KR102567220B1 - RF temperature sensor for switchboard terminals, and switchboard device equipped with the RF temperature sensor, and monitoring system of a temperature of the switchboard device - Google Patents

Abstract

The present invention is a technology for effectively monitoring numerous overheated parts in a switchboard that receives system power and distributes and supplies it to buildings or factories. The present invention relates to a technology for effectively analyzing and organizing temperature data received from a plurality of RF temperature sensors installed in various locations of a switchboard and having an RF temperature sensor having a structure that can be used. According to the present invention, since the RF transmission/reception device for wirelessly transmitting and receiving signals to and from a switchboard device having an RF temperature sensor includes an RF reading member and an RF transmission member, the temperature data monitored for various positions of the switchboard is independent of inspection personnel. It has the advantage of being able to organize and manage effectively.

Description

RF temperature sensor for switchboard terminals, and switchboard device equipped with the RF temperature sensor, and monitoring system of a temperature of a switchboard device the switchboard device}

The present invention is a technology for effectively monitoring numerous overheated parts in a switchboard that receives grid power and distributes and supplies it to buildings or factories.

More specifically, the present invention has an RF temperature sensor having a structure that can effectively respond to it because the switchboard has an unspecified shape due to structural bending or bending at various positions, and a plurality of RF temperature sensors installed at various positions of the switchboard It is about a technology that effectively analyzes and organizes temperature data received from sensors.

In general, a switchboard plays a role in distributing and supplying external grid power to equipment in a building or factory.

In addition, a plurality of circuit breakers are installed in the switchboard to turn on/off the electricity supply of each power cable at each location distributed with three-phase power or single-phase power.

Here, each circuit breaker has a structure in which individual lugs for connecting each power cable are disposed and bolts for connecting the lugs to the circuit breaker can be provided.

As a result, in the switchboard, an overheating environment (e.g., poor connection between a lug and power cable, poor screw connection when connecting a lug and a breaker terminal) always exists around each circuit breaker or around each lug or bolt due to an increase in electrical resistance.

As such, since there are many circuit breakers and many circuit breakers in a switchboard, there are many points to be monitored for overheating.

On the other hand, when the size of the factory is large, since the number of switchboards increases, a lot of time and manpower are consumed to measure the temperature of various points while going around the entire large factory.

In the past, inspection personnel measured the temperature of various positions of each switchboard using a so-called thermal imaging camera, but since there are many points in one switchboard, the measurement takes a lot of time.

Also, in the past, temperature data measured by a thermal imaging camera was matched with corresponding location points and recorded and organized by a person, so a lot of time and manpower was consumed to organize a huge amount of monitoring results.

The present invention has been proposed in view of the above, and an object of the present invention is an RF temperature sensor for switchboard terminals that can be stably mounted on switchboard devices having many unspecified terminal structures and transmit/receive each temperature data wirelessly, and the same It is to provide a switchboard device equipped with an RF temperature sensor.

In addition, an object of the present invention is to provide a temperature monitoring system for terminals of a switchboard device capable of effectively organizing and managing temperature data monitored for various locations of the switchboard device wirelessly.

In order to achieve the above object, an RF temperature sensor for a switchboard terminal according to the present invention includes an RF temperature sensor block member 110; A seating member 121 formed in the form of a plate having one side connected to one side of the RF temperature sensor block member and mounted on the outer surface of the switchboard device; A mounting bracket member 120 having a connection member 122 bent from a seating member so as to be fastened in a switchboard device in a state of contact with a lug position for an electric wire inside, and made of a metallic material and operating as an antenna of an RF temperature sensor block member; can be configured.

Here, the connection member 122 is a fixing hole member 122a formed through its body so that it can be fixed in the switchboard device in a state of being inserted together with the wire lug into a fixing bolt for fastening the wire lug into the switchboard device. ); may be provided.

Meanwhile, a switchboard device having an RF temperature sensor for switchboard terminals according to the present invention includes a main blocking member 200 installed in a main three-phase power cable to which system power is supplied from the outside and switching on and off power supply from the outside; Multiple routes branching from the main 3-phase power cable to supply 3-phase power and single-phase power in multiple directions are individually installed for each of a plurality of sub-power cables to switch on/off the power supply through each sub-power cable. two sub-blocking members 300; It may be configured to include; a plurality of RF temperature sensors 100 for detecting the temperature of the corresponding position while being disposed at one or more positions among the main blocking member and the plurality of sub-blocking members.

