KR20230067194A - Device for indoor environment monitoring - Google Patents

Abstract

The present invention relates to an indoor environment monitoring apparatus. Specifically, the present invention relates to the indoor environment monitoring apparatus which can comprehensively monitor a temperature, a humidity, a fine dust, a noise, and a vibration of an indoor space. According to the present invention, when an upper part case is fastened to a lower part case where a circuit board is seated, a separation space is formed by contacting a first separation wall installed on a base of the lower part case and a second separation wall installed on the lower part surface of the upper part case. Additionally, a cutting line is formed on the circuit board, and a separation plate made by the cutting line is placed in the separation space.

Description

Indoor environment monitoring device {Device for indoor environment monitoring}

The present invention relates to an indoor environment monitoring device, and more particularly, to an indoor environment monitoring device capable of integrally monitoring temperature, humidity, fine dust, noise and vibration in an indoor space.

As people spend more time indoors, there is a growing need to monitor indoor comfort levels to manage indoor comfort levels.

However, since most indoor environment management technologies have been developed focusing on thermal environment (temperature/humidity) and air quality, the comfort and satisfaction that users feel in indoor space is not sufficiently reflected.

On the other hand, as the number of apartments or multi-unit dwellings has increased significantly, inter-floor noise has emerged as a social problem, so it is urgently required to identify and manage inter-floor noise in the indoor environment. In addition, in nursing facilities for the elderly, monitoring for falls of the elderly is becoming very important along with monitoring the indoor environment.

In other words, the current indoor environment monitoring is not limited to temperature/humidity and air quality, but is operated by integrating noise between floors and falls.

Since various environmental sensors such as temperature sensor, humidity sensor, fine dust sensor, vibration sensor, and noise sensor are required to manage the indoor environment, conventionally, it is inconvenient to install environmental sensors by type for integrated indoor environment monitoring. there was.

In order to solve this inconvenience, the present applicant has developed an integrated environmental sensor module that can easily and conveniently install and register use by embedding various environmental sensors in one housing.

Conventional integrated environmental sensor modules are designed as a stacked (two-layer) structure in which a vibration sensor is placed on a lower PCB and a temperature/humidity sensor is placed on an upper PCB in order to reduce the influence of surrounding heating elements on the temperature/humidity sensor.

However, the conventional integrated environmental sensor module has a problem in that the price increases during mass production due to additional PCB manufacturing and a connector connecting the lower layer and the upper layer due to the two-layer structure. In addition, even in the stacked structure, the temperature/humidity sensor is not completely separated from the surrounding heating element and is directly or indirectly affected, so there is still a problem in the accuracy of the temperature/humidity sensor.

Korean Patent Registration No. 10-1765454

The present invention is to solve the above problems, and an object of the present invention is to provide an indoor environment monitoring device capable of reducing the manufacturing cost of an integrated environment sensor module and improving the accuracy of a temperature/humidity sensor.

Another object of the present invention is to provide an indoor environment monitoring device with an improved housing surface structure to increase the efficiency of inhaling fine dust and transmitting noise and vibration.

To this end, in the indoor environment monitoring device according to the present invention, when the upper case is fastened to the lower case on which the circuit board is seated, the first partition wall installed on the base of the lower case and the second partition wall installed on the lower surface of the upper case It is characterized in that a separation space is formed by contacting the circuit board, and a cutting line is formed on the circuit board, and a separation plate made by the cutting line is disposed in the separation space.

Here, the separation plate is connected to the circuit board by a connecting portion extending along the cutting line, a protrusion is formed on a sidewall of the first separation wall, and the second separation corresponding to the sidewall of the first separation wall. A groove is formed in the side wall of the wall, and the connecting portion of the partition plate contacts the protrusion of the first partition wall and is inserted into the groove of the second partition wall.

In addition, an indicator member is mounted at a corner of the circuit board, and the indicator member is installed between a lower frame contacting the lower case, an upper frame contacting the upper case, and between the lower frame and the upper frame to It is characterized in that it includes a display exposed through the display window of the upper case when the upper case is fastened to the lower case on which the circuit board is seated.

In addition, it is characterized in that a ventilation unit is installed on the side of the separation space in the upper case.

