JP2001332160A - Relay apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a relay apparatus, in which an increase in a resistance value of a relay contact can be monitored without disassembling it from a control circuit. SOLUTION: A relay apparatus is provided with a relay main body (20) and a contact resistance monitoring device (30) that is detachably attached to the relay main body. The relay main body (20) is comprised of: a coil (22); the relay contacts (24, 26) that are actuated by exciting the coil (22); and the monitoring terminals (20c, 20d) to monitor the contact resistance of the relay contact. The contact resistance monitoring device (30) is comprised of: the resistance value monitoring terminals (30c, 30d) that are connectable to the monitoring terminals (20c, 20d); a contact resistance determining means (31) to determine if the contact resistance of the relay contact is larger than the given value or not; and an alarm output means (32), which outputs an alarm when the contact resistance of the relay contact is determined to be larger than the given value by the contact resistance determining means.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a relay device,
In particular, the present invention relates to a relay device having a relay main body and a contact resistance monitoring device detachably attached to the relay main body.

[0002]

2. Description of the Related Art Conventionally, many relays for energizing a coil to operate a contact have been used in a control circuit. Also, the relay contact has a contact resistance, and this contact resistance is
It is known that it increases with time depending on the use environment around the contact, for example, the state of gas. If the contact resistance of the relay increases, the current consumption of the control circuit will increase, and furthermore, the control circuit may malfunction.Therefore, it is necessary to replace the relay with the increased contact resistance with a new relay with a lower contact resistance. is there.

[0003] In order to measure the resistance of a relay contact, the coil of the relay must be excited and the relay contact must be closed. However, when the relay is incorporated in the control circuit, the relay contact to be measured is not always closed. In addition, even if the relay contact is closed, the closing time may be short. Also, while the control circuit is operating,
It is dangerous to connect a contact resistance measuring device such as a tester to the circuit connection terminal of the relay to measure the contact resistance. For this reason, conventionally, by using a contact resistance measurement device that can excite the relay coil after stopping the control circuit in which the relay is incorporated, removing the relay from the control circuit, The value was being measured.

[0004]

When the resistance value of the relay contact is measured in the above-described manner, the control circuit in which the relay is incorporated must be stopped once.
That is, there is a problem that a machine or a device using the control circuit must be stopped. Since a large number of relays are usually used in a control circuit, the productivity of a machine or a device is significantly impaired. In addition, in order to measure the resistance value of the relay contact, a measuring person has to go to the mounting position of the relay, which is labor-intensive and costly.

Accordingly, it is an object of the present invention to provide a relay device capable of monitoring an increase in the resistance value of a relay contact without removing it from a control circuit. Another object of the present invention is to provide a device that can automatically output an alarm when the resistance value of a relay contact becomes larger than a predetermined value.

[0006]

