JP3750582B2 - Signal switching device and signal switching method - Google Patents

Signal switching device and signal switching method Download PDF

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Publication number
JP3750582B2
JP3750582B2 JP2001319754A JP2001319754A JP3750582B2 JP 3750582 B2 JP3750582 B2 JP 3750582B2 JP 2001319754 A JP2001319754 A JP 2001319754A JP 2001319754 A JP2001319754 A JP 2001319754A JP 3750582 B2 JP3750582 B2 JP 3750582B2
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Prior art keywords
terminal
switching
relay
connection
signal
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JP2003123568A (en
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長次 小神
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NEC Corp
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NEC Corp
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Description

【0001】
【発明の属する技術分野】
本発明は、信号切替装置に関し、たとえば、接点の信頼性の向上化を図った信号切替装置に関する。
【0002】
【従来の技術】
従来、信号切替装置は一般に、リレー接点が長期間不動状態にあると、接点の表面に酸化化合物等による不伝導皮膜が生成される。
【0003】
その結果、ある日突然切替動作が実行されてもリレー接点に接触が起こり、切替回路が正常に機能しないという不具合が発生することがある。通信伝送装置などでは、システムとしての信頼度を高めるため、予備装置への切替装置を導入している。この場合、通信伝送装置本体の信頼度が高いと、切替装置の不動期間も非常に長いことがしばしばである。
【0004】
本発明と技術分野の類似する先願発明例1として、特開2000−90796号公報の「非常用リレー回路装置」がある。本先願発明例1では、接点リフレッシュ手段が、負荷通電指令信号とは異なる励磁コイル通電指令信号である接点リフレッシュ信号を、制御回路に定期的または何らかの発生頻度パターンで出力している。これにより、その分だけ開放型リレーの接点酸化膜が除去されて、その導通性が向上する。その結果、開放型リレーを用いるにもかかわらず、信頼性に優れた非常用リレー回路装置を実現することができるとしている。
【0005】
【発明が解決しようとする課題】
しかしながら、上記従来技術において、いかに長期間不動作状態であろうとも、予備装置への切替が必要となったときには、確実に切替動作が行われ予備装置への信号切替を機能させなければ、システムとしての高信頼度を得ることが出来ない問題点が生じる。
【0006】
ところが、前述したように長期間不動状態にあったリレーが、いざ切替というときに、リレー接点に長期間に亘って生成された酸化化合物等による不伝導被膜により、接触不良が起こり、切替装置としての機能が果たせないという不具合がしばしば経験されている。こうした不具合を防止解消する技術が切望されていた。
【0007】
本発明は、こうした期待に応え、高信頼性を有する信号切替装置を提供することを目的とする。
【0008】
【課題を解決するための手段】
かかる目的を達成するため、請求項1記載の発明の信号切替装置は、C端子の信号をA端子またはB端子へ切り替え伝達する第1のリレーと、第1のリレーのメーク接点とB端子間へ直列に接続されC端子とB端子間のブレーク接点を構成する第2のリレーと、第1のリレーのブレーク接点とC端子間へ並列に接続され第2のリレーのブレーク接点と連動動作しC端子とA端子間のメーク接点を構成する第3のリレーと、第1のリレーの動作とC端子とA端子およびB端子間の接続状態をチェックする切替状態確認回路と、この切替状態確認回路のチェック結果を受け、第1のリレー、第2のリレー、第3のリレーの動作を制御するリレー駆動信号制御回路とを有して構成され、C端子とA端子またはB端子間の接続動作補償を確保したことを特徴とする。
【0009】
請求項2記載の発明は、請求項1記載の信号切替装置において、接続状態のチェックとは、第1のリレーが不動作状態である場合に、第2のリレーを駆動する第1のリレー駆動信号を出力し、その後、数回に亘って第1のリレーを動作させる第2のリレー駆動信号の出力を断続させ、その後に、第1のリレー駆動信号を停止して、第2のリレーを復旧させ、第1のリレーの動作の確保を図るチェックであることを特徴とする。
【0010】
請求項3記載の発明は、請求項1または2記載の信号切替装置において、接続状態のチェックは、予め定めた所定期間において定期的に実行されることを特徴とする。
【0011】
請求項4記載の発明の信号切替方法は、第1の切替接続によりC端子の信号をA端子またはB端子へ切り替え伝達し、第2の切替接続を第1の切替接続のメーク接点とB端子間へ直列に接続しC端子とB端子間のブレーク接点を構成し、第3の切替接続を第1の切替接続のブレーク接点とC端子間へ並列に接続し第2の切替接続のブレーク接点と連動動作しC端子とA端子間のメーク接点を構成し、切替状態確認により第1の切替接続の動作とC端子とA端子およびB端子間の接続状態をチェックし、この切替状態確認のチェック結果を受け、第1の切替接続、第2の切替接続、第3の切替接続の動作を切替接続駆動信号制御により制御し、C端子とA端子またはB端子間の接続動作補償を確保したことを特徴とする。
【0012】
請求項5記載の発明は、請求項4記載の信号切替方法において、接続状態のチェックとは、第1の切替接続が不動作状態である場合に、第2の切替接続を第1の切替接続駆動により駆動し、その後、数回に亘って第1の切替接続を第2の切替接続駆動により断続させ、その後に、第1の切替接続駆動を停止して、第2の切替接続を復旧させ、不確定接続が発生した場合の第1の切替接続の確保を図るチェックであることを特徴とする。
【0013】
請求項6記載の発明は、請求項4または5記載の信号切替方法において、接続状態のチェックは、予め定めた所定期間において定期的に実行されることを特徴とする。
【0014】
【発明の実施の形態】
次に、添付図面を参照して本発明による信号切替装置および信号切替方法の実施の形態を詳細に説明する。
