KR20160054916A - A relay device for providing electric power for an electric apparatus and recording a state resulted from provision of electric power - Google Patents

Abstract

A relay device according to the present invention includes a relay device, a first sensor for detecting a current flowing through a wire in a state where the relay device is short-circuited, a second sensor for detecting a temperature around the relay, And an alarm unit capable of generating an alarm signal. The current and temperature are periodically detected through the first sensor and the second sensor, and the respective values of the detected current and temperature are measured Together with information on the date and time of detection, in the form of a file in the storage unit. If at least one of the detected values deviates from a predetermined limit reference value, the alarm unit is controlled to generate a warning signal. If the value outside the limit reference value is for the current, Thereby blocking all or part of the supply current. The file format has a data structure that can be read by a commercial program executed in a notebook computer or the like.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a relay device for supplying electric power to an electric device and recording a state according to the electric power supply,

The present invention relates to a relay device capable of supplying electric power to an electric machine / apparatus used in an industrial field such as a heater, a motor, a pump, a compressor, etc., and recording a state associated with the electric power supply.

The relay device is an element that selectively turns on and off a contact piece by electromagnetically attracting an electromagnet according to whether or not a current is applied to the coil, and turns on and off the contact piece. The relay device is usually a device such as a heater, a motor, a pump, Power is supplied to an electric machine / mechanism consuming electric energy, and the electric power to be supplied is selectively blocked when necessary. Therefore, when an abnormal state occurs while supplying electric current to the electric machine / mechanism through the connected electric wire, for example, when the supplied current becomes the predetermined upper limit value or more, the normal relay generates an event (alarm) It notifies the machine / apparatus of the power supply problem and cuts off the supplied power.

However, knowing that an abnormal state has occurred at the time of power supply, it is difficult to accurately analyze whether or not such abnormal state has occurred for some reason, because the state of the electric or related environmental element at that time point is unknown. This is because it is possible to accurately grasp the cause of the abnormality by analyzing the waveform shape or the size of the electric current at an electrically important point in the wiring through which the current is supplied through the relay or the electric machine / mechanism consuming the current. Are designed mainly for research and development using high-priced Windows-based computers, so it is difficult to easily install and use them in the industrial field in terms of hardware size and economics.

Therefore, an operator who manages power supply to the electric machine / mechanism or the like, after observing the appearance of the wiring or the machine, or the magnitude of the current / voltage using the simple functioning tester, The relay is manually re-actuated to provide power to the electrical machine / appliance again.

However, in the case of an action against such cause, the cause is not completely removed, so that such an alarm or power interruption occurs again, or the electric machinery / appliance is overheated or damaged, May lead.

In addition, even if a signal or the like necessary for a relay or an electric machine / apparatus caused by an abnormal state of the power supply is measured through a measuring instrument to measure the cause of the abnormality after an abnormality occurs in the power supply, The electric power supply state and the environmental factor at the time of occurrence of the abnormal state may not be the same since a certain time has elapsed from the occurrence of the abnormality on the electric power supply. In such a case, the abnormal state may not be immediately reproduced, so it is not easy to identify the cause of the abnormal state through a measuring device or the like. That is, when the relay is manually operated and the power is re-supplied, the abnormal state may occur again after a considerable time.

For this reason, Japanese Patent No. 10-2011-0020359 filed prior to the present invention discloses a technique of adding a wireless communication unit to a motor or a relay to which electric power is supplied, And then transmitting the collected data to the device. However, according to this prior art, the process of overcurrent in the abnormal state, such as overcurrent, can be known from the collected information, but in order to determine the cause of the overcurrent, the collected information element Current) is insufficient. Further, in order to obtain information for simply knowing whether or not an abnormality is present in the supply power, communication resources for communication are provided and a communication path for transmitting the information needs to be established, which is disadvantageous in that a considerable cost is incurred.

An object of the present invention is to provide a relay device which can easily analyze the cause of an electrical abnormal state while supplying electric power required by an electric machine / mechanism or the like in a simple manner.

It is a further object of the present invention to provide a method and apparatus for analyzing the cause of an abnormality at a desired point by recording state or environment information affecting the occurrence of an electrical abnormality state in a device while supplying electric power required by an electric machine / And to provide a relay device that allows the device to communicate.

Yet another object of the present invention is to provide a relay device capable of preserving the history of information on the current supply state and the environmental factor so as to analyze the cause of abnormality even by using a storage medium of a smaller capacity will be.

It is to be understood that the object of the present invention is not limited to the explicitly stated objects, but, of course, it is an object of the present invention to achieve the effect which can be derived from the following specific and exemplary description of the present invention.