Here, the RF temperature sensor 100 includes an RF temperature sensor block member 110; A seating member 121 formed in the form of a plate having one side connected to one side of the RF temperature sensor block member and mounted on the outer surface of the switchboard device; A mounting bracket member 120 having a connection member 122 bent from a seating member so as to be fastened in a switchboard device in contact with a lug position for an electric wire inside, and made of a metallic material and operating as an antenna of an RF temperature sensor block member; can do.

In addition, the connection member 122 is a fixing hole member 122a formed through its body so that it can be fixed in the switchboard device in a state of being inserted together with the wire lug into a fixing bolt for fastening the wire lug into the switchboard. ; can be provided.

On the other hand, the temperature monitoring system for the terminals of a switchboard device having an RF temperature sensor for switchboard terminals according to the present invention includes a switchboard device (A); It may be configured to include; an RF transmission/reception device (B) for transmitting and receiving an RF signal to and from a switchboard device.

At this time, the switchboard device (A) includes a main blocking member 200 installed in the main three-phase power cable to which system power is supplied from the outside and switching on and off the power supply from the outside; Multiple routes branching from the main 3-phase power cable to supply 3-phase power and single-phase power in multiple directions are individually installed for each of a plurality of sub-power cables to switch on/off the power supply through each sub-power cable. two sub-blocking members 300; A plurality of RF temperature sensors 100 for detecting the temperature of the corresponding position in a state disposed at one or more positions among the main blocking member and the plurality of sub-blocking members; may be provided.

And, the RF transmitting and receiving device (B) includes an RF reading member 410 for receiving temperature measurement data sensed by a plurality of RF temperature sensors as an RF signal; An RF transmission member 420 that transmits RF signals used by the plurality of RF temperature sensors as operating power to the plurality of RF temperature sensors; may be provided.

In addition, the RF temperature sensor 100 includes an RF temperature sensor block member 110; A plate-shaped seating member 121 having one side connected to one surface of the RF temperature sensor block member, and a connection member 122 bent from the seating member and fastened to a predetermined location of the switchboard device, and made of a metallic material, RF A mounting bracket member 120 operating as an antenna of the temperature sensor block member may be provided.

Here, the connecting member 122 is a fixing hole formed through its body so that it can be fixed in the switchboard device in a state of being inserted together with the wire lug into a fixing bolt for fastening the wire lug into the switchboard device. A member (122a); may be provided.

According to the present invention, since the RF temperature sensor includes a mounting bracket member having an RF temperature sensor block member, a mounting member, and a connecting member, it can be stably mounted on switchboard devices having many unspecified terminal structures.

In addition, the present invention also shows the advantage of stably wirelessly transmitting and receiving temperature data collected at each location of the switchboard device as the RF temperature sensor includes a mounting bracket member having an RF temperature sensor block member, a seating member, and a connecting member.

In addition, the present invention provides temperature data monitored for various positions of the switchboard device as the RF transmission/reception device for wirelessly transmitting and receiving signals to and from the switchboard device having the RF temperature sensor includes an RF reading member and an RF transmitting member. It shows the advantage of being able to organize and manage effectively regardless.

1 is an exemplary view schematically showing a temperature monitoring system for terminals of a switchboard device having an RF temperature sensor for switchboard terminals according to the present invention;
[Figure 2] is an exemplary diagram showing the configuration of the switchboard device of [Figure 1] in detail;
[Figure 3] is an exemplary view showing an RF temperature sensor for a switchboard terminal according to the first embodiment mounted on the switchboard device of [Fig. 2];
[Figure 4] is an example of a state in which the RF temperature sensor for the switchboard terminal of [Figure 3] is separated from the main blocking member, which is a large 3-phase circuit breaker;
[FIG. 5] is a use state diagram in which the RF temperature sensor for switchboard terminals of [FIG. 4] is mounted on the main blocking member, which is a large three-phase circuit breaker, [FIG. 6] is a second embodiment installed on the switchboard device of [FIG. 2]. An exemplary diagram showing an RF temperature sensor for a switchboard terminal according to an example,
[Fig. 7] is a use state diagram in which the RF temperature sensor for the switchboard terminal of [Fig. 6] is mounted on the main blocking member, which is a large three-phase circuit breaker.
[Figure 8] is a use state diagram in which the RF temperature sensor for switchboard terminals shown in [Figure 6] is mounted on a sub-blocking member, which is a small single-phase circuit breaker.

Hereinafter, the present invention will be described in detail with reference to the drawings.

