KR200497278Y1 - Multi-channel signal converter - Google Patents

Abstract

A multi-channel signal converter according to an embodiment disclosed in this document includes a plurality of input terminals for receiving signals from an external device associated with a regulator, a processor configured to compare a plurality of signals transmitted from the plurality of input terminals with a preset standard, and a processor It may include a plurality of relays controlled by and a plurality of output terminals electrically connected to each of the plurality of relays.

Description

Multi-channel signal converter {MULTI-CHANNEL SIGNAL CONVERTER}

Embodiments disclosed in this document relate to a multi-channel signal converter for displaying the open/closed status of a pressure regulator.

A pressure regulator is a device that discharges gas at a constant fixed pressure and can control the pressure of natural gas supply facilities. The pressure regulator may be equipped with an opening transmitter that transmits an electrical signal corresponding to the opening degree of the pressure regulator valve. The output signal of the opening transmitter can be converted in a signal converter, and the converted signal can be transmitted as a digital input signal of a remote terminal unit (RTU) facility.

The signal converter analyzes the input signal using built-in logic and provides an output signal when an analog signal exceeding the set value is input, thereby displaying the open/closed status of the regulator. However, when the supply flow rate of the opening transmitter is less than 1% of the capacity of the constant pressure, there is little change in the lever that moves depending on the flow rate, so in this case, the reliability of the measurement is reduced and errors in the open/closed status display may occur frequently. .

Embodiments disclosed in this document are intended to provide a signal converter that can reduce errors in displaying a closed state.

A multi-channel signal converter according to an embodiment disclosed in this document includes a plurality of input terminals for receiving signals from an external device associated with a regulator, a processor configured to compare a plurality of signals transmitted from the plurality of input terminals with a preset standard, and a processor It may include a plurality of relays controlled by and a plurality of output terminals electrically connected to each of the plurality of relays.

According to one embodiment, a plurality of amplifiers configured to amplify a plurality of signals transmitted from a plurality of input terminals, a multiplexing unit configured to integrate the plurality of amplified signals into one channel, and a converter that converts the integrated signal into a digital signal. , and further includes a contact driver that controls the plurality of relays according to the control of the processor, and the processor outputs control signals for the plurality of relays to the contact driver based on the result of comparing the converted digital signal with a preset standard. You can.

According to one embodiment, a keypad configured to input a set value, a set value control unit that changes a preset standard to the input set value, a 7-segment display unit that outputs the input set value, and a 7-segment display unit that controls the 7-segment display unit. Additional drivers may be included.

According to embodiments disclosed in this document, the open/closed state of the pressure regulator can be accurately determined by comparing signals received using a plurality of input terminals with a preset standard.

In addition, various effects that can be directly or indirectly identified through this document may be provided.

1 is a perspective view of a multi-channel signal converter according to an embodiment.
Figure 2 is a circuit diagram of a multi-channel signal converter according to an embodiment.
In relation to the description of the drawings, identical or similar reference numerals may be used for identical or similar components.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. However, this is not intended to limit the present invention to a specific embodiment, and should be understood to include various changes, equivalents, or replacements of the embodiments of the present invention. When adding reference numerals to components in each drawing, it should be noted that identical components are given the same reference numerals as much as possible even if they are shown in different drawings. Additionally, when describing an embodiment of the present invention, if a detailed description of a related known configuration or function is judged to impede understanding of the embodiment of the present invention, the detailed description will be omitted.

1 is a perspective view of a multi-channel signal converter according to an embodiment. Figure 2 is a circuit diagram of a multi-channel signal converter according to an embodiment.

Referring to Figures 1 and 2, the multi-channel signal converter 100 according to an embodiment includes a housing 101, a fixing part 102, a plurality of input terminals 110, a first amplifier 121, and a second Amplifier 122, third amplifier 123, multiplexing unit 130, converter 140, keypad 151, set value control unit 152, 7 segment driver 161, 7 segment display unit 162, It may include a processor 170, a contact driver 181, a first relay 182, a second relay 183, a plurality of output terminals 190, and a switched mode power supply (SMPS) 195.

The housing 101 may configure the external appearance of the multi-channel signal converter 100. For example, the housing 101 may be made of a rectangular parallelepiped-shaped box.

The fixing part 102 may be connected to one end of the housing 101. The fixing part 102 may include one or more main parts for fixing the multi-channel signal converter 100.

The plurality of input terminals 110 may receive signals from external devices associated with the regulator. For example, the plurality of input terminals 110 may receive an electrical signal corresponding to the opening degree of the regulator valve from the opening degree transmitter. For another example, each of the plurality of input terminals 110 may receive signals from two or more different facilities. The plurality of input terminals 110 may receive electrical signals corresponding to pressure, temperature, level, or position. The input signal may be, for example, an analog electrical signal of about 4 to 20 mA. The plurality of input terminals 110 may be exposed to the outside of the housing 101.

