KR101315416B1 - Connecter misconnecting detection system - Google Patents

Abstract

The present invention is a connector mis-coupled detection system, having a resistance connected to a closed circuit, and provided with a plurality of load input terminals connected to the load so that electricity is applied when energized, the resistance of the load input terminal is different resistance Load portion with value; And an output unit for outputting electricity, a connector for transferring electricity of the output unit to the load unit through coupling with the load unit input terminal, and a comparison with a reference value set by sensing a voltage value applied to the resistor. And a power supply unit having a misalignment detection unit for detecting a mismatch between a connector and a load unit input terminal.
According to the present invention as described above, by connecting a resistor to the load input terminal in addition to detect the presence of misalignment between the connector and the load terminal, the structure is simple and can prevent the loss of the load due to miscombination, As well as the presence or absence of binding can detect the location of the mis-binding has the effect of enabling a quick response to the mis-combination.

Description

Connector misconnecting detection system

The present invention relates to a connector misalignment detection system for detecting a misalignment of a connector when the connector of the power supply unit and the load input terminal are coupled to each other.

When electricity is supplied to a plurality of loads, for example, when electricity is supplied to a plurality of loads through a plurality of connectors in one power supply unit, the amount of electricity to be supplied may be different for each load. In this case, the power supply unit outputs power by varying the amount of electricity for each connector to be connected to the designated load. The connection of the connector must be correctly connected to the specified load. If the designated connector is not connected to the designated load, the load may not be smoothly supplied to the load due to overload or undervoltage or undercurrent due to overvoltage or overcurrent. In order to prevent the above problems, there is a need to inform the worker by detecting this when the connector is misaligned.

Accordingly, the present invention has been invented to solve the above problems, by connecting a resistor having a different value to each load input terminal, and when the connector is coupled to the load input terminal, a constant current flows to the resistance of both ends of the resistor The technical problem is to provide a connector misalignment detection system that senses a mismatch between a connector and a load input terminal by sensing a voltage value and comparing it with a set reference value.

Connector misalignment detection system for solving the above technical problem, having a resistor connected to the closed circuit, and provided with a plurality of load input terminals connected to the load so that electricity is applied when energized, by the load input terminal The resistance is a load portion having different resistance values; And an output unit for outputting electricity, a connector for transferring electricity of the output unit to the load unit through coupling with the load unit input terminal, and a comparison with a reference value set by sensing a voltage value applied to the resistor. And a power supply unit having a misalignment detection unit for detecting a mismatch between a connector and a load unit input terminal.

In the connector misalignment detection system for solving the above technical problem, the misalignment detection unit receives a voltage value across the resistor and outputs a difference, and receives the output of the adder and subtractor and converts the digital value into a digital value. And an arithmetic processor for detecting a misalignment of a cable connected to the load input terminal by comparing an A / D converter to be outputted and an output of the A / D converter with a set reference value.

In the connector misalignment detection system for solving the above technical problem, the misalignment detection unit receives an input and a subtractor for receiving a voltage value across the resistor and outputs a difference, and compares the output and the reference value of the adder and subtractor. And a voltage comparator for outputting a logic value, and an arithmetic processor for detecting whether the cable connected to the load input terminal is misaligned by receiving the output of the voltage comparator.

According to the present invention as described above, by connecting a resistor to the load input terminal in addition to detect the presence of misalignment between the connector and the load terminal, the structure is simple and can prevent the loss of the load due to miscombination, As well as the presence or absence of coupling can be detected in the position of the mis-binding can prevent the damage of the load due to the mis-coupling, there is an effect that can be quickly responded in case of mis-combination occurs.

1 is a block diagram of a connector misalignment detection system according to an embodiment of the present invention.
2 is a reference diagram for explaining the operation of the connector misalignment detection system according to an embodiment of the present invention;
Figure 3 is a block diagram according to an embodiment of the misalignment detection unit according to the present invention.
Figure 4 is a block diagram according to another embodiment of the misalignment detection unit according to the present invention.
5 is a circuit diagram illustrating a connection relationship between an adder and a subtractor and a resistor of an incorrect coupling detection unit according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It will be possible. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

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

1 is a block diagram of a connector misalignment detection system according to an embodiment of the present invention.

Referring to FIG. 1, a connector mismatch detection system according to an embodiment of the present invention includes an output unit 110, load unit input terminals IT1 and IT2, and misalignment detection unit 120, and a power supply unit. 100 includes an output unit 110, a mismatch detection unit 120 and a power supply output terminals OT1 and OT2, and the load unit 200 includes loads L1 and L2, resistors R1 and R2, and It includes load input terminals IT1 and IT2.

An output unit 110 for outputting electricity, and an output unit 110, cables CB1 and CB2, and connectors C1 and C2 to supply electricity output from the output unit 110 to the loads L1 and L2. The misalignment detecting unit 120 which detects the misalignment of the load input terminals IT1 and IT2 electrically connected to each other and the connectors C1 and C2 coupled to the load input terminals IT1 and IT2. Include. The power supply unit 100 includes an output unit 110, a misalignment detection unit 120, and power supply output terminals OT1 and OT2.

