KR102314609B1 - Antena Module Waterproof and Embed Structure for Smart Manhole Cover - Google Patents

Abstract

The present invention relates to a waterproof and buried structure of an antenna module for a smart manhole cover, which easily install the antenna module and has excellent dustproof and waterproof properties. The antenna module is mounted in an antenna mounting groove (55) formed in the center of the outer surface of a manhole cover (50), and the antenna module includes: a disk-shaped antenna (30); a lower cover (20) on an upper surface of which the antenna (30) is placed so that a lower part of the antenna (30) is not exposed, and which includes a cylindrical upper portion (24) extending downward to be inserted into a through-hole (51) formed in the center of the antenna mounting groove (55), to be installed in the antenna mounting groove; an upper cover (10) which includes an antenna receiving portion (13) on a lower side where the antenna (30) is placed so that an upper part of the antenna (30) is not exposed, and which is detachably coupled to the lower cover (20); and a nut (40) which is coupled to the cylindrical upper portion (24) of the lower cover (20) protruding to a lower part of the manhole cover (50) and fixes the lower cover (20) such that the lower cover is not separated.

Description

Antenna Module Waterproof and Embed Structure for Smart Manhole Cover

The present invention relates to a waterproofing and embedding structure of an antenna module of a smart manhole cover, and more particularly, a modem device, a sensor device, etc. avoiding the water entering between the antenna module and the manhole cover provided in the manhole cover of the smart manhole. It relates to an antenna module waterproofing and embedding structure of a smart manhole cover that does not damage the antenna module by a vehicle passing over the manhole cover and facilitates installation of the antenna module.

In general, a manhole is a hole formed in a road surface so that a person can enter and exit the underground facility for management of an underground facility, and is covered with a manhole cover so that a vehicle or the like does not fall out.

Management of these manholes, as a rule, is made in a way that the operator periodically visits the site, opens the manhole cover, goes down to the inside of the manhole, and inspects it directly. There is a risk of getting into an accident.

Accordingly, a method of checking the condition of the manhole using a sensor is used, but since the manhole cover installed in the manhole is formed of cast iron or reinforced concrete to block radio waves, in order to collect the measurement result of the sensor, the operator directly touches the manhole. There remains the problem of visiting, opening the manhole cover, unblocking the radio wave, and then collecting the measurement results of the sensor. Therefore, since the operator does not have to go inside the manhole, the risk of an accident is reduced, but there is a problem that the cost is still high.

In addition, an M2M/IoT-based sewage manhole monitoring system used in smart buildings has been developed to monitor the amount and change of water flowing in the sewer pipe, but since this system uses a wired communication network, installation work and restoration work in case of failure considerable difficulties exist.

Recently, a method of wirelessly monitoring the condition of a manhole is being studied, and one of them is a smart manhole. The smart manhole installs a sensor to detect the condition of the facility inside the manhole, and installs an antenna module that receives and transmits the sensor signal on the manhole cover, so that the operator can manage the facility inside the manhole without visiting the manhole. This has the advantage of reducing maintenance costs.

In such a smart manhole, an antenna module is installed on the outside of the manhole cover, and a modem device for relaying communication between the sensor and the antenna module is installed inside the manhole cover. A through hole is formed in the center.

However, in the conventional smart manhole, when it rains or there is water on the road surface because a through hole is formed in the manhole cover, water flows in between the antenna module and the manhole cover, affecting the modem device and the sensor installed on the lower or rear side of the manhole cover. , there is a problem in that the modem device or sensor is damaged or malfunctions due to moisture.

In order to solve this problem, the present applicant has applied for an invention related to the waterproof and buried structure of an antenna module of a smart manhole cover and has been registered as Patent No. 2001960 (Patent Document 5). In this patented invention, an antenna mounting groove for accommodating the antenna module is formed in the center of the outer surface of the manhole cover, and the antenna module is embedded in the antenna mounting groove in the form of an interference fit, and the antenna module includes a disk-shaped antenna and an upper part A lower cover having an antenna mounting part on which the antenna is mounted is provided so that the lower part of the antenna is not exposed, and an antenna receiving part in which the antenna is located on the lower side is formed so that the upper part of the antenna is not exposed and an upper cover coupled to the lower cover. By including the configuration, there is an effect that the internal structure including the antenna module on the manhole cover side is not damaged by water, and the antenna module is not damaged by a vehicle running on the top of the manhole cover.