[Fig. 1] is an exemplary view schematically showing a temperature monitoring system for the terminals of a switchboard device having an RF temperature sensor for switchboard terminals according to the present invention, and [Fig. 2] is an exemplary diagram for the switchboard device of [Fig. 1]. [Fig. 3] is an exemplary view showing the RF temperature sensor for switchboard terminals according to the first embodiment mounted on the switchboard device of [Fig. 2], and [Fig. 4] is [Fig. 3] is an example of a state in which the RF temperature sensor for switchboard terminals is separated from the main blocking member, which is a large 3-phase circuit breaker, [Fig. It is a diagram of the state of use installed on the blocking member.

First, the RF temperature sensor 100 is mounted at various locations in the switchboard device (A) of [Figs. 1] and [Fig. 2], and wirelessly transmits temperature data measured at various locations of the switchboard device (A) [Fig. ] is transmitted to the RF transceiver device (B) on the .

To this end, the RF temperature sensor 100 has to overcome two major problems. First, it should be easy to mount in various positions of the switchboard device (A) having an unspecified structure, so that good temperature sensing should be achieved.

Secondly, when the switchboard device (A) and the RF transceiver device (B) on [Fig. 1] wirelessly transmit and receive signals, the plurality of RF temperature sensors 100 in the switchboard device (A) individually serve as antennas well. shall.

To this end, the RF temperature sensor 100 for switchboard terminals according to the first embodiment of the present invention may include an RF temperature sensor block member 110 and a mounting bracket member 120 as shown in FIG. 3 .

Referring to FIG. 3, the RF temperature sensor block member 110 is formed in a block shape and measures the temperature of the corresponding position of the switchboard device A to which it is mounted.

Here, referring to FIGS. 4 and 5, the RF temperature sensor block member 110 is the main blocking member 200 or the sub blocking member ( 300), even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting bracket member 120 as shown in [FIG. 4] and [FIG. 5], the main blocking member 200 or the sub The temperature of the corresponding position of the blocking member 300 must be accurately sensed.

And, the mounting bracket member 120 equipped with the RF temperature sensor block member 110 is stably connected to the main blocking member 200 or the sub blocking member 300 as shown in [Figs. 4] and [5]. should be maintained.

In addition, in order to wirelessly transmit the temperature data sensed by the RF temperature sensor block member 110 to the RF transmitting/receiving device B, the mounting bracket member 120 should serve as an antenna.

To this end, the mounting bracket member 120 is preferably made of a plate-shaped metallic material and may be configured to operate as an antenna of the RF temperature sensor block member 110, and structurally, as shown in [FIG. 3], the one body It can be made in the form of a flat plate of a pattern.

Referring to FIG. 3 , the mounting bracket member 120 is formed in a plate shape with one side connected to one side of the RF temperature sensor block member 110 and can be mounted on the outer surface of the switchboard device A.

And, referring to [Figs. 4] and [5], the mounting bracket member 120, after the end of its body facing the RF temperature sensor block member 110 is inserted into the switchboard device (A), then the switchboard device ( It can be fastened in the switchboard device (A) in a state in contact with the position of the lug 10 for electric wire in A).

As a result, even when the RF temperature sensor block member 110 is seated on one surface of the mounting bracket member 120, it is possible to accurately sense the temperature of the corresponding position of the switchboard device A, and the mounting bracket member 120 ), it is possible to mount stably even in the unique structure of the switchboard device (A) as shown in [Fig. 4] and [Fig. 5].

To this end, the mounting bracket member 120 may have a fixing hole member 122a. As the fixing hole member 122a is formed through its body as shown in [FIG. 3], [FIG. 4] and [ As shown in FIG. 5, the lug 10 for electric wire can be stably fixed in the switchboard device A while being inserted together with the lug 10 for electric wire in the fixing bolt 20 for fastening the lug 10 for switchboard device A. can

Meanwhile, referring to FIGS. 1 to 5, the switchboard device having the RF temperature sensor for switchboard terminals according to the present invention includes a main blocking member 200, a plurality of sub blocking members 300, and a plurality of RF temperature sensors. It may be configured to include the sensor 100.

As shown in FIGS. 2 and 4, the main blocking member 200 may be installed in the main three-phase power cable to which system power is supplied from the outside to switch on/off the power supply from the outside.

As shown in [FIG. 2] and [FIG. 5], the sub-blocking member 300 is branched into a plurality of routes from the main three-phase power cable for each of a plurality of sub power cables that supply three-phase power and single-phase power in a plurality of directions. It may be individually installed and configured to switch on/off power supply through each sub power cable.

