KR20230075244A - System for detection of abnormalities in building facilities - Google Patents

Abstract

The present invention relates to a detection system for checking whether various facilities installed in a large building are abnormal. When an abnormal signal is detected in a facility, the management server analyzes it and immediately notifies the manager of the facility, and it is a technology related to a building facility abnormality detection system that stores and manages facility abnormality and inspection data.
The main configuration of the present invention is a vibration sensor installed in various facilities of a building; Noise detection sensors installed in various facilities of the building; a management server that receives signals from the vibration sensor and the noise sensor, detects abnormal signals of various facilities, and notifies a corresponding manager when abnormal signals of the facilities are detected; and a data storage device for storing and managing abnormalities and inspection data of the various facilities.

Description

System for detecting abnormalities in building facilities {System for detection of abnormalities in building facilities}

The present invention relates to a detection system that checks whether various facilities such as boilers, air-conditioning facilities, air conditioners, etc. installed in large buildings are abnormal. More specifically, sensors for detecting vibration, noise, etc. is installed, the management server receives the signal from the detection sensor and measures the natural vibration or noise of the facility, and when an abnormal signal is detected in the management server, it is analyzed and notified to the manager of the facility, and the facility is abnormal and inspected. It is a technology related to the abnormality detection system of building equipment that stores and manages data.

In general, recent buildings have become large and high-rise due to industrial development, and accordingly, various facilities such as air conditioning, sanitation, power, lighting, crime prevention, disaster prevention, and water treatment are installed in a complex manner. Various management systems have been proposed.

For example, in recent years, in large and high-rise buildings, building facilities such as boilers, air-conditioning facilities, and air conditioners need to frequently inspect ducts or pipes to maintain stable operation, detect abnormalities in facilities early, and repair them. there is.

In recent years, boilers and air conditioners in building facilities are devices composed of many parts, and each part of the facility is often a consumable, so when a certain time elapses after operation, the facility naturally deteriorates and its performance deteriorates.

Therefore, in preparation for the normal state of the equipment, it is possible to detect the abnormal state of the equipment, to identify the cause of the equipment failure, and at the same time to identify the appropriate preventive maintenance (PM) point in advance to prevent equipment failure and abnormality. Facility management is required.

As a prior art for detecting an abnormality in a facility using an ultrasonic signal generated in an existing gas piping facility, Korean Patent Registration No. 10-1896863 (facility abnormality detection device) has been proposed.

This prior art can track the gas leak point by precisely detecting the ultrasonic signal generated when the leak point of the gas pipe changes from a high pressure environment to a low pressure environment. Ultrasonic signals due to abnormalities such as insulation breakdown or cracks occurring in facilities, devices, or parts such as gas piping and power devices within the area can be quickly detected in real time, and the location of facility abnormalities can be accurately detected using the detected ultrasonic signals. It provides an effect that can be traced clearly.

However, since the "facility abnormality detection device" presented in the prior art detects the presence or absence of an abnormality in the facility using an ultrasonic signal, it cannot detect abnormal vibration or noise occurring in the facility, and cannot notify the manager of the facility. Therefore, inspection or repair cannot be carried out promptly, and response is delayed.

In addition, the prior art is focused on the role of detecting abnormalities in equipment, and in addition to detecting abnormalities, it is not possible to determine when abnormalities will occur or when maintenance is required, and the manager cannot easily store and manage abnormalities and inspection data of building equipment. there is

Republic of Korea Patent Registration No. 10-1078802. Republic of Korea Patent Registration No. 10-1896863. Republic of Korea Patent Registration No. 10-2040179. Republic of Korea Patent Registration No. 10-2082570.

The present invention is a technology devised to improve the problems of the "facility abnormality detection device" presented in the existing prior art, and sensors for detecting vibration, noise, gas, etc. are installed in various facilities such as boilers, air conditioners, air conditioners, etc. installed in buildings. In addition, the building's management server receives the signal from the detection sensor, measures and stores the natural vibration or noise of the facility, and when an abnormal signal is detected in the management server compared to the normal state of the facility, the management server analyzes it and stores it. Its purpose is to provide an abnormality detection system for building equipment that notifies the manager of

In addition, in the embodiment of the present invention, when an abnormal signal of a facility is detected by the building management server, the management server immediately notifies the manager of the facility to respond quickly, and stores and manages abnormalities and inspection data of various facilities. It is an object of the present invention to provide a system for detecting abnormality of building facilities in which various facilities of the building are stably managed.

