old building structure, characterized in that comprises a solar charging plate connected to the charging unit.

After the Hongseong earthquake in 1978, our country became interested in earthquakes. Subsequently, the Enforcement Ordinance for Seismic Design was enacted, and from July 1, 1988, mandatory earthquake-resistant design was required for buildings of a certain size or larger.

However, up to now, there have been few cases of earthquakes, and there are few studies related to earthquakes. Therefore, there have been a lot of difficulties in introducing seismic design to make the structures resistant to earthquakes.

In particular, the buildings designed before July 1988, before the mandatory mandatory seismic design was enforced, had little countermeasures against earthquakes. As such, when an earthquake occurs in a large metropolitan area where many buildings are not seismically designed, significant damage such as collapse of a building occurs.

Indeed, the damage caused by the earthquake that occurred in Kobe, Japan in 1995, is a serious problem. A survey by the Japanese Institute of Architecture conducted after the earthquake revealed that most of the structures damaged by the Kobe earthquake were designed before the Japanese seismic codes were enacted. In particular, in the case of reinforced concrete structures, about 70% of the buildings built before 1971 were damaged. About 35% of the buildings designed between 1971 and 1981 and about 1981 and later were damaged. Only 15% were found to be injured, with varying degrees of damage, but the least damage to buildings designed since 1981, when seismic reinforcement was applied by applying the new seismic regulations.

In addition, low-rise Japanese traditional houses are mostly damaged, so simple frame structures and masonry buildings, which are mainly used in low-rise buildings in Korea, are also considered to have an earthquake risk.

Recently, the frequency of earthquakes in our country is increasing, and our country is not safe from earthquakes. In Korea, if an earthquake occurs in an area such as a large city, there is a fear of damaging the structure that was designed and constructed before the mandatory seismic design was introduced.

Therefore, the seismic reinforcement of the structure is urgent to improve the seismic performance of the structure.

In order to solve the above problem, when the wire is broken or cut, the sensor unit detects the broken or cut wire and transmits the position of the broken or cut wire to the control unit, and closes to the broken or cut wire through a signal of the control unit. The breakage warning lamp installed is activated, and the warning lamp and the safety lamp installed on each cable connected to the control unit operate a blue safety lamp when it is safe, and when a trouble occurs in the wire, a red warning lamp is signaled through the sensor signal. The purpose of the present invention is to provide a seismic reinforcement device and a safety diagnosis device of an old building structure to be operated.

The present invention for solving the above problems, the fixing member is installed on the outer top and bottom and corners of the building structure, the wire is installed diagonally between the fixing member, the sensor unit is installed at the end of the wire, and the sensor unit A control unit connected to the control unit, a safety light and a warning light installed on a cable connected to the control unit, a damage warning light connected to the control unit, a charging unit connected to the control unit, and a solar charging plate connected to the charging unit. It is configured to include.

According to the present invention, when the wire is broken or cut, the sensor unit transmits the position of the broken or cut wire to the control unit, and a breakage warning lamp installed close to the broken or cut wire through a signal of the control unit. When the warning light and the safety light installed on each cable connected to the control unit is safe, the blue safety light is activated, and if there is an error in the wire, the red warning light is activated through the signal of the sensor. It reinforces the seismic resistance of building structures and has the effect of easily diagnosing the safety of seismic reinforcing devices.

The present invention provides a seismic reinforcement device and a safety diagnosis device of an aged building structure, comprising: a fixing member (10) installed at a plurality of upper and lower ends and corners of an outer wall of the building structure; A wire 20 connected in a diagonal direction between the fixing members; A sensor unit 44 installed on the wire 20 to measure an abnormality of current flowing through the wire 20; A control unit 40 connected to the sensor unit 44 and controlling the received measurement value of the current flowing through the wire 20 from the sensor unit 44; Is connected to the control unit 40, is installed on the roof of the building structure, if there is an abnormality in the current flowing through the wire 20 measured by the sensor unit 44 is a warning light that operates as a control signal of the control unit ( 43); A safety lamp 42 connected to the control unit 40 and installed in a plurality of cables separately installed along the wire 20, and operated when there is no abnormality in the current measured by the sensor unit 44; Is connected to the control unit 40, is installed in a plurality of cables separately installed along the wire 20, installed between the plurality of safety lights 42 when the abnormality in the current measured by the sensor of the control unit A plurality of warning lights 41 which are turned on by a control signal; Is connected to the control unit 40, is connected to the solar charging plate 50 for supplying electricity to the solar, charging the electricity transmitted from the solar charging plate 50, and supplying electricity to the control unit 40 A charging unit 60; It is connected to the charging unit 60, the solar charging plate 50 for generating electricity by solar heat; is configured to include.

At this time, the cover 11 is coupled to the outer surface of the fixing member 10 to cover the outer surface of the fixing member 10, and the fixing cover 31 and the cover cover (outside the wire 20) The cover part 30 which consists of 32 is provided.

That is, the present invention will be described in more detail as follows.