Referring to FIGS. 2 to 5, the RF temperature sensor 100 according to the first embodiment is disposed at a plurality of positions among the main blocking member 200 and the plurality of sub blocking members 300, respectively. It is possible to detect the temperature for the corresponding position of the

To this end, the RF temperature sensor 100 may include an RF temperature sensor block member 110 and a mounting bracket member 120 as shown in FIG. 3 .

Referring to FIG. 3, the RF temperature sensor block member 110 is formed in a block shape and measures the temperature of the corresponding position of the switchboard device A to which it is mounted.

Here, referring to FIGS. 4 and 5, the RF temperature sensor block member 110 is the main blocking member 200 or the sub blocking member ( 300), even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting bracket member 120 as shown in [FIG. 4] and [FIG. 5], the main blocking member 200 or the sub The temperature of the corresponding position of the blocking member 300 must be accurately sensed.

And, the mounting bracket member 120 equipped with the RF temperature sensor block member 110 is stably connected to the main blocking member 200 or the sub blocking member 300 as shown in [Figs. 4] and [5]. should be maintained.

In addition, in order to wirelessly transmit the temperature data sensed by the RF temperature sensor block member 110 to the RF transmitting/receiving device B, the mounting bracket member 120 should serve as an antenna.

To this end, the mounting bracket member 120 is preferably made of a plate-shaped metallic material and may be configured to operate as an antenna of the RF temperature sensor block member 110, and structurally, as shown in [FIG. 3], the one body It can be made in the form of a flat plate of a pattern.

Referring to FIG. 3 , the mounting bracket member 120 is formed in a plate shape with one side connected to one side of the RF temperature sensor block member 110 and can be mounted on the outer surface of the switchboard device A.

And, referring to [Figs. 4] and [5], the mounting bracket member 120, after the end of its body facing the RF temperature sensor block member 110 is inserted into the switchboard device (A), then the switchboard device ( It can be fastened in the switchboard device (A) in a state in contact with the position of the lug 10 for electric wire in A).

As a result, even when the RF temperature sensor block member 110 is seated on one surface of the mounting bracket member 120, it is possible to accurately sense the temperature of the corresponding position of the switchboard device A, and the mounting bracket member 120 ), it is possible to mount stably even in the unique structure of the switchboard device (A) as shown in [Fig. 4] and [Fig. 5].

To this end, the mounting bracket member 120 may have a fixing hole member 122a. As the fixing hole member 122a is formed through its body as shown in [FIG. 3], [FIG. 4] and [ As shown in FIG. 5, the lug 10 for electric wire can be stably fixed in the switchboard device A while being inserted together with the lug 10 for electric wire in the fixing bolt 20 for fastening the lug 10 for switchboard device A. can

On the other hand, referring to [Fig. 1] to [Fig. 5], the temperature monitoring system for the terminal of the switchboard device having the RF temperature sensor for the switchboard terminal according to the present invention is a switchboard device (A) and an RF transceiver device (B) It can be configured to include.

The switchboard device (A) is a device that distributes and supplies grid power supplied from the outside to the internal equipment of a building or factory, and performs RF wireless communication with the RF transceiver device (B) through the RF temperature sensor 100 mounted therein. .

The RF transmitting/receiving device (B) may be configured to transmit/receive an RF signal with the switchboard device (A) through each of the RF temperature sensors 100 mounted on the switchboard device (A).

Here, referring to FIGS. 2 to 5, the switchboard device A may include a main blocking member 200, a plurality of sub blocking members 300, and a plurality of RF temperature sensors 100. there is.

As shown in FIGS. 2 and 4, the main blocking member 200 may be installed in the main three-phase power cable to which system power is supplied from the outside to switch on/off the power supply from the outside.

As shown in [FIG. 2] and [FIG. 5], the sub-blocking member 300 is branched into a plurality of routes from the main three-phase power cable for each of a plurality of sub power cables that supply three-phase power and single-phase power in a plurality of directions. It may be individually installed and configured to switch on/off power supply through each sub power cable.

Referring to FIGS. 2 to 5, the RF temperature sensor 100 is disposed at a plurality of positions among the main blocking member 200 and the plurality of sub-blocking members 300, and the temperature for each corresponding position can detect

To this end, the RF temperature sensor 100 may include an RF temperature sensor block member 110 and a mounting bracket member 120 as shown in FIG. 3 .