【0015】
図1は、本実施形態の信号切替装置および信号切替方法の回路構成例を示している。本実施形態の信号切替装置および信号切替方法は、三個のリレー接点4、5、6、これらリレー接点4、5、6の入出力端子であるC端子1、A端子2、B端子3、および駆動回路のD端子7、並びにこの駆動回路を構成する駆動巻線8、9、バッファ回路10、11、12、切替状態確認回路13、リレー駆動信号制御回路14、ダイオード15、16、を有して構成される。
【0016】
図1において、C端子1、A端子2、B端子3は、信号等の切替を目的とした入出力端子である。すなわち、C端子1に入力された信号は、通常(切替の無い状態)ではA端子2に出力されている。しかし、なんらかの事情で信号経路を変更したい場合、リレー接点4を動作させて切替えることにより、C端子1に入力された信号は、B端子3へ出力されるように信号経路を変更することが可能である。
【0017】
図1は、リレー接点5およびリレー接点6を除けば、一般的な信号切替回路を示している。そして、基本的な切替の要素は、リレー接点4が担っており、このリレー接点4に接触不良が起これば、切替装置として不具合となる。そのため、リレー接点4には高い信頼性が要求される。
【0018】
しかし、長い期間リレー接点4が不動作の場合、リレー接点4の表面は酸化し酸化化合物による被膜で覆われることとなる。そしていざ切替というときに、この酸化化合物による被膜が原因で、接触不良が起こる可能性は否定できない。
【0019】
本実施形態では、図1のように第2のリレーすなわち、駆動巻線9で駆動されるメーク接点5とブレーク接点6とが補助的・予備的に、信号切替用のリレー接点4に並列および直列に構成される。このことにより、リレー接点4の切替状態に関わりなく、第2のリレーが駆動状態のときは、本切替装置の無切替状態が保持されるので、切替装置を通過する信号に影響を与えずに、リレー接点4を動作させることが可能となる。
【0020】
定期的にリレー接点4を動作させることにより、接点表面に生成される酸化化合物による被膜を除去することができるので、常にリレー接点4の表面は綺麗な状態が保たれ、いざ切替というときの接触不良を完璧に防止できる。本内容を以下に詳述する。
【0021】
切替状態確認回路13は、定期的に信号切替用リレーすなわち第1のリレー駆動線8に供給される電圧をチェックする。このことにより、同リレーが駆動状態に有るか否かを確認し、駆動していない、すなわち、リレー接点4が無切替の状態である場合に、リレー駆動信号制御回路14に切替開始を指示する。もし、リレー接点4が切り替わっている場合は、切替開始の指示は出さない。なぜなら、リレー接点5および6が動作することにより保持されるのはリレー接点4の無切替状態のみであって、リレー接点4が切替状態のときにリレー接点5および6が動作すれば、リレー接点4の無切替状態に移行し、本切替装置を通過している信号に影響を与えてしまうからである。また、定期的というのは、通常、1日に1回または、1週間に1回程度で充分と考えられる。
【0022】
すなわち、信号切替用に用意されたリレーの動作を定期的に確認し、動作中でないことを確認したならば、前記構成のように配置されたリレー接点を有する第2のリレーを駆動することにより、前記第1のリレーの状態にかかわらず、端子Cと端子Aが接続され、端子Cと端子B間は開放している状態が確保(切替装置としての無切替状態が保持)されるので、本切替装置を通過する信号に影響を与えることなく、信号切替用の第1のリレーを動作させることが可能となる。
【0023】
こうして、定期的に信号切替用の第1のリレーを動作させることにより、そのリレー接点に生成される酸化皮膜を定期的に除去し、いざ信号切替が必要となったときにリレー接点の接触不良により切替装置としての所定の機能を果さないという不具合が起こることを防止する効果がある。
【0024】
なお、上述の実施形態は本発明の好適な実施の一例である。ただし、これに限定されるものではなく、本発明の要旨を逸脱しない範囲内において種々変形実施が可能である。
【0025】
【発明の効果】
以上の説明より明らかなように、本発明の信号切替装置および信号切替方法は、第1の切替接続によりC端子の信号をA端子またはB端子へ切り替え伝達し、第2の切替接続を第1の切替接続のメーク接点とB端子間へ直列に接続しC端子とB端子間のブレーク接点を構成し、第3の切替接続を第1の切替接続のブレーク接点とC端子間へ並列に接続し第2の切替接続のブレーク接点と連動動作しC端子とA端子間のメーク接点を構成し、切替状態確認により第1の切替接続の動作とC端子とA端子およびB端子間の接続状態をチェックし、この切替状態確認のチェック結果を受け、第1の切替接続、第2の切替接続、第3の切替接続の動作を切替接続駆動信号制御により制御し、C端子とA端子またはB端子間の接続動作補償を確保している。
【0026】
以上述べたように本発明によれば、信号切替装置等において、信号切替の要素となっているリレー接点は、その表面に生成される酸化化合物が一定期間毎に除去され、常に綺麗な状態に保たれるため、長期間不動状態の続くような信号切替装置においても、いざ切替という時にリレー接点の接触不良を防ぎ、信頼度の高い信号切替機能を確保できるので、非常に便利である。
【図面の簡単な説明】
【図1】本発明の信号切替装置の実施形態を示す回路構成図である。
【符号の説明】
1 C端子
2 A端子
3 B端子
4、5、6 リレー接点
7 D端子
8、9 駆動巻線
10、11、12 バッファ回路
13 切替状態確認回路
14 リレー駆動信号制御回路
15、16 ダイオード[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a signal switching device, for example, a signal switching device that improves the reliability of contacts.
[0002]
[Prior art]
Conventionally, in a signal switching device, generally, when a relay contact is in a stationary state for a long time, a nonconductive film made of an oxide compound or the like is generated on the surface of the contact.
[0003]