A relay device capable of selectively interrupting the supply of electric power through a wire and the supply power thereof according to an aspect of the present invention includes at least one relay element inserted into a wire and capable of shorting or opening both ends thereof inserted A first sensor for detecting a current flowing through the electric wire in a state where the relay element is short-circuited; a second sensor for detecting a temperature around the relay; and a storage unit An alarm unit capable of generating a warning signal; and a control unit for periodically detecting the current and the temperature through the first sensor and the second sensor, and for each value of the detected current and temperature, In the form of a file in the storage unit together with the information, and at least one of the detected values is out of the predetermined limit reference value When a warning signal is generated and presented to the control unit of the alarm, the values are out of the limit as long as the reference value for the current comprises a controller configured to open the relay device. Here, the file format has a data structure that can be read by a program executed in a computing device that is different from the relay device.

In one embodiment of the present invention, the set limit reference value is configured as an upper limit value and a lower limit value, and when the at least one value deviates from a range formed by the upper limit value and the lower limit value, Causing a warning signal to be generated.

In one embodiment of the present invention, when all of the detected values belong to the pre-designated stability range, the control unit does not record the detected value in the storage unit.

Further, in an embodiment according to the present invention, when the relay device is opened, the control unit may further increase the period of detecting and recording the current and the temperature from the time of opening the relay device, or writing the detected value in the storage unit .

In one embodiment of the present invention, the storage unit is a storage medium detachably mounted to the relay device.

In an embodiment of the present invention, when an external computing device is connected through a communication interface provided in the relay device, the storage unit operates as a storage space according to a file system of the computing device.

At least one embodiment of the invention described in detail above with reference to the present invention or to the accompanying drawings in the following is a description of variations in the values of the variables (load current, relay ambient temperature, humidity, etc.) It is possible to determine the change in the current value consumed by the electric machine / apparatus, for example, a motor, a pump, etc., which is being supplied with electric power, The cause of what variable caused such a change can be grasped from the preserved information using a portable computing device or the like.

In addition, even if an abnormality does not occur on the current supply, when the change information of the stored related variables is analyzed, if there is a change in the current value to some extent during operation of a belt of a compressor or the like, It is possible to judge how much the belt has changed, or whether the belt has been deformed, and to estimate the belt replacement time. Further, when the heater is under load operation, the stored change information may be analyzed to predict the replacement time of the heater from the change slope of the supply current. Pre-measures based on such prediction can prevent occurrence of an abnormality or failure in the electric power supply to the electric machine / apparatus and the like in advance.

As described above, according to the present invention, a beneficial effect can be obtained with respect to various electric machines / mechanisms in an industrial field.

1 is a block diagram of a smart relay device according to an embodiment of the present invention,
Figure 2 illustrates, by way of example, a structure of information for detecting and recording values for its supply and associated variables in powering through a relay element, in accordance with an embodiment of the present invention,
3 is an exemplary illustration of one method of recording the value of an associated variable in which anomalies in the power supply have occurred, in accordance with an embodiment of the present invention,
Figures 4 and 5 illustrate, respectively, an example of varying the manner in which the values for the variables associated with the supply are periodically detected / recorded in the power supply through the relay element, in accordance with an embodiment of the present invention.

Hereinafter, various embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a smart relay device according to an embodiment of the present invention. The configuration of the smart relay device 100 illustrated in FIG. 1 will be described in detail. The smart relay device 100 includes an input unit (a keypad of a physical button and / or a touch screen) for receiving a user's input, A real time clock section 12 for tracking the current date / time, a load current I _L supplied to an external electric machine / mechanism, etc., and, a storage unit 13 for storing a value detected on such an internal temperature of the smart relay device 100, the current for detecting the magnitude of the current (i _d) induced by the load current (I _L) A sensor 14, a temperature sensor 15 for detecting a temperature inside the device, a communication interface 16 for exchanging data with an external device provided with a signal terminal and the like, A god An alarm unit 17 for generating an alarm signal in accordance with the control signal received from the control unit 17, (Hereinafter also referred to as " history information "), stores the detected information in the storage unit 13, and generates a necessary control signal for the corresponding component in order to perform other intended functions Is included in the smart relay device 100.

In one embodiment of the present invention, the storage unit 13 may be a storage device that is fixedly installed in the smart relay device 100, for example, a memory device that can be detachably attached to the smart relay device 100, For example, a USB memory, an SD memory, or the like.