The output unit 120 outputs electricity to supply electricity to the load of the load unit 200, and generally outputs electricity corresponding to the number of loads located in the load unit 200 or more than the number of loads. That is, when the load of the load unit 200 is four, at least four lines of electricity output from the output unit 110 are also provided. In addition, different sizes of electrical output are possible for each line.

The electricity output from the output unit 110 is transmitted to the outside through the power output terminal (OT1, OT2) and the cables (CB1, CB2) of the power supply unit 100, the connector (C1, CB2) at the end of the cable (CB1, CB2) C2) is installed to couple the load input terminals IT1 and IT2 of the load unit 200 to supply electricity to the loads L1 and L2.

Cables CB1 and CB2 installed between the power supply output terminals Ot1 and OT2 and the connectors C1 and C2 are output lines (not shown) and load input terminals for transmitting electricity output from the output unit 110. Including a transmission line (not shown) for flowing a current to the resistor electrically connected to (IT1, IT2), additionally necessary wire may be additionally installed.

The load input terminals IT1 and IT2 are coupled to the connectors C1 and C2 to supply electricity to the loads L1 and L2 connected to the load input terminals IT1 and IT2.

In addition, the resistors R1 and R2 are connected to the load input terminals IT1 and IT2 to a line different from the line to which the load is connected, and the resistors R1 and R2 are connected to each other when the connectors C1 and C2 are coupled to each other. C1, C2, the cable (CB1, CB2), the power supply unit output terminals (OT1, OT2) and the internal wiring (not shown) of the power supply unit 100 is electrically energized with the misconnection detection unit 120 to form a closed circuit. The resistors R1 and R2 are configured to have different resistance values.

The mismatch detection unit 120 senses the voltage value across the resistor and compares it with a reference value to detect the mismatch of the connector. Detailed operation description of the misalignment detection unit 120 will be described in more detail with reference to the operation of the connector misalignment detection system according to the present invention below.

2 is a reference diagram for explaining the operation of the connector misalignment detection system according to an embodiment of the present invention when the connectors (C1, C2) is misaligned, Figure 3 is a mismatch detection unit ( 120 is a block diagram according to an embodiment of the present invention, FIG. 4 is a block diagram according to another embodiment of the misalignment detecting unit 120 'according to the present invention, and FIG. 5 is a mismatch detecting unit and a resistor according to the present invention. This is a circuit diagram showing the connection relationship with.

The operation of the connector misalignment detection system according to an embodiment of the present invention will be described with reference to FIGS. 2 to 5.

2 illustrates a case in which the connector of the power supply unit 100 is incorrectly coupled to the load input terminal of the load unit 200. The correct coupling is that the first connector C1 is coupled to the first load input terminal IT1. The second connector C2 should be coupled to the second load input terminal IT2. However, referring to FIG. 2, the first connector C1 is coupled to the second load input terminal IT2, and the second connector C2 is coupled to the first load input terminal IT2. The output unit 110 outputs the power by varying the amount of electricity according to the load connected to the load input terminal to which each connector is to be coupled. As described above, when the connector is coupled to the wrong load input terminal, the load is overheated. There is a risk of explosion or fire.

When the worker couples the connector connected to the output terminal of the power supply unit 100 to the load input terminal of the load unit 200, the electricity output from the output unit 110 is transmitted to the load through the cable. In addition, as shown in FIG. 4, a closed circuit is formed between the misalignment detection unit 120 and the resistor by coupling the connector and the load unit input terminal. At the moment of the coupling, a constant current I flows through the resistor. The constant current I may be transmitted from the misalignment detector 120, or may be provided with a separate constant current generator (not shown) in the power supply unit 100 or transmitted from the output unit 110. As described above, when the constant current I flows, voltage is generated at both ends of the resistor, and the misalignment detector 120 senses a voltage applied at both ends of the resistor to detect whether the connector is miscoupled.

An operation according to the first embodiment of the mismatch detecting unit 120 will be described with reference to FIGS. 2, 3, and 5.

Referring to FIG. 3, the first embodiment of the misalignment detecting unit 120 includes an adder and a subtractor 121 for sensing a voltage difference across the resistor, and a voltage value sensed by the adder and subtractor 121 to be converted into a digital value. A / D converter 122 for receiving, and the operation processor 123 for receiving the digital value from the A / D converter 122 detects the presence or absence of misalignment of the connector.

The adder / subtractor 121 may be configured using the OP-AMP, and measures the voltage difference between the two input terminals and outputs them to the output terminal. The output voltage value is an analog value. Referring to FIG. 5, the adder / subtracter 121 and the resistor of the misalignment detector 120 are configured in a closed circuit, and the adder / subtracter 121 outputs V2-V1 (= IR), which is a voltage difference across the resistor.

