KR102121235B1 - Safety interlock device - Google Patents

Abstract

The present invention provides a safety inter comprising a driving request signal input unit receiving a driving request signal of a facility, a sensor signal input unit receiving signals from a plurality of sensors detecting a driving condition of the facility, and a driving signal output unit outputting a driving signal of the facility. It relates to a locking device.

Description

Safety interlock device {SAFETY INTERLOCK DEVICE}

The present invention relates to a safety interlock device.

A mechanism that prevents the machine from being automatically operated by mechanical, hydraulic, or pneumatic methods when the required operating conditions are not satisfied in the operation of the device is called an interlock. For example, when the safety cover installed in a dangerous part of the machine is opened, the machine cannot be operated or the machine cannot be operated if the safety device cannot be normally used.

In the prior art, the load operation control start command was determined only by software logic, and there was no risk of part breakage or human accident due to the absence of a double interlock function when generating the drive signal of the facility.

An object of the present invention is to provide a safety interlock device capable of preventing a safety accident when the equipment is in operation.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The safety interlock device according to an embodiment of the present invention includes a driving request signal input unit that receives a driving request signal of a facility, a sensor signal input unit that receives signals from a plurality of sensors that detect driving conditions of the facility, and a driving signal of the facility. It may include a driving signal output unit for outputting.

According to an embodiment, the drive signal blocking unit connected to the output unit and a feedback signal generating unit for outputting a feedback signal to the facility further comprises a signal blocking unit that does not receive a feedback signal for a predetermined time from the facility. The driving signal output by the output unit may be blocked.

According to an embodiment, when the driving request signal of the pump is input to the driving request signal input unit, the signal of the low level detection sensor of the pump input to the sensor signal input unit is normal, and of the pump input to the sensor signal input unit. When the signal of the leak detection sensor is normal, the driving signal output unit may output a driving signal of the pump, and the feedback signal generator may output a feedback signal to the pump.

According to an embodiment, the driving signal output unit may block the driving signal of the pump if the feedback signal is not received for 30 seconds from the lower limit monitoring flow meter of the pump.

According to an embodiment, when the driving request signal of the heater is input to the driving request signal input unit, the signal of the low level detection sensor of the heater input to the sensor signal input unit is normal, and the heater of the heater input to the sensor signal input unit When the signal of the overheat detection sensor is normal, the driving signal output unit may output a driving signal of the heater, and the feedback signal generator may output a feedback signal to the heater.

According to an embodiment, the driving signal output unit may block the driving signal of the heater if the feedback signal is not received for 30 seconds from the electronic overload relay (EOCR) of the heater.

According to an embodiment, when the driving request signal of the driving unit is input to the driving request signal input unit, the signal of the door lock detection sensor of the driving unit input to the sensor signal input unit is normal, and the sensor signal input unit When the input area detection sensor signal of the driving unit is normal, the driving signal of the driving unit may be output.

According to an embodiment, when the drive request signal of the supply valve is input to the drive request signal input, the signal of the high level detection sensor of the supply valve input to the sensor signal input is normal, and the sensor signal When the signal of the leak detection sensor of the supply valve input to the input unit is normal, the drive signal of the supply valve may be output.

According to an embodiment, the safety interlock device may further include a non-driven notification unit to notify the user that the installation is impossible when at least one of the plurality of sensor signals input to the sensor signal input unit is an abnormal signal.

The safety interlock device according to an embodiment of the present invention includes a driving request signal input unit that receives a driving request signal of a facility, a sensor signal input unit that receives signals from a plurality of sensors that detect driving conditions of the facility, and a driving signal of the facility. And a driving signal output unit including at least one determination circuit, wherein the determination circuit of the driving signal output unit includes a first input terminal, a second input terminal, a first output terminal, and a second output terminal. The signal of the first input terminal is output, and the second output terminal can output the signal of the second input terminal when the signal of the first input terminal is input.

According to the embodiment, further comprising a feedback signal generator including a determination circuit, the feedback signal generator comprises a first input terminal, a second input terminal, a first output terminal and a second output terminal, the first output terminal is The signal of the first input terminal is output, and the second output terminal can output the signal of the second input terminal when the signal of the first input terminal is input.

According to the embodiment of the present invention, it is possible to prevent a safety accident when operating the equipment.