Since this patented invention is a type in which the antenna module is installed by force fitting into the antenna mounting groove, it is necessary to improve the ease of installation through structural improvement or shape improvement.

On the other hand, as a result of investigating the prior art related to the present invention, a number of patent documents were searched, and some of them are introduced as follows.

Patent Document 1, a housing having a sensor for monitoring environmental parameters around the manhole; and a microcontroller provided within the housing to transmit parameters to the wireless module and to transmit the parameters to a communication device to inform the user that the manhole has been tampered with, sensing environmental parameters inside and around the enclosure and setting these parameters A remote sensing system and method for wirelessly transmitting to a remote location are disclosed.

Patent Document 2, a first antenna unit located on one side of the manhole cover, a second antenna unit located on the other side of the manhole cover, a node coupled to the manhole cover and controlling to transmit and receive data through the first antenna unit and the second antenna unit Disclosed is a manhole cover type sensor node device comprising a unit, wherein the node unit receives flow data from a flow meter supporting wireless communication through the first antenna unit and controls to transmit the flow data to the flow data collection device through the second antenna unit. are doing

Patent Document 3 proposes a code system for an NFC tag according to a method of linking a manhole information system and an underground facility management information system, designs a mechanism for mounting an NFC tag on a manhole cover, and a mobile terminal having an NFC communication function developed the NFC code recognition Smart Manhole App, and when the mobile terminal requests information about the communication facility from the management server through the NFC tag recognition attached to the facility equipment of the manhole cover or pipeline, the management server Provides facility equipment information and maintenance history of manholes and pipelines, cables, enclosures, and pipelines of underground communication facilities. For new communication lines, an optimal route communication pipeline calculation simulator using communication manholes and communication management DB is used. LBS-based manhole location information is displayed on mobile terminals such as tablet PCs, and it is possible to establish systematic replacement plans for outdated communication manholes and pipelines through facility equipment history management of target facilities such as communication manholes and communication pipelines, thereby preventing accidents and reducing budget. Discloses a smart manhole management system and method using USN, configured to expect the effect of

Patent Document 4, the upper end of the manhole cover includes a space in which an antenna for transmitting sensor information of a sensor device for sensing the state of an underground facility according to the LPWA network to a monitoring server can be disposed, the lower end of the manhole cover is a sensor A state of an LPWA network-based underground facility in which an embedded communication device that can collect sensor information from the device according to wired or wireless communication can be disposed, and a hole where an antenna and a communication device can be connected is provided at the bottom of the space Disclosed is a manhole cover for monitoring.

Patent Document 1: KR10-2008-0033907 A Patent Document 2: KR10-2012-0092393 A Patent Document 3: KR10-2017-0056806 A Patent Document 4: KR10-1880472 B1 Patent Document 5: KR10-2001960 B1

The present invention relates to an antenna module waterproofing and embedding structure of a smart manhole cover excellent in the ease of installation of the antenna module, dustproofness and waterproofness, and in particular, the technology disclosed in Patent Document 5 (the present applicant's It relates to the improvement of registered patent invention).

The antenna module waterproofing and embedding structure of the smart manhole cover of the first invention for achieving the above object is made by mounting the antenna module in the antenna mounting groove formed in the center of the outer surface of the manhole cover, and the antenna module is a disk-shaped antenna and a lower cover mounted in the antenna mounting groove by having a cylindrical upper portion extending downward so that the antenna is seated on the upper surface so that the lower part of the antenna is not exposed and inserted into the through hole formed in the center of the antenna mounting groove; An antenna receiving part in which the antenna is located is formed on the lower side so that the upper part of the antenna is not exposed, and the upper cover is detachably coupled to the lower cover, and the lower cover is coupled to the cylindrical upper part of the lower cover protruding from the lower part of the manhole cover, so that the lower cover is detached It is characterized in that it includes a nut for fixing so as not to be.