Referring to FIG. 3, the RF temperature sensor block member 110 is formed in a block shape and measures the temperature of the corresponding position of the switchboard device A to which it is mounted.

Here, referring to FIGS. 4 and 5, the RF temperature sensor block member 110 is the main blocking member 200 or the sub blocking member ( 300), even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting bracket member 120 as shown in [FIG. 4] and [FIG. 5], the main blocking member 200 or the sub The temperature of the corresponding position of the blocking member 300 must be accurately sensed.

And, the mounting bracket member 120 equipped with the RF temperature sensor block member 110 is stably connected to the main blocking member 200 or the sub blocking member 300 as shown in [Figs. 4] and [5]. should be maintained.

In addition, in order to wirelessly transmit the temperature data sensed by the RF temperature sensor block member 110 to the RF transmitting/receiving device B, the mounting bracket member 120 should serve as an antenna.

To this end, the mounting bracket member 120 is preferably made of a plate-shaped metallic material and may be configured to operate as an antenna of the RF temperature sensor block member 110, and structurally, as shown in [FIG. 3], the one body It can be made in the form of a flat plate of a pattern.

Referring to FIG. 3 , the mounting bracket member 120 is formed in a plate shape with one side connected to one side of the RF temperature sensor block member 110 and can be mounted on the outer surface of the switchboard device A.

And, referring to [Figs. 4] and [5], the mounting bracket member 120, after the end of its body facing the RF temperature sensor block member 110 is inserted into the switchboard device (A), then the switchboard device ( It can be fastened in the switchboard device (A) in a state in contact with the position of the lug 10 for electric wire in A).

As a result, even when the RF temperature sensor block member 110 is seated on one surface of the mounting bracket member 120, it is possible to accurately sense the temperature of the corresponding position of the switchboard device A, and the mounting bracket member 120 ), it is possible to mount stably even in the unique structure of the switchboard device (A) as shown in [Fig. 4] and [Fig. 5].

To this end, the mounting bracket member 120 may have a fixing hole member 122a. As the fixing hole member 122a is formed through its body as shown in [FIG. 3], [FIG. 4] and [ As shown in FIG. 5, the lug 10 for electric wire can be stably fixed in the switchboard device A while being inserted together with the lug 10 for electric wire in the fixing bolt 20 for fastening the lug 10 for switchboard device A. can

And, the RF transceiver (B), referring to [Fig. 1] An RF reading member 410 and an RF transmitting member 420 may be provided.

The RF reading member 410 may be configured to receive temperature measurement data detected by the plurality of RF temperature sensors 100 as an RF signal.

The RF reading member 410 may preferably be configured as a dedicated app installed in a smart terminal.

On the other hand, the plurality of RF temperature sensors 100 on [FIG. 3] mounted on the switchboard device (A) set each unique ID, and the switchboard device (A) itself also sets a unique ID, and the switchboard device (A) The main blocking member 200 and the plurality of sub blocking members 300 provided in may also have unique IDs individually set.

As a result, the RF reading member 410 as a dedicated app installed in the smart terminal can automatically organize temperature data obtained from numerous RF temperature sensors 100 installed in several switchboard devices (A) regardless of inspection personnel. For example, through an analysis algorithm, it is possible to manage a trend of temperature change in each switchboard device (A) and an alarm on whether or not a current state is warned.

The RF transmission member 420 may be configured to transmit RF signals used as operating power by the plurality of RF temperature sensors 100 to the plurality of RF temperature sensors 100 .

On the other hand, [Fig. 6] is an exemplary view showing an RF temperature sensor for switchboard terminals according to the second embodiment mounted on the switchboard device of [Fig. 2], and [Fig. 7] is for switchboard terminals of [Fig. 6]. [Fig. 8] is a state diagram in which the RF temperature sensor for switchboard terminals of [Fig. 6] is mounted in the sub-blocking member, which is a small single-phase circuit breaker.

The RF temperature sensor 100 for a switchboard terminal according to the second embodiment of the present invention may include an RF temperature sensor block member 110 and a mounting bracket member 120 as shown in [FIG. 6] to [FIG. 8]. there is.

Here, referring to FIG. 6, the RF temperature sensor block member 110 is made in a block shape and measures the temperature of the corresponding position of the switchboard device A to which it is mounted.

Here, referring to FIGS. 7 and 8, the RF temperature sensor block member 110 is the main blocking member 200 or the sub blocking member of the switchboard device A with the help of the mounting bracket member 120 ( 300), even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting bracket member 120 as shown in [Figs. 7] and [Fig. 8], the main blocking member 200 or the sub The temperature of the corresponding position of the blocking member 300 must be accurately sensed.