As described above, the present invention introduces a separation structure on the circuit board to prevent heat conduction in the part where the temperature / humidity sensor is mounted, and at the same time provides a separation space inside the housing structure in which the lower case and the upper case are fastened, By disposing the temperature / humidity sensor mounted on the circuit board in the separation space, it is possible to solve the problem of increasing the manufacturing cost of the environmental sensor module according to the conventional laminated board structure and improve the accuracy of the temperature / humidity sensor. .

In addition, in the present invention, by installing a ventilation unit on the side of the separation space in the upper case of the housing, the efficiency of external air transmission to the temperature / humidity sensor located in the separation space can be increased, while the efficiency of fine dust inhalation and noise and vibration transmission can also be increased. There is an effect.

In addition, when the separation space is formed inside the housing, a protrusion is formed on the side wall of the first partition wall of the lower case, and a groove is formed on the side wall of the second partition wall of the upper case corresponding to the side wall of the first partition wall, The connecting portion of the separation plate contacts the protruding portion of the first separation wall and is inserted into the groove of the second separation wall, so that it can be stably disposed inside the separation space.

In addition, an indicator member is mounted on the edge of the circuit board so that when the upper case is fastened to the lower case where the circuit board is seated, the lower case and the upper case are stably and easily fastened to the circuit board by the frames on the upper and lower sides of the indicator. A display unit located between the frames on both sides may be exposed through the display window of the upper case to display an operating state of the indoor environment monitoring device.

1 is a diagram showing a schematic configuration of an indoor environment monitoring system according to the present invention.
2 is a view showing a state in which the indoor environment monitoring device according to the present invention is installed indoors.
Figure 3 is an exploded perspective view of the indoor environment monitoring device according to the present invention.
Figure 4 is a view showing the lower case of the indoor environment monitoring device according to the present invention.
5 is a view showing the main board of the indoor environment monitoring device according to the present invention.
6 is a view showing an upper case of an indoor environment monitoring device according to the present invention.
7 is a view showing a state in which a main board is seated in a lower case according to the present invention;
8 is a view showing a main board coupled to an upper case according to the present invention;
9 is a view showing an indoor environment monitoring device according to the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily carry out the present invention.

This invention may be embodied in many different forms and is not limited to the embodiments set forth herein. In order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part includes a certain component, this means that it may further include other components without excluding other components unless otherwise stated.

Hereinafter, an indoor environment monitoring device according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 shows a schematic configuration of an indoor environment monitoring system according to the present invention.

Referring to FIG. 1 , the indoor environment monitoring system according to the present invention includes an indoor environment platform 100, a user terminal 200, and an indoor environment monitoring device 300.

The indoor environment platform 100 is a web-based or app-based platform that can be accessed through a network. The indoor environment platform 100 is accessed by a web browser or client application installed on the user terminal 200 . The indoor environment platform 100 may be implemented on a server built by an indoor environment information service provider.

The indoor environment platform 100 according to the present invention registers the identification information of the indoor environment monitoring device 300 input from the user terminal 200, processes the sensor signal received in real time from the indoor environment monitoring device 300, Indoor environment information is provided to the user terminal 200 .

The user terminal 200 receives real-time indoor environment information from the indoor environment platform 100 . The user terminal 200 is a computing device owned by a person receiving indoor environment information service. The computing device may be a smart phone, a tablet PC, a laptop computer, a personal computer, or the like, and any type of device capable of accessing the indoor environment platform 100 through an app or web.

The indoor environment monitoring device 300 is an integrated sensor device installed indoors to measure the indoor environment. The indoor environment monitoring device 300 according to an embodiment of the present invention includes sensors such as a temperature/humidity sensor, a fine dust sensor, a noise sensor, and a vibration sensor. The indoor environment monitoring device 300 transmits the sensor signal measured at the installation location to the indoor environment platform 100 in real time.

The indoor environment monitoring device 300 according to the present invention is composed of an integrated environmental sensor module in which sensors such as a temperature/humidity sensor, a fine dust sensor, a noise sensor, and a vibration sensor are embedded in one housing.

2 shows a state in which the indoor environment monitoring device according to the present invention is installed indoors.

Referring to FIG. 2 , an indoor environment monitoring device 300 according to the present invention is installed on the floor and wall of a hospital room or room, such as a hospital, a nursing facility, or a silver town.

When the indoor environment monitoring device 300 measures the temperature and humidity, fine dust concentration, noise, and vibration of the hospital room and transmits them to the indoor environment platform 100, the indoor environment platform 100 stores the environmental information of each hospital room and It is processed and processed and transmitted to the user terminal 200 of the manager.