In addition, in the second invention, in the waterproofing and embedding structure of the antenna module of the smart manhole cover according to the first invention, the upper cover has a central protrusion formed with an antenna accommodating part for accommodating the antenna inside, and a central protrusion so as to be seated on the upper surface of the lower cover. It includes an extension formed extending outwardly from the lower end of the lower cover, and characterized in that a coupling groove of a certain range is formed at the inner end of the extension so that the coupling protrusion of the lower cover is inserted.

In addition, in the third invention, in the waterproofing and embedding structure of the antenna module of the smart manhole cover according to the first or second invention, the lower cover is coupled to the body with the cylindrical upper part connected to the lower center, and the upper cover is fitted to the antenna receiving part of the upper cover. A fitting protrusion formed to protrude upward along the circumferential direction at a position spaced apart from the center of the body by a certain amount to accommodate the antenna inside, and a lower cover formed to protrude along the circumferential direction from the bottom of the body and formed on the upper surface of the antenna mounting groove. It is characterized in that it includes a mounting protrusion inserted into the groove.

In addition, the fourth invention is characterized in that in the waterproof and buried structure of the antenna module of the smart manhole cover according to the third invention, two mounting protrusions are formed in the form of concentric circles.

In addition, in the fifth invention, in the waterproof and buried structure of the antenna module of the smart manhole cover according to the fourth invention, the positioning protrusions are formed to protrude at 180° intervals on the bottom surface of the body of the lower cover, and the positioning protrusions are two It is characterized in that it is formed between the mounting projections.

In addition, in the sixth invention, in the waterproof and buried structure of the antenna module of the smart manhole cover according to any one of the first to fifth inventions, a coupling groove of a certain range is symmetrically formed at the inner end of the extension of the upper cover. A pair of coupling protrusions formed along the radial direction on the outer side of the fitting protrusion of the lower cover are symmetrically formed, and the upper cover is rotated while the coupling protrusions of the lower cover are inserted into the coupling grooves of the upper cover to rotate the upper cover. It is characterized in that it is fixedly coupled to the lower cover.

In addition, in the seventh invention, in the waterproof and buried structure of the antenna module of the smart manhole cover according to any one of the first to sixth inventions, the antenna protrudes from the lower side so as to be inserted into the cylindrical upper part provided in the center of the lower cover. It is characterized in that it has a modem connection unit for communication with the modem device.

In addition, in the eighth invention, in the waterproofing and embedding structure of the antenna module of the smart manhole cover according to any one of the first to seventh inventions, the antenna module is embedded inside the antenna mounting groove, and the urethane module is installed on the upper side of the antenna module. It is characterized in that the foam material is filled or an elastic cover made of urethane foam material is inserted to prevent a step difference from occurring between the upper surface of the manhole cover and the upper surface of the manhole cover.

In addition, in the ninth invention, in the waterproof and buried structure of the antenna module of the smart manhole cover according to any one of the above-mentioned inventions, the upper cover has a screw portion formed on the inner circumferential surface of the antenna receiving portion, and the lower cover is cylindrical in the lower center. A body to which the upper part is connected, a fitting protrusion formed on the outer circumferential surface with a threaded part corresponding to the threaded part of the antenna accommodating part, while protruding upward along the circumferential direction at a distance from the center of the body to accommodate the antenna inside, and from the bottom of the body It is characterized in that it includes a mounting projection that protrudes along the circumferential direction is inserted into the lower cover mounting groove formed on the upper surface of the antenna mounting groove.

The antenna module waterproofing and embedding structure of the smart manhole cover according to the present invention is not exposed to water as the antenna of the antenna module installed in the antenna mounting groove formed in the manhole cover is accommodated in the receiving space formed between the upper cover and the lower cover. This prevents the modem device, the underground facility under the manhole, and the sensor device for monitoring it from being damaged or malfunctioning due to moisture, and the nut is fastened to the cylindrical upper part provided in the lower cover so that the antenna module is fixed to the manhole cover. , installation is easy compared to the case of installing the antenna module by the interference fit method.