In addition, the mounting bracket member 120 equipped with the RF temperature sensor block member 110 is stably connected to the main blocking member 200 or the sub blocking member 300 as shown in [Fig. 7] and [Fig. 8]. should be maintained.

In addition, in order to wirelessly transmit the temperature data sensed by the RF temperature sensor block member 110 to the RF transmitting/receiving device B, the mounting bracket member 120 should serve as an antenna.

To this end, the mounting bracket member 120 is preferably made of a plate-shaped metallic material and may be configured to operate as an antenna of the RF temperature sensor block member 110, and structurally, as shown in [FIG. 6], the mounting member (121) and a connecting member (122) may be provided.

Referring to FIG. 6 , the seating member 121 is formed in a plate shape with one side connected to one side of the RF temperature sensor block member 110 and can be mounted on the outer surface of the switchboard device A.

Referring to FIG. 6, the connection member 122 is inserted into the switchboard device (A) in a state extended from the seating member 121, and then in contact with the position of the wire lug 10 in the switchboard device (A). It can be bent from the mounting member 121 to be fastened into the switchboard device (A).

As a result, even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting member 121, it is possible to accurately sense the temperature of the corresponding position of the switchboard device A, and the connection member 122 With the help, as shown in [Fig. 7] and [Fig. 8], it is possible to mount stably even in the unique structure of the switchboard device (A).

To this end, the connection member 122 may have a fixing hole member 122a, which is formed through its body as shown in [Fig. 3], [Fig. 7] and [Fig. 8], it can be stably fixed in the switchboard device (A) while being inserted together with the wire lug (10) into the fixing bolt (20) for fastening the wire lug (10) into the switchboard device (A). there is.

On the other hand, referring to [Fig. 2] and [Fig. 6] to [Fig. 8], the switchboard device having the RF temperature sensor for switchboard terminals according to the present invention includes a main blocking member 200 and a plurality of sub blocking members 300 , It may be configured to include a plurality of RF temperature sensors (100).

As shown in FIGS. 2 and 7, the main blocking member 200 may be installed in a main three-phase power cable to which system power is supplied from the outside to switch on/off the power supply from the outside.

As shown in [Figs. 2] and [Fig. 8], the sub-blocking member 300 is branched from the main 3-phase power cable into a plurality of routes for each of a plurality of sub-power cables that supply 3-phase power and single-phase power in a plurality of directions. It may be individually installed and configured to switch on/off power supply through each sub power cable.

Referring to [Figs. 2] and [Figs. 6] to [Fig. 8], the RF temperature sensor 100 is disposed in a plurality of positions among the main blocking member 200 and the plurality of sub-blocking members 300, respectively. You can detect the temperature for that location.

To this end, the RF temperature sensor 100 may include an RF temperature sensor block member 110 and a mounting bracket member 120 as shown in FIG. 6 .

Referring to FIG. 6, the RF temperature sensor block member 110 has a block shape and measures the temperature of the corresponding position of the switchboard device A to which it is mounted.

Here, referring to FIGS. 7 and 8, the RF temperature sensor block member 110 is the main blocking member 200 or the sub blocking member of the switchboard device A with the help of the mounting bracket member 120 ( 300), even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting bracket member 120 as shown in [Figs. 7] and [Fig. 8], the main blocking member 200 or the sub The temperature of the corresponding position of the blocking member 300 must be accurately sensed.

In addition, the mounting bracket member 120 equipped with the RF temperature sensor block member 110 is stably connected to the main blocking member 200 or the sub blocking member 300 as shown in [Fig. 7] and [Fig. 8]. should be maintained.

In addition, in order to wirelessly transmit the temperature data sensed by the RF temperature sensor block member 110 to the RF transmitting/receiving device B, the mounting bracket member 120 should serve as an antenna.

To this end, the mounting bracket member 120 is preferably made of a plate-shaped metallic material and may be configured to operate as an antenna of the RF temperature sensor block member 110, and structurally, as shown in [FIG. 6], the mounting member (121) and a connecting member (122) may be provided.

Referring to FIG. 6 , the seating member 121 is formed in a plate shape with one side connected to one side of the RF temperature sensor block member 110 and can be mounted on the outer surface of the switchboard device A.