The plurality of amplifiers 121, 122, and 123 may be configured to amplify the plurality of signals transmitted from the plurality of input terminals 110. For example, the first amplifier 121 may amplify the input signals received from the first input terminal and the second input terminal, and the second amplifier 122 may amplify the input signals received from the third input terminal and the fourth input terminal. The input signal may be amplified, and the fourth amplifier may amplify the input signal received from the fifth input terminal and the sixth input terminal.

The multiplexing unit 130 may be configured to integrate a plurality of amplified signals into one channel. The multiplexing unit 130 can integrate two or more low-level channels into one high-level channel.

The converter 140 can convert the integrated signal into a digital signal. The converter 140 may convert, for example, an analog signal into a 16-bit digital signal.

The keypad 151 may be configured to input setting values. For example, the keypad 151 may include a button for selecting a mode, a button for decreasing the set value, a button for increasing the set value, and a button for entering the set value. The keypad 151 may be exposed to the outside of the housing 101.

The setting value adjusting unit 152 can change the value (preset standard) that is the judgment standard used by the processor 170 to the setting value entered on the keypad 151. The setting value control unit 152 may transmit the setting value input from the keypad 151 to the processor 170.

The 7-segment driver 161 can control the 7-segment display unit 162. The 7-segment driver 161 can manage the transmission of information transmitted from the processor 170 to the 7-segment display unit 162.

The 7-segment display unit 162 can output the input setting value. The 7-segment display unit 162 can output a numerical value corresponding to the set value so that the user can check the set value. The 7-segment display unit 162 may be exposed to the outside of the housing 101.

The processor 170 may be configured to compare a plurality of signals transmitted from the plurality of input terminals 110 with a preset standard. The processor 170 may output control signals for a plurality of relays to the contact driver 181 based on a result of comparing the digital signal converted by the converter 140 with a preset standard. Processor 170 can generate output only when all conditions are met.

The contact driver 181 can control a plurality of relays according to the control of the processor 170. When a control signal is output from the processor 170, the contact driver 181 may control the output contacts of a plurality of relays according to the control signal.

A plurality of relays 182 and 183 may be controlled by the processor 170. The contacts of the plurality of relays 182 and 183 may be controlled by the contact driver 181. The plurality of relays 182 and 183 may include a first relay 182 and a second relay 183.

The plurality of output terminals 190 may be electrically connected to each of the plurality of relays 182 and 183. The plurality of output terminals 190 may include a NO terminal, a COM terminal, and an NC terminal. For example, the first relay 182 may be electrically connected to a first output terminal, a second output terminal, and a third output terminal. The second relay 183 may be electrically connected to the fourth output terminal, the fifth output terminal, and the sixth output terminal. The seventh and eighth output terminals may be electrically connected to the SMPS 195 to supply power. The plurality of output terminals 190 may be exposed to the outside of the housing 101.

SMPS 195 may be an industrial direct current stabilized power supply using a highly integrated switching circuit. SMPS 195 may supply power to other components of multi-channel signal converter 100. The power source may be, for example, AC 94V to 264V.

The multi-channel signal converter 100 may further include an input signal lamp, an output signal lamp, and a power lamp. The input signal lamp may light up when an input signal input to the multi-channel signal converter 100 is detected, the output signal lamp may light up when an output signal is generated from the multi-channel signal converter 100, and the power lamp may light when power is supplied to the multi-channel signal converter 100. A plurality of input signal lamps and a plurality of output signal lamps may be provided to correspond to a plurality of input channels and a plurality of output channels, respectively, so that the input signal channel and the output signal channel can be distinguished.

When controlling and monitoring a pressure regulator that controls the pressure of a natural gas supply facility from a remote location, the reliability of the open and closed state during operation may be important. The multi-channel signal converter 100 according to an embodiment can prevent accidents due to malfunction of instrumentation equipment used in a pressure regulator and promote the safety of the equipment through accurate operation. In particular, by preventing malfunctions when the gas supply flow rate is low, such as in the summer, the reliability of instrumentation equipment can be secured and safety accidents can be prevented in advance.

The above description is merely an illustrative explanation of the technical idea of the present invention, and those skilled in the art will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention shall be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope shall be construed as being included in the scope of rights of the present invention.

Claims (3)

In a multi-channel signal converter,
A plurality of input terminals for receiving signals from an external device associated with the regulator;
a processor configured to compare a plurality of signals transmitted from the plurality of input terminals with a preset standard;
a plurality of relays controlled by the processor; and
It includes a plurality of output terminals electrically connected to each of the plurality of relays,
a plurality of amplifiers configured to amplify a plurality of signals transmitted from the plurality of input terminals;
a multiplexing unit configured to integrate the plurality of amplified signals into one channel;
A converter that converts the integrated signal into a digital signal; and
Further comprising a contact driver that controls the plurality of relays according to control of the processor,
The processor outputs control signals for the plurality of relays to the contact driver based on a result of comparing the converted digital signal with the preset standard. delete According to claim 1,
A keypad configured to enter settings;
a set value adjustment unit that changes the preset standard to the input set value;
A 7-segment display unit that outputs the input setting value; and
A multi-channel signal converter further comprising a 7-segment driver that controls the 7-segment display unit.

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