In addition, according to the waterproofing and embedding structure of the antenna module of the smart manhole cover according to the present invention, the mounting protrusion formed on the lower surface of the lower cover is inserted into the lower cover mounting groove of the manhole cover, so even if water is introduced between the lower cover mounting groove and the antenna module There is an effect that the moisture does not affect the antenna seated on the upper side of the lower cover, and in particular, two or more mounting protrusions are formed while forming concentric circles at a predetermined interval to more effectively block the moisture.

In addition, according to the waterproofing and embedding structure of the antenna module of the smart manhole cover according to the present invention, a pair of positioning protrusions are formed on the back side of the lower cover, and a pair of positioning holes are formed in the antenna mounting groove of the manhole cover. Therefore, by fitting the positioning protrusion and the positioning hole, the lower cover can be installed at an accurate position, and rotation of the lower cover is prevented.

In addition, according to the waterproofing and embedding structure of the antenna module of the smart manhole cover according to the present invention, when the upper cover is rotated in either direction while the coupling protrusion provided in the lower cover is inserted into the coupling groove of the upper cover, both are firmly secured. Since both are easily decomposed when combined and rotated in the opposite direction, there is an effect that the antenna can be easily replaced or repaired.

In addition, according to the waterproofing and embedding structure of the antenna module of the smart manhole cover according to the present invention, the screw portion formed on the inner circumferential surface of the antenna receiving part on the upper cover side and the screw portion formed on the outer circumferential surface of the fitting projection on the lower cover side are screwed in a screw fastening method. Therefore, there is an effect that the waterproofness around the antenna is further improved.

1 is an exploded perspective view showing an antenna module waterproofing and embedding structure of a smart manhole cover according to an embodiment of the present invention.
Figure 2 is a cross-sectional configuration diagram showing the antenna module waterproof and buried structure of the smart manhole cover of an embodiment according to the present invention.
Figure 3 is a cross-sectional exploded view showing the antenna module waterproof and buried structure of the smart manhole cover of an embodiment according to the present invention.
Figure 4 is a configuration diagram showing an upper cover of an embodiment according to the present invention.
5 is a configuration diagram showing a lower cover of an embodiment according to the present invention.
6 is a reference view for explaining the coupling structure of the upper cover and the lower cover of an embodiment according to the present invention.
7 is a configuration diagram showing an upper cover of another embodiment according to the present invention.
8 is a configuration diagram showing a lower cover of another embodiment according to the present invention.
9 is a reference view for explaining the coupling structure of the upper cover and the lower cover of another embodiment according to the present invention.

Hereinafter, with reference to the accompanying drawings, the antenna module waterproofing and embedding structure of the smart manhole cover according to an embodiment of the present invention will be described as follows.

The antenna module waterproofing and embedding structure of the smart manhole cover of an embodiment according to the present invention, as shown in FIGS. 1 to 3, an antenna mounting groove 55 formed in the center of the outer surface (surface) of the manhole cover 50 The antenna module is mounted inside, and the antenna module has a disk-shaped antenna 30, and the antenna 30 is seated on the upper surface so that the lower part of the antenna 30 is not exposed, and the antenna mounting groove 55 The lower cover 20 having a cylindrical portion 24 extending downward to be inserted into the through hole 51 formed in the center of the antenna mounting groove 55 and mounted in the antenna mounting groove 55, and the antenna 30 is located on the lower side of the The accommodating part 13 is formed so that the upper part of the antenna 30 is not exposed, and the upper cover 10 is detachably coupled to the lower cover 20, and the lower cover protrudes to the back of the manhole cover 50 ( It is fastened to the cylindrical portion 24 of the 20) and comprises a nut 40 for fixing the lower cover 20 not to be separated.