In an embodiment of the present invention, the indoor environment monitoring device 300 may transmit an environmental sensor signal to the fall detection server 30 through short-range communication such as Wi-Fi or Bluetooth or wireless communication such as LTE or 5G. there is.

The indoor environment monitoring device 300 installed on the indoor floor and wall commonly measures indoor temperature and humidity, fine dust, noise (sound pressure), and vibration. According to an embodiment of the present invention, the indoor environment monitoring device installed on the floor 300 measures vibration and sound pressure generated from the floor and transmits a first vibration and sound pressure signal to the indoor environment platform 100, and the indoor environment monitoring device 300 installed on the wall measures vibration and sound pressure generated from the wall After measuring, the second vibration and sound pressure signals are transmitted to the indoor environment platform 100.

Accordingly, the indoor environment platform 100 uses the first vibration and sound pressure signals and the second vibration and sound pressure signals received from the two indoor environment monitoring devices 300 while monitoring the temperature and humidity and the concentration of fine dust in each hospital room. Thus, it is possible to determine whether a patient has fallen in the hospital room.

In the indoor environment platform 100, when both the first vibration and sound pressure signals are equal to or greater than the preset first vibration and sound pressure reference values, and both the second vibration and sound pressure signals are less than the preset second vibration and sound pressure reference values, the first vibration And it is possible to determine the presence or absence of a fall through frequency analysis of the sound pressure signal. When it is determined that a fall has occurred in the hospital room, the indoor environment platform 100 notifies the user terminal 200 of an emergency fall situation.

The manager of a hospital room, nursing facility, etc. checks environmental conditions such as temperature, humidity, and fine dust concentration in the hospital room from the indoor environment platform 100 through his or her user terminal 200, and at the same time receives notification of a real-time fall emergency, resulting in a fall accident. can monitor

3 is an exploded perspective view of an indoor environment monitoring device according to the present invention, FIG. 4 is a lower case of the indoor environment monitoring device, FIG. 5 is a main board of the indoor environment monitoring device, and FIG. 6 shows an upper case of the indoor environment monitoring device. .

In addition, Figure 7 is a picture of the main board seated in the lower case according to the present invention, Figure 8 is a picture of the main board coupled to the upper case according to the present invention, Figure 9 is an environmental monitoring device in which the lower case and the upper case are fastened that showed the appearance of

The indoor environment monitoring device 300 according to the present invention has a structure in which a lower case 10 and an upper case 20 are fastened to form a housing of the indoor environment monitoring device, and the lower case 10 and the upper case 20 ) The main board 20 is embedded in the inner space formed by fastening.

The main board 20 is seated on the base 11 forming the inner bottom of the lower case 10 . A first separation wall 12 is installed at the outer center of the base 11 to form a first separation space 13 within the base 11 .

The main board 20 of the indoor environment monitoring device according to the present invention includes various parts. The main board 20 is composed of a circuit board (PCB) 21, and various elements and components are mounted on the circuit board 21.

The circuit board 21 includes a fine dust sensor 22, a vibration sensor 23, a temperature/humidity sensor 24, a noise sensor 25, a communication module 26, an indicator member 27, and a charging terminal 28 , a microcontroller (not shown), and various elements such as an LED module (not shown) are mounted.

The communication module 26 may be a short-distance communication module such as Wi-Fi or a wireless communication module such as LTE, LTE-A, and 5G. The indoor environment monitoring device can be charged by connecting the USB charging cable 40 to the charging terminal 28 .

A cutting line (a) is formed on the circuit board 21 according to the present invention, and a separation area is created by the cutting line (a), and the separation area forms a separation plate (21'). It is separated by the cutting line (a), but has a structure in which the separation plate 21' is connected to the circuit board 21 by the remaining uncut portion, that is, the connecting portion (b). A temperature/humidity sensor 24 is mounted on the separator 21'.

Since the separation plate 21' is separated from the circuit board 21 through the cutting line (a) and is less affected by heat generated from peripheral elements of the circuit board 21, the separation plate 21' is mounted on the separation plate 21'. The temperature/humidity sensor 24 may also be minimized from thermal influence by surrounding elements.

An indicator member 27 is mounted on a corner of the circuit board 21 .