According to an embodiment of the present invention, it is possible to reduce the incidence of part breakage or human accident through the double interlock function.

1 is a block diagram of a safety interlock device according to an embodiment of the present invention.
2A and 2B are diagrams for explaining the safety interlock device 100 according to an embodiment of the present invention in more detail.
3 to 6 are views for explaining an embodiment of the safety interlock device according to an embodiment of the present invention.

Other advantages and features of the present invention and methods for achieving them will be made clear by referring to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and the common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims.

If not defined, all terms (including technical or scientific terms) used herein have the same meaning as generally accepted by universal technology in the prior art to which this invention belongs. Terms defined by general dictionaries can be interpreted as having the same meaning as meaning in the text of the present application and/or related descriptions, and are not conceptually or excessively interpreted, even if not explicitly defined herein. Will not.

The terminology used herein is for describing the embodiments and is not intended to limit the present invention. In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein,'includes' and/or various conjugations of this verb, such as'includes','includes','includes','includes', etc., refer to the mentioned composition, ingredients, components, The steps, operations and/or elements do not exclude the presence or addition of one or more other compositions, ingredients, components, steps, operations and/or elements.

The term'and/or' in this specification refers to each of the listed configurations or various combinations thereof.

Meanwhile, terms such as'~ unit','~ group','~ block', and'~ module' used throughout this specification may mean a unit that processes at least one function or operation. For example, it can mean a hardware component such as software, FPGA or ASIC. However,'~bu','~gi','~block', and'~module' are not limited to software or hardware. The'~unit','~gi','~block', and'~module' may be configured to be in an addressable storage medium or may be configured to play one or more processors. Accordingly, as examples,'~unit','~gi','~block', and'~module' are components such as software components, object-oriented software components, class components and task components. Fields, processes, functions, attributes, procedures, subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, database, data structures, tables, arrays and Includes variables. Components and functions provided in'~unit','~gi','~block', and'~module' have a smaller number of components and'~unit','~gi','~block It can be combined with','~modules', or can be further divided into additional components and'~unit','~gi','~block', and'~module'.

The present invention relates to a safety interlock device that reduces the occurrence rate of a safety accident by automatically blocking a signal with electrical wiring by receiving a signal from a sensor that determines safety when generating a drive output signal in facility control.

1 is a block diagram of a safety interlock device according to an embodiment of the present invention.

1, the safety interlock device 100 according to an embodiment of the present invention includes a driving request signal input unit 10, a sensor signal input unit 20, a driving signal output unit 30, and a driving signal blocking unit (40), a feedback signal generator 50 and a non-driving notification unit 60 may be included.

According to an embodiment, the driving request signal input unit 10 may receive a driving request signal of a facility from the outside, and may transmit the input driving request signal to the driving signal output unit 30.

According to an embodiment, the sensor signal input unit 20 may receive a sensor signal from a plurality of sensors sensing an operating condition of the facility, and may transmit the input sensor signals to the driving signal output unit 30. In FIG. 1, although there are two sensor signals, the number of sensor signals received may vary depending on the operating conditions of the facility. Facilities and sensors will be described in more detail with reference to FIGS. 3 to 6.

According to an embodiment, the driving signal output unit 30 determines whether to output the driving signal of the facility using the driving request signal received from the driving request signal input unit 10 and the sensor signals received from the sensor signal input unit 20. You can. According to an embodiment, the driving signal output unit 30 may receive a driving request signal, and output a driving signal of a facility when signals of sensor signals are normal signals. The driving signal output unit 30 does not output a driving signal of the facility when a driving request signal is not input or any one of the input sensor signals is not a normal signal.

According to the embodiment, the driving signal blocking unit 40 may block the driving signal of the facility output by the driving signal output unit 30 from being input to the facility. The driving signal output unit 40 may block the driving signal if a feedback signal is not input from the facility for a predetermined time. According to an embodiment, the predetermined time may be 30 seconds.

According to an embodiment, the feedback signal generator 50 may output a driving signal to the facility and output a feedback signal to the facility when the driving signal output from the driving signal output unit 30 is input. If the output feedback signal is not input to the driving signal blocking unit 40 for a predetermined time, as described above, the driving signal blocking unit 40 may block the output of the driving signal.