According to this configuration, the antenna 30 is safely protected by the upper cover 10 and the lower cover 20, and by the nut 40 fastened to the cylindrical upper part 24 of the lower cover 20, the lower cover ( 20) is firmly fixed to the manhole cover (50).

As shown in FIG. 4 , the upper cover 10 has a central protrusion 11 having an antenna accommodating part 13 capable of accommodating the antenna 30 therein, and a central protrusion so as to be seated on the upper surface of the lower cover 20 . It includes a flange-shaped extension 12 that is formed extending outwardly from the lower end of (11). In addition, a coupling groove 14 is formed at the inner end of the extension part 12 . With this configuration, the antenna 30 is accommodated and protected in the antenna receiving portion 13 of the upper cover 10 , and the upper surface of the antenna 30 is not exposed to the outside.

As shown in FIG. 5 , the lower cover 20 includes a body 21 having a cylindrical portion 24 connected to the central lower portion, and a body 21 so as to be fitted into the antenna receiving portion 13 of the upper cover 10 . A fitting protrusion 22 protruding upward along the circumferential direction at a location spaced apart from the center of 23 and a mounting protrusion 25 protruding from the bottom surface of the body 21 in the circumferential direction and inserted into the lower cover mounting groove 52 formed on the upper surface of the antenna mounting groove 55 . The mounting protrusion 25 is, for example, preferably formed in two concentric circles. In addition, a positioning protrusion 26 is formed on the bottom surface of the body 21 of the lower cover 20 . In addition, a sealing material or an adhesive may be applied between the surface of the antenna mounting groove 55 and the surface of the lower cover 20 .

The antenna 30 preferably includes a modem connection part 35 protruding from the lower side so as to be inserted into the cylindrical part 24 formed in the center of the lower cover 20 and communicating with a modem device (not shown).

According to this configuration, even if water flows into the antenna mounting groove 55 of the manhole cover 50, the mounting protrusion 25 of the lower cover 20 fitted into the lower cover mounting groove 52 of the manhole cover 50 is Since water does not flow between the through hole 51 of the antenna mounting groove 55 and the cylindrical portion 24 of the lower cover 20, the modem device connected to the modem connection part 35 of the antenna 30 is protected from moisture. be able to do

In addition, two positioning protrusions 26 are formed to protrude at intervals of 180° from the rear surface (bottom surface) of the body 21 of the lower cover 20 , and a pair of positioning holes are formed in the antenna mounting groove 55 . Therefore, the lower cover 20 is disposed at the correct position in the antenna mounting groove by the fitting coupling between the positioning protrusions 26 and the positioning holes, for example, to the modem connection part 35 of the antenna 30 . It can prevent the wire of the modem device to be connected from being twisted.

In addition, as shown in FIG. 6 , coupling grooves 14 of a predetermined size are symmetrically formed at 180° intervals at the inner end of the extension part 12 of the upper cover 10 , and the lower cover 20 is fitted. Since a pair of coupling protrusions 23 formed in a radial direction are symmetrically formed on the outside of the protrusion 22 , the coupling protrusions 23 of the lower cover 20 are connected to the coupling grooves 14 of the upper cover 10 . ), by rotating the upper cover 10 , the upper cover 10 can be fixed to or separated from the lower cover 20 . At this time, it is preferable that the coupling protrusion 23 is formed in a shape in which the end is bent to one side, and a groove into which the bent portion of the coupling protrusion 23 is inserted is additionally formed in the coupling groove 14 . Accordingly, the upper cover 10 is firmly coupled to the lower cover 20 and does not come off, and the antenna 30 can be repaired or replaced by separating the upper cover 10 from the lower cover 20 as necessary. there will be

On the other hand, the antenna module is filled with a urethane foam material (not shown) around it in a state disposed in the antenna mounting groove 55, or an elastic cover (not shown) made of a urethane foam material is inserted into the upper surface of the manhole cover 50 It is preferable not to generate a step difference between the fruits. According to this configuration, the antenna module is not exposed to the outside by the urethane foam material or the elastic cover, and it is possible to protect the antenna module from external impact.