The indicator member 27 is composed of a display portion 27a, a lower frame 27b, an upper frame 27c, and the like. When the circuit board 21 on which the indicator member 27 is mounted is seated on the lower case 10, the lower frame 27b of the indicator member 27 contacts the lower case 10, and then the upper case 30 When is fastened to the lower case 10, the upper frame 27c of the indicator member 27 comes into contact with the upper case 30. When both sides of the indicator member 27 are installed in contact with the lower case 10 and the upper case 30, the display portion 27a of the indicator member 27 is exposed through the display window 35 of the upper case 30. .

An LED module (not shown) corresponding to a path of the display unit 27a is mounted around the edge of the circuit board 21 on which the indicator member 27 is mounted. When the LED module emits light, the state of the indoor environment monitoring device can be visually checked through the display unit 27a.

A second partition wall 32 corresponding to the first partition wall 12 of the lower case 10 is installed on the lower surface 31 of the upper case 30, so that the second separation space ( 34) is formed.

When the upper case 30 is fastened to the lower case 10 on which the circuit board 21 is seated, the first partition wall 12 of the lower case 10 and the second partition wall 32 of the upper case 30 When the first separation space 13 and the second separation space 34 come into contact with each other, one separation space is formed.

The separation plate 21' of the circuit board 21 is positioned in the separation space. A protrusion 12a is formed on a sidewall of the first partition wall 12, and a groove 32a is formed on a corresponding sidewall of the second partition wall 32.

As described above, when the first partition wall 12 of the lower case 10 and the second partition wall 32 of the upper case 30 contact each other, the connection portion b of the separator 21' As it comes into contact with the protruding portion 12a of the first partition wall 12 and is inserted into the groove of the second partition wall 32 at the same time, a separation space is formed and the partition plate 21' is trapped in the separation space. .

Since the separation plate 21' is confined to the separation space, heat generated from peripheral elements of the circuit board 21 is introduced through a convection phenomenon, and the effect on the temperature/humidity sensor 24 can be minimized.

In addition, a ventilation unit 33 is installed on the side of the upper case 30 where the second partition wall 32 is installed. That is, since the ventilation unit 33 is formed on the side of the separation space, outside air can be efficiently introduced into the temperature/humidity sensor 24 located in the separation space.

The ventilation unit 33 is formed on the entire side surface of the upper case 30, and in addition to the temperature / humidity sensor 24, the fine dust sensor 22 and the noise sensor ( 25) is mounted, it is possible to increase the efficiency of inhaling fine dust and transmitting noise (sound) with one ventilation unit 33.

The above detailed description should not be construed as limiting in all respects and should be considered illustrative. The scope of the present invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the present invention are included in the scope of the present invention.

10: lower case 11: base
12: first partition wall 12a: protrusion
13: first separation space 20: main board
21: circuit board 21': separator plate
22: fine dust sensor 23: vibration sensor
24: temperature and humidity sensor 25: noise sensor
26: communication module 27: absence of indicator
28: charging terminal 30: upper case
31: lower surface 32: second partition wall
32a: groove 33: ventilation part
34: second separation space 35: display window
40: USB charging cable 100: indoor environment platform
200: user terminal 300: indoor environment monitoring device

Claims (5)

When the upper case is fastened to the lower case where the circuit board is seated,
A first partition wall installed on the base of the lower case and a second partition wall installed on the lower surface of the upper case contact each other to form a separation space;
An indoor environment monitoring device, characterized in that a cutting line is formed on the circuit board and a separation plate made by the cutting line is disposed in the separation space. According to claim 1,
Indoor environment monitoring device, characterized in that the temperature / humidity sensor is mounted on the separator. According to claim 1,
The separation plate is connected to the circuit board by a connection part extending from the cutting line,
A protrusion is formed on a sidewall of the first partition wall and a groove is formed on a sidewall of the second partition wall corresponding to the sidewall of the first partition wall,
The indoor environment monitoring device, characterized in that the connecting portion of the separation plate contacts the protruding portion of the first separation wall and is inserted into the groove of the second separation wall. According to claim 1,
An indicator member is mounted on the corner of the circuit board,
The indicator member is installed between a lower frame contacting the lower case, an upper frame contacting the upper case, and between the lower frame and the upper frame when the upper case is fastened to the lower case where the circuit board is seated. Indoor environment monitoring device characterized in that it comprises a display exposed through the display window of the upper case. According to claim 1,
Indoor environment monitoring device, characterized in that the ventilation unit is installed on the side of the separation space in the upper case.

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