As a result, even if a sudden switching operation is executed on a certain day, a contact may occur at the relay contact, which may cause a problem that the switching circuit does not function normally. In communication transmission devices and the like, a switching device to a spare device is introduced in order to increase the reliability of the system. In this case, when the reliability of the communication transmission device main body is high, the switching device is often stationary for a very long time.
[0004]
Japanese Patent Application Laid-Open No. 2000-90796 discloses “Emergency Relay Circuit Device” as Invention Example 1 similar in technical field to the present invention. In the first invention example 1, the contact refresh means outputs a contact refresh signal, which is an exciting coil energization command signal different from the load energization command signal, to the control circuit periodically or in some occurrence frequency pattern. As a result, the contact oxide film of the open relay is removed correspondingly, and the conductivity is improved. As a result, despite the use of an open type relay, an emergency relay circuit device with excellent reliability can be realized.
[0005]
[Problems to be solved by the invention]
However, in the above prior art, no matter how long it has been inactive, when switching to a spare device becomes necessary, the switching operation is surely performed and the signal switching to the spare device does not function. As a result, there is a problem that high reliability cannot be obtained.
[0006]
However, as described above, when a relay that has been in a stationary state for a long time is referred to as switching, contact failure occurs due to a non-conductive film such as an oxide compound generated over a long period of time at the relay contact, and as a switching device There is often a problem that the function of can not be performed. A technology to prevent and eliminate such problems has been desired.
[0007]
An object of the present invention is to provide a signal switching device that meets such expectations and has high reliability.
[0008]
[Means for Solving the Problems]
In order to achieve such an object, the signal switching device according to the first aspect of the present invention includes a first relay for switching and transmitting a signal at the C terminal to the A terminal or the B terminal, and between the make contact and the B terminal of the first relay. Connected in series to the second relay constituting the break contact between the C terminal and the B terminal, and connected in parallel between the break contact of the first relay and the C terminal and operated in conjunction with the break contact of the second relay. A third relay constituting a make contact between the C terminal and the A terminal, a switching state confirmation circuit for checking the operation of the first relay and the connection state between the C terminal, the A terminal and the B terminal, and the switching state confirmation; A relay drive signal control circuit that controls the operation of the first relay, the second relay, and the third relay in response to the check result of the circuit, and is connected between the C terminal and the A terminal or the B terminal. Ensure motion compensation And it features.