The A / D converter 122 converts an analog voltage value, which is an output value of the adder / subtractor 121, into a digital value by an analog-to-digital converter and transmits the converted digital value to the operation processor 123.

The operation processor 123 receives the digitally converted voltage value and compares it with a reference value to determine whether the connector is misaligned.

In order to explain the detailed operation of the operation processor 123, the resistors R1 and R2 of FIG. 2 are divided into a first resistor R1 and a second resistor R2, and the resistance value of the first resistor R1 is 1 k? If the resistance value of the two resistors R2 is 2 kΩ and the constant current flowing through each resistor is 1 mA, the voltage across the first resistor R1 is 1V, and the voltage across the second resistor R2 is 2V. do. When the first connector C1 is connected to the first load input terminal IT1 and the second connector C2 is connected to the second load input terminal IT2, it is assumed that the correct operation is performed. When the first connector C1 is connected to the first load input terminal IT1, the voltage value obtained by digitally converting the voltage value of 1V from the A / D converter 121 is received. Similarly, when the second connector C2 is connected to the second load input terminal IT2, the A / D converter 121 receives a voltage value obtained by digitally converting a voltage value of 2V. The operation processor 123 receives the output of the A / D converter 121 and compares it with a set reference value to detect the presence or absence of misalignment of the connector. The reference value is a voltage value applied to both ends of each resistor when each connector is correctly connected to the load input terminal, and is determined according to the resistance value of the load and the magnitude of the constant current flowing.

As shown in FIG. 2, when the first connector C1 is connected to the second load input terminal IT2 and the second connector C2 is connected to the first load input terminal IT1, the operation processor 123 2V, the voltage across both ends of the second resistor R2 connected to the input terminal IT2 energized by the first connector, and on both ends of the first resistor R1 connected to the input terminal IT2 energized with the second connector. It receives 1V, the voltage required. Then, the processor 123 compares the set reference value (1V, which is the voltage value of the resistor to be connected with the first connector, and 2V, which is the resistance value of the resistor, which is to be connected with the second connector, and in other cases, the first connector C1). And the second connector C2 is connected to the wrong load input terminal, and the coupled connector is coupled to any load input terminal by comparing the voltage value input to the operation processor 123 with a set reference value. It can detect if a connector is misaligned and easily rejoin it.

4 is a block diagram according to another embodiment of the misalignment detection unit according to the present invention. Referring to FIG. 4, the mismatch detection unit 123 'according to another embodiment of the present invention senses the voltage difference across the resistor. Receives the outputs of the voltage comparator 124 and the voltage comparator 124 for receiving the adder-subtractor 121 and the voltage value sensed by the adder-subtractor 121 and the set reference value and outputting the same as a logic value. It includes an operation processor (123 ') for detecting the presence or absence of misalignment.

The voltage comparator 124 compares an analog voltage value with an input value and a reference value, determines whether the received analog voltage value is higher or lower than the reference value, and outputs a logic value.

When the output of the voltage comparator receives the output of the voltage comparator and all the outputs of the voltage comparator are floating values, the operation processor 123 'is connected to the voltage comparator that is connected to the voltage comparator that the logic value is input. I think that. In addition, it is possible to determine which load input terminal is connected to the mismatched connector by comparing the input logic value. This makes it possible to identify mismatched connectors and easily reassemble them.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

100; Power supply 110; Output portion
120, 120 '; Misalignment detection unit 121; Accelerator
122; A / D converters 123 and 123 '; Operation processor
124; Voltage comparator 200; Load

Claims (3)

A load unit having a resistance connected to a closed circuit and having a plurality of load unit input terminals to which a load is connected so that electricity is applied when the power is supplied, the resistance of each load unit input terminal having a different resistance value; And
The connector for outputting electricity, the connector for transmitting the electricity of the output unit to the load unit through the coupling of the load unit input terminal, and the connector by comparing the reference value set by sensing the voltage value applied to the resistor A power supply unit having a miscoupling detection unit for detecting a miscoupling between the load terminal and the load input terminal;
Connector misalignment detection system comprising a.
The method of claim 1,
The misalignment detector includes an adder and a subtractor for receiving a voltage value across the resistor and outputting a difference, an A / D converter for receiving an output of the adder and subtractor, converting the digital value into a digital value, and the A / D converter. Cable mismatch detection system characterized in that it comprises an operation processor for detecting whether the cable is connected to the load input terminal by comparing the output with a reference value set.
The method of claim 1,
The mismatch detection unit includes an adder and a subtractor for receiving a voltage value across the resistor and outputting a difference, a voltage comparator for receiving a comparison between the output and the reference value of the adder and a reference value and outputting a logic value, and an output of the voltage comparator. Cable misconnection detection system, characterized in that it comprises an operation processor for detecting whether the misconnection of the cable connected to the load input terminal.

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