The present invention, in order to realize the desired object as described above,

Vibration detection sensors installed in various facilities of the building; Noise detection sensors installed in various facilities of the building; a management server that receives signals from the vibration sensor and the noise sensor, detects abnormal signals of various facilities, and notifies a corresponding manager when abnormal signals of the facilities are detected; and a data storage device for storing and managing abnormalities and inspection data of the various facilities.

In addition, as an embodiment of the present invention, the management server is disposed in the central management center of the building, and the vibration sensor and the noise sensor attached to various facilities are connected and installed through a remote network.

In addition, as an embodiment of the present invention, the management server recognizes vibration and noise data signals when various facilities of the building are normally operating and vibration and noise data signals when the facilities are stopped as natural vibration and noise data values.

In addition, as an embodiment of the present invention, a gas detection sensor and a heat detection sensor are additionally attached and installed to facilities in which gas is used among various facilities of a building.

In an embodiment of the present invention, sensors for detecting vibration, noise, gas, etc. are installed in various facilities such as boilers, air conditioners, air conditioners, etc. is detected, the management server analyzes it and immediately notifies the manager of the corresponding facility, so that response such as inspection or repair proceeds quickly.

In addition, in an embodiment of the present invention, when an abnormal signal is detected by the building management server higher than the natural vibration or noise of the equipment in operation, the management server analyzes it and immediately notifies the manager of the corresponding facility, and also checks and checks various equipment abnormalities. Since data is stored and managed, various facilities of the building are stably managed.

1 is a configuration diagram showing an embodiment of the present invention.
Figure 2 is a configuration diagram showing the installation state of the detection sensor in the thermo-hygrostat in the present invention.
Figure 3 is a configuration diagram showing the installation state of the detection sensor in the boiler in the present invention.
Figure 4 is a configuration diagram showing the installation state of the detection sensor in the cooling tower in the present invention.
5 is a configuration diagram showing another embodiment in the present invention.
6 is a configuration diagram showing another embodiment in the present invention.

The main configuration according to the embodiment of the present invention, the vibration sensor 20 installed in various facilities 10 (10a) of the building; Noise detection sensors 30 installed in various facilities 10 and 10a of the building; Signals from the vibration detection sensor 20 and the noise detection sensor 30 are received and abnormal signals of various facilities 10 and 10a are detected, and when the abnormal signals of the facilities 10 and 10a are detected, the corresponding Management server 100 for notifying the manager; and a data storage device 200 for storing and managing abnormalities and inspection data of the various facilities 10 and 10a.

In the main configuration of the embodiment, the vibration sensor 20 is a function of detecting vibrations occurring in various facilities 10 and 10a of a large building, and the vibration sensor 20 is shown in FIGS. Likewise, it is installed and attached to various facilities 10 (10a) of buildings such as thermo-hygrostats, boilers, and cooling towers, and vibrations generated in the various facilities 10 (10a) are sensed.

In the above, the vibration sensor 20 detects the vibration of the equipment 10, 10a when the various equipment 10, 10a installed in the building operates, and is attached to the main body of the equipment 10, 10a. It is preferable to be attached and installed, and the vibration of the various facilities 10 and 10a is sensed and transmitted to the management server 100.

On the other hand, the vibration sensor 20 can select and apply any one of various known types of sensors, and it is okay to detect the vibration of the facilities 10 and 10a by applying the previously known earthquake sensor. .

In addition, in the main configuration of the embodiment, the noise sensor 30 is a function of detecting noise generated from various facilities 10 and 10a of a building, and the noise sensor 30 is similar to FIGS. 1 to 4 in the drawings. Likewise, it is installed and attached to various facilities 10 (10a) of a building, such as a thermo-hygrostat, boiler, and cooling tower, and detects noise generated from the various facilities (10) (10a).

In the above, the noise sensor 30 detects the noise of the various facilities 10 and 10a installed in the building when they operate, and the main body of the facility 10 and 10a Alternatively, it is preferable to be installed adjacent to the facilities 10 and 10a, and the noise of the various facilities 10 and 10a is sensed and transmitted to the management server 100.

On the other hand, the noise detection sensor 30 can select and apply any one of various conventionally known detection sensors, and detects noise generated from various facilities 10 and 10a and transmits it to the management server 100 free

In addition, in the main configuration of the embodiment, the management server 100 has a function of detecting abnormal signals of various facilities 10 and 10a and notifying the corresponding manager. , It is arranged in the central management center of the building, and the vibration sensor 20 and the noise sensor 30 attached to various facilities 10 and 10a are connected and installed through a remote network.

In the above, the management server 100 receives data signals such as vibration and noise from vibration sensors 20 and noise sensors 30 attached to various facilities 10 and 10a, and the data values are analyzed. Thus, an abnormal signal is detected.