The smart relay device 100 may further include a relay block unit 21 including at least one relay device and a contact driving unit for driving (interrupting or shorting) the relay devices in the relay block unit 21. [ And a relay driving unit 22 provided in the relay block unit 21 as many as the number of relay elements. The control unit 10 applies a driving signal to the relay driving unit 22 to control the relay in the relay block unit 21 when the current power corresponds to an abnormal state or a boundary state set by the user, The device is opened (current is cut off). Of course, if the user requests the abnormal state release through the user interface unit 11, for example, the relay block unit 21 may apply the appropriate control signal to the relay driving unit 22, (Supply current) to the relay element in the open relay device.

According to an embodiment of the present invention, when there are a plurality of relay elements in the relay block unit 21, the control unit 10 may partially open / short-circuit it. When the user sets a desired load current (i.e., power to be used) through the user interface unit 11, the power supplied to the electric machine / A partial opening / shorting for the same relay elements can be performed by the control unit 10. [

The control unit 10 applies a control signal to the alarm unit 17 so as to output a warning signal, for example, a warning sound or a warning light, when a relay device in the relay block unit 21 blocks all or a part of the relay device. Is generated or turned on.

In an embodiment of the present invention, the alarm unit 17 may generate a warning signal by itself, but may apply an appropriate driving signal to an external device that generates an audible or visual warning signal.

When power is applied to the smart relay device 100, the temperature sensor 15 detects a current temperature and applies an electrical signal corresponding to the detected temperature to the controller 10, The sensor 14 detects the magnitude of the current i _d induced by the load current I _L according to the electric power used by the electric machine / mechanism and outputs data indicating the magnitude thereof to the control unit 10 . Of course, when the load current I _L is AC, the data applied to the controller 10 is a value for RMS (Root Mean Square) of the AC signal. When the method of supplying the load current is three phases, the current sensor 14 detects each current induced to the load current of each phase and applies data corresponding to the detected current to the control unit 10.

On the other hand, the operation of detecting the values of the variables related to the power supply of the sensors 14 and 15 is continuously performed when the power source is applied. Of course, when a request is made from the controller 10, it may provide signals / data according to the detected values.

On the other hand, the controller 10 periodically detects signals / data from the current sensor 14 and the temperature sensor 15 based on a timer provided therein. A value representing the actual temperature, that is, the temperature inside the smart relay device 100 (preferably, the portion adjacent to the relay block portion 21) and the actual load current I _L ), respectively. In the latter case, for example, if the ratio of the current (i _d ) derived from the load current I _L is N: 1, the controller 10 controls the current sensor 14 to multiply the data input from the current sensor 14 by N Value. If the temperature sensor 15 has a characteristic in which the magnitude of the electrical signal output with respect to the ambient temperature is not linearly proportional to the magnitude of the signal detected in the conversion, It is also possible to correct the actual temperature using an appropriate correction value.

Whenever the values of the load current and the internal temperature are periodically obtained as described above, the control unit 10 reads the date and time at that time from the real time clock unit 12, As the history information of the power supply-related variable. One history information entry stored for each cycle will include values for the detected date and time, load current, and temperature, as illustrated in FIG. As mentioned above, when the power is supplied in three phases, it may be stored separately for each phase, not one for the load current.

According to another embodiment of the present invention, the smart relay device 100 may further include a sensor (e.g., a humidity sensor, a vibration sensor, or the like) for detecting a value of a power supply- It is possible. In this embodiment, the control unit 10 may further store the magnitude of the detected humidity and / or vibration as an entry of the power supply-related variable history information. In addition, in the case where the sensor 10 further includes a sensor for detecting the voltage of the supplied power in addition to the current sensor 14, the controller 10 may calculate the reverse phase from the detected current and voltage, have.

In addition to the power supply-associated variables illustrated above, values for variables such as current imbalance may also be detected and recorded. Of course, in this case, the power supplied through the relay block unit 21 is a three-phase system as mentioned above. Of course, the power supply-related parameters exemplified above can naturally also be applied to the power supply of the three-phase system.

In one embodiment according to the present invention, when storing history information for the detected power supply associated variables, the storage structure may be stored in a commercially available program or app that may be executed on a portable computing device such as a PC or smart phone, For example, the file format of the data structure that Excel can read is used. Therefore, the operator can easily and conveniently check the variability of the power supply-related parameters using a commercial program without special programs for special data conversion or data analysis.

In an embodiment of the present invention, the history information files of the power supply-related variables may be generated by dividing the history information files by date or by time without recording them as one. In the present embodiment, the file name is used as a file name in which text that allows the user to know the date or time zone as a division reference. In the files classified by date or time as described above, for a file in which a detection value exceeding a predetermined limit reference value is recorded as described later, the attribute (for example, Color, addition of special characters / symbols, etc.).