In order to achieve the above object, a relay device according to the present invention comprises a relay body and a contact resistance monitoring device detachably attached to the relay body. , A coil, a relay contact that operates by energizing the coil, and a monitoring terminal for monitoring the contact resistance of the relay contact. The contact resistance monitoring device can be connected to the monitoring terminal. A resistance monitoring terminal, contact resistance determining means for determining whether or not the contact resistance of the relay contact is greater than a predetermined value; and when the contact resistance determining means determines that the contact resistance of the relay contact is greater than a predetermined value. And an alarm output means for outputting an alarm. In the present invention thus configured, a contact resistance monitoring device is provided separately from the relay body,
The contact resistance determination means of the contact resistance monitoring device determines whether the contact resistance of the relay contact is greater than a predetermined value,
When the value is larger than the predetermined value, a warning is output by the warning output means. As a result, the contact resistance of the relay contact of the relay body can be monitored without removing the relay body from the control circuit. Furthermore,
Since the contact resistance monitoring device is detachably attached to the relay body, if the relay body needs to be replaced, only the relay body needs to be replaced, and the contact resistance monitoring device can be used continuously. it can. In the present invention, the relay contacts are at least two relay contacts connected in series, and it is preferable that circuit connection terminals are provided at both ends of one of the relay contacts. With this configuration, when the coil is not excited, the relay contacts provided with the circuit connection terminals conduct through the monitoring terminal of the relay body, the resistance monitoring terminal of the contact resistance monitoring device, and the internal circuit thereof. To prevent Further, at least two relay contacts connected in series are opened and closed by the same number of times because they are operated by the same coil, and are in substantially the same use environment. Thus, the increase in resistance of each of the series-connected relay contacts is substantially equal, and the sum of the increase in resistance of the series-connected relay contacts is a multiple of the increase in resistance of the individual relay contacts. And therefore,
The monitoring accuracy of the resistance value of the relay contact can be improved. In the present invention, the relay body preferably has a power supply terminal connected to both ends of the coil, and the contact resistance monitoring device preferably has a resistance value monitoring terminal connectable to the power supply terminal. With this configuration, the contact resistance monitoring device does not need to include a power supply for measuring the resistance value. Moreover, the contact resistance monitoring device can reliably monitor the resistance of the relay contact only while the coil is energized, that is, only while the relay contact is operating. In the present invention, it is preferable that the alarm output unit has an indicator light that lights or blinks when the contact resistance of the relay contact is larger than a predetermined value. With this configuration, it is possible to recognize at a glance an increase in the contact resistance exceeding a predetermined value (allowable value). In the present invention, it is preferable that the alarm output unit includes an alarm transmission unit that transmits an alarm to a transmission unit provided outside when the contact resistance of the relay contact is larger than a predetermined value. In such a configuration, it is not necessary for the measurer to go to the mounting position of the relay to monitor the resistance value of the relay contact. In addition, the contact resistance of many relays can be centrally managed at one place.

[0007]

An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is an overall configuration diagram showing an embodiment of the relay device of the present invention. As shown in FIG. 1, the relay 10 includes a relay main body 20 and a contact resistance monitoring device 30 detachably attached to the relay main body 20.

The relay body 20 has a coil 22, and two relay contacts, a first relay contact 24 and a second relay contact 26, which are activated by exciting the coil 22. One end of the coil 22 is connected to the circuit connection terminal 22.
a and the power supply terminal 20a, and the other end of the coil 22 is connected to the circuit connection terminal 22b and the power supply terminal 20b. One end of the relay contact 24 is connected to one end of the relay contact 26 and the circuit connection terminal 24a. The other end of the relay contact 24 has a circuit connection terminal 24b and a monitoring terminal 20d.
The other end of the relay contact 26 is connected to the monitoring terminal 20c.
Connected to. Thus, the first relay contact 24 and the second
And the total resistance of the first and second relay contacts 24 and 26 is determined by the monitoring terminal 20.
c and 20d.

The contact resistance monitoring device 30 includes a power supply terminal 2
The power supply terminals 30a, 30b and the resistance value monitoring terminals 30c, 30d connectable to the terminals 0a, 20b and the monitoring terminals 20c, 20d, respectively, and are detachably attached to the relay body 20. The contact resistance monitoring device 30 is further operated by power supplied from the power supply terminals 20a, 20b, and measures resistance between the monitoring terminals 20c, 20d via the resistance monitoring terminals 30c, 30d. 31
An alarm output means 32 for outputting an alarm when the total resistance value of the first and second relay contacts 24 and 26 measured by the resistance value measuring means 31 is larger than a predetermined value; Indicator light 34 connected to alarm output means 32
And an antenna 36.

Next, the operation of the above-described embodiment of the present invention will be described. When no voltage is applied between the circuit connection terminals 22a and 22b, the relay contacts 26 are provided, so that the open relay contacts 24a and 24b are connected between the monitoring terminals 20c and 20d and the resistance value monitoring terminal 30c. , 30 d and the internal circuit of the contact resistance monitoring device 30.