According to an embodiment, the driving impossibility notification unit 60 may include a case in which at least one of the sensor signals input by the driving signal output unit 30 is not a normal signal and does not output a driving signal or a driving signal blocking unit ( 40), when the driving signal is blocked because the feedback signal is not input for a predetermined period of time, an inactive driving signal may be output to the user.

2A and 2B are diagrams for explaining the safety interlock device 100 according to an embodiment of the present invention in more detail.

2A, the driving signal output unit 30 according to an embodiment of the present invention may include a plurality of determination circuits illustrated in FIG. 2B. According to an embodiment, the driving signal output unit 30 may include a determination circuit of a number corresponding to the number of sensors detecting an operating condition of the facility. According to an embodiment, the driving signal output unit 30 may be implemented by connecting a plurality of decision circuits in series.

As illustrated in FIG. 2A, the first determination circuit 31 may receive a first sensor signal from the first sensor through the first input terminal 31a, and receive a driving request signal through the second input terminal 31c. Can be input. When the driving request signal is input, the second output terminal 31d of the first determination circuit 31 outputs an output signal through the second output terminal 31d when the first sensor signal is a normal signal. The second output terminal 31d of the first determination circuit 31 is connected to the second input terminal 32c of the second determination circuit 32.

The second determination circuit 32 may receive the second sensor signal from the second sensor through the first input terminal 32a, and may receive the output signal of the first determination circuit through the second input terminal 32c. . The second output terminal 32d of the second determination circuit 32 outputs an output signal through the second output terminal 32d when the second sensor signal is a normal signal when the output signal of the first determination circuit is input. . The second output terminal 32d of the second determination circuit 32 is connected to the driving signal blocking unit 40.

In FIG. 2A, it has been described on the assumption that the number of sensors for detecting the operating conditions of the facility is two, but the number of sensors may vary according to the operating conditions of the individual facilities, and the driving signal output unit 30 is applied to the number of sensors of the facility. It may be implemented by connecting a corresponding number of determination circuits in series.

According to an embodiment, the driving signal blocking unit 40 may include a switch. As shown in FIG. 2A, the driving signal blocking unit 40 may receive a feedback signal from the facility, and if a feedback signal is not input from the facility for a predetermined time, the driving signal output from the driving signal output unit 30 Can be blocked.

According to an embodiment, the feedback signal generator 50 may include a determination circuit 51. The determination circuit 51 outputs the driving signal to the first output terminal 51b when the output signal output from the driving signal output unit 30 is input to the first input terminal 51a through the driving signal blocking unit 40. Can be. The determination circuit may output a feedback signal to the facility through the second output terminal 51d when a driving signal is input to the first input terminal 51a.

2B, the determination circuit 33 according to an exemplary embodiment of the present invention may include two input terminals 33a and 33c and two output terminals 33b and 33d. According to the embodiment, when the first input signal is input through the first input terminal 33a, the second input terminal 33c is the second input terminal 33d. The second input signal input from 33c) may be output as an output signal. The first output terminal 33b may output a first input signal input from the first input terminal 33a as an output signal.

The determination circuit illustrated in FIG. 2B is exemplary, and when the first input signal is input, when the second input signal is present, various circuits capable of outputting an output signal may be used.

3 to 6 are views for explaining an embodiment of the safety interlock device according to an embodiment of the present invention.

3, the safety interlock device 200 according to an embodiment of the present invention may be applied to a pump. The pump may include a low level detection sensor, a leak detection sensor, and a lower limit flowmeter to check conditions for safe operation. According to an embodiment, the low level detection sensor and the leak detection sensor may provide a normal signal to the safety interlock device 200 if the detection situation satisfies the operating condition of the pump, otherwise the abnormal signal. . The lower limit monitoring flow meter receives a feedback signal from the feedback signal generator 250 of the safety interlock device 200, and when the operating condition of the pump is satisfied, the drive signal blocking unit 240 of the safety interlock device 200 The feedback signal can be output.

The signal of the low level detection sensor may be input to the second input terminal 231c of the first determination circuit 231, and the signal of the leak detection sensor may be input to the second input terminal 232c of the second determination circuit 232. According to the embodiment, the safety interlock device 200 of the pump is the first input terminal 231a and the second input terminal when the driving request signal of the pump is input to the first input terminal 231a of the first determination circuit 231 When all sensor signals inputted to the 231c are normal, and a feedback signal is input to the driving signal blocking unit 240, a driving signal of the pump may be output. The safety interlock device 200 of the pump is driven when the sensor signals input to the first input terminal 231a and the second input terminal 231c are not normal or a feedback signal is not input to the driving signal blocking unit 240. Without outputting a signal, the non-driven notification unit 260 informs the user that the pump cannot be driven. The non-driving notification unit 260 may be, for example, an alarm or a display device.