On the other hand, the controller 10 controls the user interface unit 11 to store entries as history information of power supply-related variables as described above on a screen such as a display panel so that the user can visually confirm them It can also be displayed. Of course, the history information stored in the storage unit 13 may be read and displayed separately for each variable only when there is a user's request. In this case, preferably, the values are displayed on the screen starting from the latest stored and stored entry. Of course, the display order may be reversed through an operation on the user interface unit 11. [

When the power supply-related variable information for detecting and storing in real time as described above exceeds the limit reference value set by the user through the user interface unit 11, the controller 10 controls the alarm unit 17 to generate a warning signal. The restriction reference value may be set not only through the user interface unit 11 but also through a computing device connected through a communication cable or a communication line through the communication interface unit 16. [ The same is true for other information set through the user interface unit 11 described in this specification.

The limit reference value may be set individually for the power supply-related variables (load current, temperature, humidity, etc.) as described above, or may be set for only one of them, for example, the load current. If the limit reference values are individually set for the plurality of power supply-related variables including the load current, the value of the detected power supply-related variable exceeds the limit reference value, When generating a signal, the controller 10 displays information on which power supply-related variable the current warning signal is for, on the screen of the user interface 11.

Further, in an embodiment according to the present invention, the limit reference value may be set to only the upper limit value for any power supply-related variable including the load current, and both the upper limit value and the lower limit value may be set. In the case of the embodiment in which the lower limit value is also set, the meaning of 'exceeding' the limitation reference value in this specification means that the detected value is lower than the lower limit value.

In one embodiment of the present invention, when the value of the power supply-related variable having a value exceeding the set limit reference value is stored, the controller 10, as illustrated in FIG. 3, (For example, inversion, coloring, or another color, etc.) in the power supply related variable history information file (S31). Of course, not only the value of the variable but also the corresponding entry 32 to which the value belongs can be recorded in a format different from the previous entry.

When the control unit 10 reaches the limit capacity of the storage unit during the storage of the values of the detected power supply association variables in the storage unit 13 in any one of the above-described methods or in a combined manner, From that time, the entry of the currently detected values is recorded while replacing the entries recorded first in the power supply related variable history information file.

In one embodiment of the present invention, a value of a value of a power supply-related variable that enables a posteriori analysis of a situation such as a failure or an abnormality even if a smaller capacity medium is used for the storage unit 13 As shown in FIG. 4, the control unit 10 sets the timeout value of the internal timer to the value of the history information file from the time point 41 when it is determined that the preset limit reference value is exceeded The detection / write cycle for the power supply-related variable may be set longer by setting it to a larger value.

By thus making the period longer, it is possible to reduce the amount of recorded power supply-related variable information from the time when the abnormal state exceeding the limit reference value occurs. Generally, since the information on the fluctuation of the value of the power supply-related variable in the course from the normal state to the abnormal state is very important in the analysis of the cause of the occurrence of the abnormality and the importance of the related information after the occurrence of the abnormality occurs, The amount of information to be recorded after occurrence is reduced. By doing so, the size of the history information file at the time when the user stops the operation of recording the value of the power supply related variable of the controller 10 in real time through the user interface unit 11, Compared to the embodiment in which it is not provided. Through such capacity reduction, it becomes possible to view the history information of the file and to copy or move the smart relay device 100 to the outside more quickly.

4, even when the capacity of the storage unit 13 is small, even if a certain amount of time elapses at the time of occurrence of the abnormal state, the power supply The possibility that the change of the value of the related variables is updated by the continuous detection / recording operation after the occurrence of the abnormal state is reduced.

In another embodiment according to the present invention, when the most important variable in the power supply-related variables described above, for example, the load current, exceeds the specified limit reference value, Then the detection / write operation of the value for the power supply related variables may be interrupted.

In another embodiment according to the present invention, even when the capacity of the storage unit 13 is very small, in order to keep the history until the occurrence of the abnormal state in the power supply, If the detected value for the variables is within the stability range set by the control unit 10 through the user interface unit 11, the control unit 10 determines whether or not the value of the power supply- Only the detection may be performed and the operation of recording the detected value may not be performed. FIG. 5 is a diagram for explaining an embodiment of the present invention. In the present embodiment, when a value within a stable range set for an arbitrary power supply-related variable, particularly a load current, is detected, The values of the other power supply association variables are not recorded in the power supply related variable history information file and only when the detected values are out of the stable range, And is additionally recorded as each entry in the history information file.

In the example of Fig. 5, although the range of the detected power supply-related variable is not recorded, the band is defined by the upper limit value 52 ₁ and the lower limit value 52 ₂ , but the stable range may be specified only by the upper limit value . In this case, for a value detected below the specified stable upper limit value, a new entry is not added to the history information file. Of course, in FIG. 5, although the limit reference value is shown only for the upper limit value, a lower limit value may be set depending on the embodiment. This has been described above.