Next, the antenna module waterproofing and embedding structure of the smart manhole cover according to another embodiment is, as shown in FIGS. 7 to 9, the coupling groove 14 provided in the upper cover 10 of one embodiment is missing. Instead, a screw portion 15 is formed on the inner circumferential surface of the antenna accommodating portion 13 , and the lower cover 20 has a screw portion 27 corresponding to the screw portion 15 of the upper cover 10 on the outer circumferential surface of the fitting protrusion 22 . It consists of a composition formed in According to this configuration, the screw portion 15 on the upper cover side and the screw portion 27 on the lower cover side are closely coupled, so that the waterproofness around the antenna 30 is further improved.

In addition, the lower cover 20 of another embodiment, unlike the lower cover 20 of one embodiment, the engaging protrusion 23 and the positioning protrusion 26 are deleted. Accordingly, the formation of the positioning hole corresponding to the positioning projection 26 is unnecessary.

In the above, embodiments illustrating the technical idea of the present invention have been described, but the present invention is not limited to the configuration and operation as described, and without departing from the scope of the technical idea described in the claims, the present invention Those skilled in the art will be able to understand well that many changes and modifications are possible. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as falling within the scope of the present invention.

10… upper cover
11… central overhang
12… extension
13… antenna receptacle
14… mating groove
15… threaded part
20… lower cover
21… body
22… swivel
23… bonding protrusion
24… cylindrical top
25… mounting protrusion
26… positioning protrusion
27… threaded part
30… antenna
35… modem connection
40… nut
50… manhole cover
51… through hole
52… Lower cover mounting groove
55… Antenna mounting groove

Claims (6)

The antenna module is mounted in the antenna mounting groove 55 formed in the center of the outer surface of the manhole cover 50,
Antenna module,
antenna 30;
The antenna 30 is seated so that the lower portion of the antenna 30 is not exposed, and a cylindrical portion 24 extending downward to be inserted into the through hole 51 formed in the center of the antenna mounting groove 55 is provided. a lower cover 20 mounted on the antenna mounting groove 55;
An upper cover 10 is formed on the lower side of the antenna accommodating part 13 in which the antenna 30 is located so that the upper portion of the antenna 30 is not exposed and is detachably coupled to the lower cover 20; and
a nut 40 fastened to the cylindrical upper part 24 of the lower cover 20 protruding to the lower part of the manhole cover 50 and fixing the lower cover 20 not to be separated;
includes,
The upper cover 10 has a screw portion 15 formed on the inner circumferential surface of the antenna receiving portion 13,
The lower cover 20 has a body 21 to which the cylindrical portion 24 is connected to the lower center, and the antenna 30 is protruded upward along the circumferential direction at a position spaced apart from the center of the body 21 to a certain extent. As well as being accommodated, a screw portion 27 corresponding to the screw portion 15 of the antenna accommodating portion 13 is protruded from the bottom surface of the body 21 in the circumferential direction with a fitting protrusion 22 formed on the outer circumferential surface of the antenna mounting groove 55 ) Antenna module waterproofing and embedding structure of a smart manhole cover, characterized in that it includes a mounting protrusion (25) inserted into the lower cover mounting groove (52) formed on the upper surface. The method according to claim 1,
The upper cover 10 has a central protrusion 11 having an antenna accommodating part 13 in which the antenna 30 is accommodated, and a lower end of the central protrusion 11 so as to be seated on the upper surface of the lower cover 20 to the outside. Antenna module waterproofing and embedding structure of the smart manhole cover, characterized in that it comprises an extension (12) formed to extend. The method according to claim 1 or 2,
The antenna module waterproof and buried structure of the smart manhole cover, characterized in that two mounting projections are formed in the form of concentric circles. 4. The method according to claim 3,
Antenna module of smart manhole cover, characterized in that the upper side of the antenna module installed in the antenna mounting groove is filled with urethane foam material or an elastic cover made of urethane foam material is inserted so that there is no step difference with the upper surface of the manhole cover. Waterproof and buried construction. delete delete

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