The fixing member 10 is installed on the upper and lower sides and the edge of the aging building structure, the wire 20 is installed between the upper and lower fixing members 10 in the diagonal direction of the fixing member 10, The sensor unit 44 is installed at the end of the wire 20, and the sensor unit 44 and the control unit 40 are connected to conduct and measure current in the wire 20, and are connected to the control unit 40. Installed in the fixing member 10 is a breakage warning light 43 is operated through the detection signal measured by the sensor unit 44, is connected to the control unit 40 is installed along the wire 20 Warning lamps 41 and safety lamps 42 are alternately arranged in line with the cable conduits surrounding the cables, and a charging unit 60 for supplying electricity generated by solar heat is connected to the control unit 40. Solar charging plate 50 is in the charging unit 60 The result is to generate electricity from solar supply electricity to the charging section (60).

At this time, the outer side of the fixing member 10 is coupled to the cover portion 11 of the same shape as the outer shape of the fixing member 10, the outer side of the wire 20 fixed cover 31 and the cover cover ( A cover part 30 formed of 32 is installed to surround the wire 20, the safety light 42, and the warning light 41.

According to the present invention having the above structure, when the wire 20 is damaged or cut, the sensor 20 detects the abnormality in the wire 20. When this occurs, the position of the wire 20 having the abnormality is transmitted to the control unit 40, and the damage warning lamp 43 installed close to the wire 20 is operated through a signal of the control unit 40. .

At this time, the sensor unit applying the electricity to the wire 20 and the wire 20, such as breakage and cutting through the resistance value that is changed by comparing the value of the returning electricity and the voltage and current value of the first applied electricity. Will be detected.
In the case of the breakage, the resistance value of the current to be measured is increased, and in the case of cutting, the current is not measured, and it is distinguished using this.

In addition, the warning lamp 41 and the safety lamp 42 installed on each cable connected to the control unit 40 are safe when the blue safety lamp 42 is activated, and the wire 20 is damaged. When the abnormality occurs in the wire due to the cut or the lamp, the red warning light 41 is activated through the signal of the sensor unit, and the red warning light and the breakage warning light are operated at the same time.

In addition, the charging unit 60 is connected to an external power source in case of insufficient power to be transmitted from the solar charging plate 50 and receives an external power source when the power supply is insufficient. Will be sent).

1 is an overall perspective view of a building structure having a seismic reinforcement device and a safety diagnosis device of an old building structure according to the present invention,

2 is a block diagram showing that the fixing member and the wire of the seismic reinforcing device and safety diagnosis device of the old building structure according to the present invention is coupled,

3 is an exploded perspective view showing that the cover part and the cover part are coupled to the fixing member and the wire of the seismic reinforcement device and the safety diagnosis device of the aged building structure according to the present invention;

4 is a perspective view of a cover part and a cover part coupled to the fixing member and the wire of the seismic reinforcement device and the safety diagnosis device of the aged building structure according to the present invention;

5 is a plan sectional view showing that the wire and the cover portion of the seismic reinforcement device and safety diagnosis device of the old building structure according to the present invention is coupled,

Figure 6 is a block diagram showing that the devices for the safety diagnosis of the seismic reinforcement device and safety diagnosis device of the old building structure according to the present invention is installed on the wire,

7 is a block diagram showing that the operation of the seismic reinforcing device and safety diagnosis device of the old building structure according to the invention when the breakage of the wire,

8 is a perspective view showing that the seismic reinforcement device and the safety residual device of the safety diagnosis device of the old building structure according to the present invention is coupled to the wire,

9 is a block diagram showing that the breakage warning light and the control unit is connected to the wire of the seismic reinforcement device and safety diagnosis device of the old building structure according to the present invention,

10 is a block diagram showing the overall configuration of the seismic reinforcement device and safety diagnostic device of the old building structure according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: fixing member 20: wire

30: cover part 40: control part

50: solar charging plate 60; Charging part

70: conduit

Claims (2)

In seismic reinforcement device and safety diagnosis device of aging building structure, A fixing member 10 installed and fixed to a plurality of upper and lower ends and edges of the outer wall of the building structure; A wire 20 connected in a diagonal direction between the fixing members; A sensor unit 44 installed on the wire 20 to measure an abnormality of current flowing through the wire 20; A control unit 40 connected to the sensor unit 44 and controlling the received measurement value of the current flowing through the wire 20 from the sensor unit 44; Is connected to the control unit 40, is installed on the roof of the building structure, if there is an abnormality in the current flowing through the wire 20 measured by the sensor unit 44 is a warning light that operates as a control signal of the control unit ( 43); A safety lamp 42 connected to the control unit 40 and installed in a plurality of cables separately installed along the wire 20, and operated when there is no abnormality in the current measured by the sensor unit 44; Is connected to the control unit 40, is installed in a plurality of cables separately installed along the wire 20, installed between the plurality of safety lights 42 when the abnormality in the current measured by the sensor of the control unit A plurality of warning lights 41 which are turned on by a control signal; Is connected to the control unit 40, is connected to the solar charging plate 50 for supplying electricity to the solar, charging the electricity transmitted from the solar charging plate 50, and supplying electricity to the control unit 40 A charging unit 60; Seismic reinforcement device and safety diagnosis device of the old building structure, characterized in that it comprises a; connected to the charging unit 60, the solar charging plate (50) for generating electricity by supplying solar heat. The method of claim 1, Cover portion 11 is coupled to the outer surface of the fixing member 10 to cover the outer surface of the fixing member 10, the outer side of the wire 20 fixing cover 31 and the cover cover 32 A seismic reinforcement device and safety diagnosis device of the old building structure, characterized in that the cover portion 30 is formed.

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