4, the safety interlock device 300 according to an embodiment of the present invention may be applied to a heater. The heater may include a low level detection sensor, an overheat detection sensor, and an electronic overload relay (EOCR) to check conditions for safe operation. According to an embodiment, the low-level detection sensor and the overheat detection sensor may provide a normal signal to the safety interlock device 300 if the detection situation satisfies the operating condition of the heater, respectively. . The electronic overload relay receives a feedback signal from the feedback signal generator 350 of the safety interlock device 300, and when the operating condition of the heater is satisfied, the driving signal blocker 340 of the safety interlock device 300 The feedback signal can be output.

The signal of the low level detection sensor may be input to the second input terminal 331c of the first determination circuit 331, and the signal of the overheat detection sensor may be input to the second input terminal 332c of the second determination circuit 332. According to an embodiment, when the heater driving request signal is input to the first input terminal 331a of the first determination circuit 331, the safety interlock device 300 of the heater may include the first input terminal 331a and the second input terminal. When all the sensor signals inputted to the 331c are normal and a feedback signal is input to the driving signal blocking unit 340, a driving signal of the heater may be output. The safety interlock device 300 of the heater is driven when the sensor signals input to the first input terminal 331a and the second input terminal 331c are not normal or a feedback signal is not input to the driving signal blocking unit 340 Without outputting a signal, the non-driven notification unit 360 notifies the user that the heater cannot be driven. The non-driving notification unit 260 may be, for example, an alarm or a display device.

5, the safety interlock device 400 according to an embodiment of the present invention may be applied to a driving unit. The driving unit may include a door lock detection sensor and an entry area detection sensor to check conditions for safe operation. According to an embodiment, the door lock detection sensor and the entrance area detection sensor may respectively provide a normal signal to the safety interlock device 400 when the detection situation satisfies the operating condition of the driving unit, otherwise the abnormal signal. have.

The signal of the door lock detection sensor may be input to the second input terminal 431c of the first determination circuit 431, and the signal of the entry area detection sensor may be input to the second input terminal 432c of the second determination circuit 432. According to the embodiment, when the driving request signal of the driving unit is input to the first input terminal 431a of the first determination circuit 431, the safety interlock device 400 of the driving unit may include the first input terminal 431a and the second input terminal. If all of the sensor signals input to (431c) are normal, the driving signal of the driving unit may be output. The safety interlock device 400 of the driving unit does not output a driving signal if all of the sensor signals input to the first input terminal 431a and the second input terminal 431c are not normal, and the driving impossible notification unit 460 is provided to the user. Signals that driving of the driving unit is impossible. The non-driving notification unit 460 may be, for example, an alarm or a display device.

6, the safety interlock device 500 according to an embodiment of the present invention may be applied to a supply valve. The supply valve may include a high level detection sensor and a leak detection sensor to check conditions for safe operation. According to an embodiment, the high level detection sensor and the leak detection sensor may respectively provide a normal signal to the safety interlock device 500 when the detection situation satisfies the operating condition of the supply valve, otherwise the abnormal signal. have.

The signal of the high level detection sensor may be input to the second input terminal 531c of the first determination circuit 531, and the signal of the entry area detection sensor may be input to the second input terminal 532c of the second determination circuit 532. According to an embodiment, the safety interlocking device 500 of the supply valve is configured to be connected to the first input terminal 531a when a drive request signal of the supply valve is input to the first input terminal 531a of the first determination circuit 531. 2 If all of the sensor signals input to the input terminal 531c are normal, a drive signal of the supply valve can be output. The safety interlock device 500 of the supply valve does not output a driving signal when the sensor signals inputted to the first input terminal 531a and the second input terminal 531c are not normal, and the non-driven notification unit 560 is a user Informs that the supply valve cannot be driven. The non-driving notification unit 560 may be, for example, an alarm or a display device.

The facilities and sensors described in FIGS. 3 to 6 are exemplary, and the scope of the present invention is not limited to the above-described facilities and sensors, and can be applied to various facilities and sensors.