5, when a value out of the stable range is detected so that the value exceeds the set limit value while the value is being recorded, the control unit 10 determines whether or not the value described in the previous embodiment The same operation is performed. Of course, when the power supply-related variable exceeding the set limit value again belongs to the stable range, the write operation to the detected value is stopped again.

In the embodiment according to Fig. 5, only the values of the power supply-related variable in the process of going beyond the stabilization range of the power supply and exceeding the set limit reference value, that is, , It is very likely that even if the storage unit 13 has a very small capacity, it is highly likely to save the history information for the relevant variables enough to analyze the abnormality or the failure.

According to one embodiment of the present invention, when the storage unit 13 is a storage medium detachably connected to the smart relay device 100, the storage medium may be connected to the smart relay device 100 And then reconnects to a portable computing device such as a general notebook or a tablet PC to read a history information file of the power supply related variable created by the control unit 10 through a general purpose commercial program or an application to supply power It is possible to easily see how the values of the variables associated with the time change in time. Particularly, since the history information up to the time when an abnormality occurs in the load current, the temperature on the power supply, etc. can be reliably stored, the abnormal state can be clearly confirmed so that any of the power supply- And the like.

Meanwhile, in an embodiment according to the present invention, a history information file in which values of power supply related variables are stored as illustrated in FIG. 2 or 3, stored in the storage unit 13, 16, such as a general notebook or tablet PC, or the like. Particularly, when the communication interface unit 16 satisfies a specific connection standard, for example, the USB standard, the control unit 10 determines whether or not the computing device satisfying the USB connection standard through the communication interface unit 16 When connected, causes the storage unit 13 to execute a communication program necessary for the computing device to operate as a storage space of a USB client, that is, a storage space according to a file system of the computing device. According to this operation of the control unit 10, the power supply related variable history information file stored in the storage unit 13 directly from the device connected to the communication interface unit 16 via the communication cable, for example, The operator can confirm the history information on the power supply related variables recorded in the file.

The embodiments according to the present invention as described so far have been to constitute a power supply-related variable history information file for the total load current I _L supplied to the electric machinery / apparatuses and the like. However, when the electric current supplied through the smart relay device 100 is distributed and applied to a plurality of electric machines / devices by a plurality of electric power supply lines including the case where the electric current supplied through the smart relay device 100 is three A plurality of columns 23,33 for recording a value of the load current in the information storage structure of the history information file shown in FIG. 2 or 3 are divided into a plurality of columns, The values of the currents flowing through the respective power supply lines can be detected in real time and individually recorded in each column.

In another embodiment of the present invention, when the currents of the plurality of power supply lines are detected and stored as the power supply related variable history information, the history information file may be generated by dividing the detected current into the respective detected power detection currents.

The configurations and operations of the smart relay, which have been described as various embodiments according to the present invention, can be appropriately selected and combined together without mutual incompatibility.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. , Alteration, substitution, addition, or the like.

10: control unit 11: user interface unit
12: real time clock unit 13: storage unit
14: current sensor 15: temperature sensor
16: communication interface unit 17: alarm unit
21: Relay block 22: Relay driver
100: Smart relay device

Claims (3)

1. A relay device capable of selectively interrupting supply of electric power through a wire and supply power thereof,
A relay part including at least one relay element inserted into a wire and capable of short-circuiting or opening the inserted both ends thereof;
A first sensor for detecting a current flowing through the electric wire in a state where the relay device is short-circuited,
A second sensor for detecting a temperature around the relay,
A storage unit capable of storing data;
An alarm unit capable of generating a warning signal,
The current and temperature are periodically detected through the first sensor and the second sensor, and the respective values of the detected current and temperature are recorded in a file form in the storage unit together with information on the detected date and time And if at least one of the detected values deviates from a predetermined limit reference value, the alarm unit is controlled to generate a warning signal. If the value outside the limit reference value is for the current, And a control unit configured to open the control unit,
Wherein the file format has a data structure that can be read by a program executed in a computing device that is different from the relay device. The method according to claim 1,
Wherein the set limit reference value is configured as an upper limit value and a lower limit value and the control unit controls the alarm unit to generate the warning signal when the at least one value deviates from the upper limit value and the lower limit value, Relay device. The method according to claim 1,
Wherein the control unit is further configured not to record the detected value in the storage unit when all of the detected values belong to the pre-designated stable range, and when the relay unit is opened, And a temperature detection and recording period longer or not to record the detected value in the storage section.

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