That is, the management server 100 provides data signals such as vibration and noise when various facilities 10 (10a) of the building, such as thermo-hygrostats, boilers, and cooling towers, are normally operated, and vibrations when various facilities (10) (10a) are stopped. and noise data signals are recognized as natural vibration and noise data values of the facility 10 (10a).

Therefore, the management server 100 receives data signals such as vibration and noise from the vibration sensor 20 and the noise sensor 30 attached to the various facilities 10 and 10a in real time, and receives the data signals It is analyzed by comparing the unique data values of the equipment 10 and 10a.

On the other hand, if the data signals transmitted from the vibration sensor 20 and the noise sensor 30, etc. deviate from the specific data value of the facility 10 (10a), it is determined that the facility 10 (10a) is abnormal, This is immediately notified to the manager of the facility through a mobile phone or wireless terminal.

In addition, in the main configuration of the embodiment, the data storage device 200 is a function of storing and managing abnormalities and inspection data occurring in various facilities 10 and 10a of the building. The data storage device 200 is shown in FIG. As such, it is placed in the central management center of the building and connected to the management server 100 through a network.

In the above data storage device 200, the abnormal data of the facilities 10 and 10a received by the management server 100 is stored in real time, the date and time are recorded in the list of the facilities, and the facility manager After an inspection or repair, etc., you will enter details about it.

On the other hand, among various facilities 10 and 10a installed in a building, a gas boiler using gas or a kitchen cooking facility includes a gas detection sensor 40 and a heat detection sensor 50, as shown in FIGS. 5 and 6 in the drawings. may be additionally attached and installed, and the gas detection sensor 40 and the heat detection sensor 50 detect leaking gas and overheating of the facility.

In the above, the gas detection sensor 40 and the heat detection sensor 50 detect the leaked gas and the temperature of the facilities 10 and 10a and transmit the data to the management server 100, and the management server 100 Gas and temperature data signals are recognized as unique data values of the equipment 10 (10a) during normal operation and stop.

In addition, if the management server 100 compares and analyzes the gas and temperature data signals and deviates from the unique data value of the facility 10 (10a), it is determined that the facility 10 (10a) is abnormal, and this is determined by the manager of the facility notify

In the embodiment of the present invention having this configuration, sensors for detecting vibration, noise, gas, heat, etc. are attached to various facilities such as thermo-hygrostats, boilers, and cooling towers installed in large buildings, and the data signals of the detection sensors in the management server. is received and compared with the unique data value of the facility, and if the facility is abnormal, it is immediately notified to the manager of the facility through a mobile phone or wireless terminal, so that when an abnormality occurs in the facility of the building, a response is made quickly.

In addition, in an embodiment of the present invention, when an abnormal signal higher than the natural vibration or noise of the facility is detected by the management server of the building, the management server analyzes it and determines that the facility is abnormal, immediately notifies the manager of the facility, and also various facilities Since it stores and manages abnormality and inspection data, various facilities of the building are stably managed.

In the above, the preferred embodiments of the present invention have been described with reference, and it is not limited to the above embodiments, and those skilled in the art through the above embodiments do not deviate from the gist of the present invention. It can be implemented with various changes in .

10 (10a): building equipment 20: vibration sensor
30: noise detection sensor 40: gas detection sensor
50: heat sensor 100: management server
200: data storage device

Claims (4)

Vibration sensor 20 installed in various facilities 10 (10a) of the building;
Noise detection sensors 30 installed in various facilities 10 and 10a of the building;
Data signals from the vibration detection sensor 20 and the noise detection sensor 30 are received and abnormal signals of various facilities 10 and 10a are detected, and when the abnormal signals of the facilities 10 and 10a are detected, A management server 100 notifying the corresponding manager; and
The abnormality detection system of building equipment, characterized in that it is configured to include; a data storage device 200 for storing and managing abnormalities and inspection data of the various facilities 10 and 10a.
According to claim 1,
The management server 100,
It is disposed in the central management center of the building, and the vibration sensor 20 and the noise sensor 30 attached to various facilities 10 and 10a are connected and installed through a remote network. Detection of abnormalities in building facilities system.
According to claim 2,
The management server 100,
Recognizing vibration and noise data signals when various facilities (10) (10a) of the building are normally operating and vibration and noise data signals when the facilities (10) (10a) are stopped as natural vibration and noise data values Abnormality detection system of building equipment.
According to claim 1,
Among the various facilities (10) (10a) of the building, the facilities using gas have a gas detection sensor 40 and a heat detection sensor 50 additionally attached and installed.

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