It is to be understood that the above embodiments are provided to help the understanding of the present invention, and do not limit the scope of the present invention, and various modified examples may belong to the scope of the present invention. For example, each component shown in the embodiments of the present invention may be implemented in a distributed manner, or, conversely, multiple distributed components may be implemented in combination. Therefore, the technical protection scope of the present invention should be determined by the technical spirit of the claims, and the technical protection scope of the present invention is not limited to the literary description of the claims, but is substantially equal in technical value. It should be understood that it extends to one category of invention.

10: drive signal input
20: sensor signal input
30: drive signal output
40: drive signal block
50: feedback signal generator
60: not driven notification
100: safety interlock device

Claims (11)

A drive request signal input unit for receiving a drive request signal of the facility;
A sensor signal input unit that receives signals from a plurality of sensors that detect driving conditions of the facility;
A drive signal output unit for outputting a drive signal of the facility; And
A non-driven notification unit notifying a user that the facility cannot be operated when at least one of the plurality of sensor signals input to the sensor signal input unit is an abnormal signal;
Safety interlock device comprising a.
According to claim 1,
A driving signal blocking unit connected to the output unit; And
A feedback signal generator outputting a feedback signal to the facility;
Further comprising,
The signal blocking unit is a safety interlock device that blocks the driving signal output by the output unit if a feedback signal is not received from the facility for a predetermined time. According to claim 2,
When the drive request signal of the pump is input to the drive request signal input,
The signal of the low level detection sensor of the pump input to the sensor signal input is normal,
When the signal of the leak detection sensor of the pump input to the sensor signal input unit is normal
The driving signal output unit outputs a driving signal of the pump,
The feedback signal generator is a safety interlock device that outputs a feedback signal to the pump.
According to claim 3,
The driving signal output unit
Safety interlock device that blocks the drive signal of the pump if the feedback signal is not received for 30 seconds from the lower limit monitoring flow meter of the pump.
According to claim 2,
When the drive request signal of the heater is input to the drive request signal input,
The signal of the low level detection sensor of the heater input to the sensor signal input is normal,
When the signal of the overheat detection sensor of the heater input to the sensor signal input unit is normal
The driving signal output unit outputs a driving signal of the heater,
The feedback signal generator is a safety interlock device that outputs a feedback signal to the heater.
The method of claim 5,
The driving signal output unit
A safety interlock device that blocks the drive signal of the heater if the feedback signal is not received for 30 seconds from the electronic overload relay (EOCR) of the heater.
According to claim 1,
When the driving request signal of the driving unit is input to the driving request signal input unit,
The driving signal output unit
The signal of the door lock detection sensor of the driving unit input to the sensor signal input unit is normal,
When the signal of the sensor for detecting the entry area of the driving unit input to the sensor signal input unit is normal
Safety interlock device for outputting a driving signal of the driving unit.
According to claim 1,
When the drive request signal of the supply valve is input to the drive request signal input,
The driving signal output unit
The signal of the high level detection sensor of the supply valve input to the sensor signal input is normal,
When the signal of the leak detection sensor of the supply valve input to the sensor signal input unit is normal
Safety interlock device for outputting a drive signal of the supply valve.


delete A drive request signal input unit for receiving a drive request signal of the facility;
A sensor signal input unit that receives signals from a plurality of sensors that detect driving conditions of the facility;
A driving signal output unit outputting a driving signal of the facility and including at least one determination circuit; And
Including a non-driven notification unit for notifying the user of the inability to operate the equipment when at least one of the plurality of sensor signals input to the sensor signal input unit is an abnormal signal;
The determination circuit of the driving signal output unit includes a first input terminal, a second input terminal, a first output terminal, and a second output terminal, the first output terminal outputs a signal from the first input terminal, and the second output terminal has a signal from the first input terminal. Safety interlock device, characterized in that for outputting the signal of the second input terminal when input.
The method of claim 10,
A feedback signal generator including a judgment circuit;
Further comprising,
The feedback signal generating unit determination circuit includes a first input terminal, a second input terminal, a first output terminal, and a second output terminal, the first output terminal outputs a signal from the first input terminal, and the second output terminal has a signal from the first input terminal. Safety interlock device, characterized in that for outputting the signal of the second input terminal when input.

Images