When a voltage is applied between the circuit connection terminals 22a and 22b, the coil 22 is excited and the first and second relay contacts 24 and 26 are closed. These relay contacts 2
When the terminals 4 and 26 are closed, the resistance monitoring terminals 20c and 20
The resistance value between the first and second relay contacts 24, 26
The total resistance value. When a voltage is applied between the circuit connection terminals 22a and 22b, the contact resistance monitoring device 3 is connected via the power supply terminals 20a and 20b and the power terminals 30a and 30b.
0 is supplied with power. The contact resistance monitoring device 30 operates only when a voltage is applied between the circuit connection terminals 22a and 22b, and can reliably monitor the resistance value of the relay contact.

The resistance value between the resistance value monitoring terminals 20c and 20d is measured and monitored by the resistance value measuring means 31 via the resistance value monitoring terminals 30c and 30d. This resistance value is indirectly measured by measuring the voltage between the resistance value monitoring terminals 30c and 30d. If the measured resistance value between the resistance value monitoring terminals 30c and 30d is larger than a predetermined value, the alarm output means 32 outputs an alarm signal to the indicator lamp 34 and the antenna 36. The indicator light 34 blinks or lights up in response to the alarm signal to notify that the resistance value of the relay contact is larger than a predetermined value. At the same time, antenna 3
6 transmits to the remote receiver 40 an alarm signal indicating that the resistance value of the relay contact is larger than a predetermined value.

The present invention is not limited to the above-described embodiment, but may employ other embodiments as described below. First, in the above-described embodiment, the contact resistance monitoring device 3
Although the power of 0 is supplied from the relay main body 20, a power such as a battery may be built in the contact resistance monitoring device 30.

Although two relay contacts 24 and 26 are provided in the above-described embodiment, three or more relay contacts may be connected in series to further improve the measurement accuracy. Conversely, when measurement accuracy is not required, a function of making the resistance between the resistance value monitoring terminals 30c and 30d infinite may be provided in the contact resistance monitoring device 30, and only one relay contact 24 may be provided. .

The contact resistance monitoring device 30 may display the measured resistance values of the relay contacts 24 and 26 on a display. Further, in the above-described embodiment, the resistance value of the relay contacts 24 and 26 is measured by the resistance value measuring means 31. However, the resistance value of the relay contacts 24 and 26 is not measured without measuring the measured value. The detection may be performed only when the value is larger than the threshold value.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of a relay device of the present invention.

[Explanation of symbols]

 Reference Signs List 10 relay device 20 relay body 22 coil 24 first relay contact 24a circuit connection terminal 24b circuit connection terminal 26 second relay contact 30 contact resistance monitoring device 31 resistance value measurement means 32 alarm output means 34 indicator light 36 antenna 40 receiver

Claims (5)

[Claims] 1. A relay body comprising: a relay body; and a contact resistance monitoring device detachably attached to the relay body. The relay body includes a coil, a relay contact operated by energizing the coil, and a relay contact. A monitoring terminal for monitoring a contact resistance of the relay contact, wherein the contact resistance monitoring device has a resistance value monitoring terminal connectable to the monitoring terminal, and a contact resistance of the relay contact is smaller than a predetermined value. Contact resistance determining means for determining whether the contact resistance is large or not, and alarm output means for outputting an alarm when the contact resistance of the relay contact is determined to be greater than a predetermined value by the contact resistance determining means. Relay device. 2. The relay device according to claim 1, wherein the relay contacts are at least two relay contacts connected in series, and circuit connection terminals are provided at both ends of one of the relay contacts. 3. The relay body has a power supply terminal connected to both ends of the coil, and the contact resistance monitoring device has a resistance value monitoring terminal connectable to the power supply terminal. 2. The relay device according to item 1. 4. The relay device according to claim 1, wherein the alarm output unit has an indicator light that lights or blinks when the contact resistance of the relay contact is greater than a predetermined value. 5. The alarm output means according to claim 1, further comprising an alarm transmission means for transmitting an alarm to an external transmission means when the contact resistance of said relay contact is larger than a predetermined value. The relay device according to claim 1.