Referring to FIG. 6, the connection member 122 is inserted into the switchboard device (A) in a state extended from the seating member 121, and then in contact with the position of the wire lug 10 in the switchboard device (A). It can be bent from the mounting member 121 to be fastened into the switchboard device (A).

As a result, even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting member 121, it is possible to accurately sense the temperature of the corresponding position of the switchboard device A, and the connection member 122 With the help, as shown in [Fig. 7] and [Fig. 8], it is possible to mount stably even in the unique structure of the switchboard device (A).

To this end, the connection member 122 may have a fixing hole member 122a, which is formed through its body as shown in [Fig. 6], [Fig. 7] and [Fig. 8], it can be stably fixed in the switchboard device (A) while being inserted together with the wire lug (10) into the fixing bolt (20) for fastening the wire lug (10) into the switchboard device (A). there is.

On the other hand, referring to [Fig. 2] and [Fig. 6] to [Fig. 8], the temperature monitoring system for the terminal of the switchboard device having the RF temperature sensor for the switchboard terminal according to the present invention is the switchboard device (A) and RF It may be configured to include a transmitting and receiving device (B).

The switchboard device (A) is a device that distributes and supplies grid power supplied from the outside to the internal equipment of a building or factory, and performs RF wireless communication with the RF transceiver device (B) through the RF temperature sensor 100 mounted therein. .

The RF transmitting/receiving device (B) may be configured to transmit/receive an RF signal with the switchboard device (A) through each of the RF temperature sensors 100 mounted on the switchboard device (A).

Here, referring to [Figs. 2] and [Figs. 6] to [Fig. 8], the switchboard device (A) includes a main blocking member 200, a plurality of sub blocking members 300, and a plurality of RF temperature sensors 100. can be configured to include

As shown in FIGS. 2 and 7, the main blocking member 200 may be installed in a main three-phase power cable to which system power is supplied from the outside to switch on/off the power supply from the outside.

As shown in [Figs. 2] and [Fig. 8], the sub-blocking member 300 is branched from the main 3-phase power cable into a plurality of routes for each of a plurality of sub-power cables that supply 3-phase power and single-phase power in a plurality of directions. It may be individually installed and configured to switch on/off power supply through each sub power cable.

Referring to [Figs. 2] and [Figs. 6] to [Fig. 8], the RF temperature sensor 100 is disposed in a plurality of positions among the main blocking member 200 and the plurality of sub-blocking members 300, respectively. You can detect the temperature for that location.

To this end, the RF temperature sensor 100 may include an RF temperature sensor block member 110 and a mounting bracket member 120 as shown in FIG. 6 .

Referring to FIG. 3, the RF temperature sensor block member 110 is formed in a block shape and measures the temperature of the corresponding position of the switchboard device A to which it is mounted.

Here, referring to FIGS. 7 and 8, the RF temperature sensor block member 110 is the main blocking member 200 or the sub blocking member of the switchboard device A with the help of the mounting bracket member 120 ( 300), even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting bracket member 120 as shown in [FIG. 7] and [FIG. 8], the main blocking member 200 or the sub The temperature of the corresponding position of the blocking member 300 must be accurately sensed.

In addition, the mounting bracket member 120 equipped with the RF temperature sensor block member 110 is stably connected to the main blocking member 200 or the sub blocking member 300 as shown in [Fig. 7] and [Fig. 8]. should be maintained.

In addition, in order to wirelessly transmit the temperature data sensed by the RF temperature sensor block member 110 to the RF transmitting/receiving device B, the mounting bracket member 120 should serve as an antenna.

To this end, the mounting bracket member 120 is preferably made of a plate-shaped metallic material and may be configured to operate as an antenna of the RF temperature sensor block member 110, and structurally, as shown in [FIG. 6], the mounting member (121) and a connecting member (122) may be provided.

Referring to FIG. 6 , the seating member 121 is formed in a plate shape with one side connected to one side of the RF temperature sensor block member 110 and can be mounted on the outer surface of the switchboard device A.

Referring to FIG. 6, the connection member 122 is inserted into the switchboard device (A) in a state extended from the seating member 121, and then in contact with the position of the wire lug 10 in the switchboard device (A). It can be bent from the mounting member 121 to be fastened into the switchboard device (A).

As a result, even when the RF temperature sensor block member 110 is seated on the upper surface of the mounting member 121, it is possible to accurately sense the temperature of the corresponding position of the switchboard device A, and the connection member 122 With help, as shown in [Fig. 7] and [Fig. 8], it is possible to mount stably even in the unique structure of the switchboard device (A).

To this end, the connection member 122 may have a fixing hole member 122a, which is formed through its body as shown in [Fig. 6], [Fig. 7] and [Fig. 8], it can be stably fixed in the switchboard device (A) while being inserted together with the wire lug (10) into the fixing bolt (20) for fastening the wire lug (10) into the switchboard device (A). there is.

And, the RF transceiver (B), referring to [Fig. 1] An RF reading member 410 and an RF transmitting member 420 may be provided.

The RF reading member 410 may be configured to receive temperature measurement data detected by the plurality of RF temperature sensors 100 as an RF signal.

The RF reading member 410 may preferably be configured as a dedicated app installed in a smart terminal.

On the other hand, the plurality of RF temperature sensors 100 mounted on the switchboard device (A) set each unique ID, and the switchboard device (A) itself also sets a unique ID, and the main block provided in the switchboard device (A) The member 200 and the plurality of sub-blocking members 300 may also individually set unique IDs.

As a result, the RF reading member 410 as a dedicated app installed in the smart terminal can automatically organize temperature data obtained from numerous RF temperature sensors 100 installed in several switchboard devices (A) regardless of inspection personnel. For example, through an analysis algorithm, it is possible to manage a trend of temperature change in each switchboard device (A) and an alarm on whether or not a current state is warned.

The RF transmission member 420 may be configured to transmit RF signals used as operating power by the plurality of RF temperature sensors 100 to the plurality of RF temperature sensors 100 .

10: lug for wire
20: fixing bolt
A: switchgear device
B: RF transceiver
100: RF temperature sensor
110: RF temperature sensor block member
120: Mounting bracket member
121: seating member
122: connection member
122a: fixing hole member
200: main blocking member
300: sub blocking member
410: RF reading member
420: RF transmission member

Claims (6)

RF temperature sensor block member 110;
It is formed of a plate made of a metallic material, one side thereof is connected to one side of the RF temperature sensor block member 110 to operate as an antenna of the RF temperature sensor block member 110, and the other side thereof is connected to the switchboard device (A) a mounting bracket member 120 mounted on an outer surface of the switchboard device (A) configured to sense the temperature;
It is composed of,
The mounting bracket member 120,
a seating member 121 having one surface mounted on the outer surface of the switchboard device A and having the other surface connected to the RF temperature sensor block member 110;
It is bent at 90 degrees toward the switchboard device (A) in a state extended from the seating member 121, and is inserted into the switchboard device (A) in a state in contact with the position of the lug 10 for wires in the switchboard device (A) a connection member 122 fastened in the switchboard device A;
It is formed to penetrate the body of the connection member 122, and after the connection member 122 is inserted inside the switchboard device (A), it is fixed in a state of contact with the position of the lug 10 for electric wires in the switchboard device (A). a fixing hole member (122a) fastened in the switchboard device (A) in a state of being inserted into the bolt (20) together with the lug (10) for electric wires;
By providing
Both the seating member 121 and the connection member 122 bent at 90 degrees to each other of the mounting bracket member 120 are fixedly mounted on the switchboard device A through one surface,
The RF temperature sensor block member 110 seated on the other surface of the mounting member 121 detects the temperature of the switchboard device A through the mounting bracket member 120, which is a plate made of metal, and stores the detected temperature data. An RF temperature sensor for a switchboard terminal, characterized in that it is configured to transmit wirelessly to the outside.
delete A main blocking member 200 installed in the main three-phase power cable to which system power is supplied from the outside and switching on and off the power supply from the outside;
Separately installed for each of a plurality of sub power cables branching from the main three-phase power cable into a plurality of routes and supplying three-phase power and single-phase power in a plurality of directions to switch on/off power supply through each sub-power cable. a plurality of sub-blocking members 300;
a plurality of RF temperature sensors 100 according to claim 1 for detecting the temperature of the corresponding position while being disposed at one or more positions of the main blocking member 200 and the plurality of sub-blocking members 300;
A switchboard device having an RF temperature sensor comprising a.
delete A switchboard device (A) according to claim 3;
An RF reading member 410 for receiving the temperature measurement data sensed by the RF temperature sensor 100 provided in the switchboard device (A) as an RF signal, and an RF temperature sensor 100 provided in the switchboard device (A) An RF transmitting/receiving device (B) having an RF transmitting member 420 for transmitting an RF signal used as an operating power source to transmit/receive temperature measurement data with the switchboard device (A) as an RF signal;
A temperature monitoring system for a switchboard device comprising a. delete

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