[0009]
According to a second aspect of the present invention, in the signal switching device according to the first aspect, the connection state check means that the first relay drive that drives the second relay when the first relay is in an inoperative state. Output the signal, and then interrupt the output of the second relay drive signal for operating the first relay for several times, and then stop the first relay drive signal and turn the second relay on It is a check for restoring and ensuring the operation of the first relay.
[0010]
According to a third aspect of the present invention, in the signal switching device according to the first or second aspect, the connection state check is periodically executed in a predetermined period.
[0011]
According to a fourth aspect of the present invention, there is provided a signal switching method in which the signal at the C terminal is switched and transmitted to the A terminal or the B terminal by the first switching connection, and the make contact and the B terminal of the first switching connection are transmitted to the second switching connection. A break contact between the C terminal and the B terminal is formed in series between the terminals, and the third switching connection is connected in parallel between the break contact of the first switching connection and the C terminal, and the break contact of the second switching connection. To make a make contact between the C terminal and the A terminal, check the switching state by checking the switching operation and the connection state between the C terminal, the A terminal and the B terminal. Based on the check result, the operation of the first switching connection, the second switching connection, and the third switching connection is controlled by the switching connection drive signal control, and the connection operation compensation between the C terminal and the A terminal or B terminal is ensured. It is characterized by that.
[0012]
According to a fifth aspect of the present invention, in the signal switching method according to the fourth aspect, the connection state check means that the second switching connection is changed to the first switching connection when the first switching connection is in an inoperative state. The first switching connection is intermittently interrupted by the second switching connection driving for several times, and then the first switching connection driving is stopped to restore the second switching connection. This is a check for ensuring the first switching connection when an indeterminate connection occurs.
[0013]
According to a sixth aspect of the present invention, in the signal switching method according to the fourth or fifth aspect, the connection state check is periodically executed in a predetermined period.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of a signal switching device and a signal switching method according to the present invention will be described in detail with reference to the accompanying drawings.
[0015]
FIG. 1 shows a circuit configuration example of a signal switching device and a signal switching method of the present embodiment. The signal switching device and the signal switching method of the present embodiment include three relay contacts 4, 5, 6, C terminal 1, A terminal 2, B terminal 3, which are input / output terminals of these relay contacts 4, 5, 6. And D terminal 7 of the drive circuit, and drive windings 8 and 9, buffer circuits 10, 11, and 12, constituting the drive circuit, switching state confirmation circuit 13, relay drive signal control circuit 14, and diodes 15 and 16. Configured.
[0016]
In FIG. 1, C terminal 1, A terminal 2 and B terminal 3 are input / output terminals for the purpose of switching signals and the like. That is, the signal input to the C terminal 1 is normally output to the A terminal 2 (without switching). However, if it is desired to change the signal path for some reason, the signal path can be changed so that the signal input to the C terminal 1 is output to the B terminal 3 by switching the relay contact 4 by operating it. It is.
[0017]
FIG. 1 shows a general signal switching circuit except for the relay contact 5 and the relay contact 6. The basic switching element is carried by the relay contact 4. If a contact failure occurs in the relay contact 4, it becomes a problem as a switching device. For this reason, the relay contact 4 is required to have high reliability.
[0018]
However, when the relay contact 4 is inactive for a long period of time, the surface of the relay contact 4 is oxidized and covered with a coating of an oxidized compound. When switching, it is undeniable that a contact failure may occur due to the coating of the oxidized compound.
[0019]
In this embodiment, as shown in FIG. 1, the second relay, that is, the make contact 5 and the break contact 6 driven by the drive winding 9 are arranged in parallel with the signal switching relay contact 4 in an auxiliary and preliminary manner. Configured in series. Thus, regardless of the switching state of the relay contact 4, when the second relay is in the driving state, the non-switching state of the switching device is maintained, so that the signal passing through the switching device is not affected. The relay contact 4 can be operated.
[0020]
By periodically operating the relay contact 4, it is possible to remove the coating of the oxidized compound produced on the contact surface, so that the surface of the relay contact 4 is always kept clean and contact when switching is necessary. Defects can be completely prevented. This content is described in detail below.
[0021]
The switching state confirmation circuit 13 periodically checks the voltage supplied to the signal switching relay, that is, the first relay drive line 8. Thus, it is confirmed whether or not the relay is in a driving state. When the relay is not driven, that is, when the relay contact 4 is in a non-switching state, the relay driving signal control circuit 14 is instructed to start switching. . If the relay contact 4 is switched, the switching start instruction is not issued. This is because the relay contacts 5 and 6 are held only when the relay contact 4 is not switched, and if the relay contacts 5 and 6 operate when the relay contact 4 is switched, This is because the signal is shifted to the non-switching state of 4 and affects the signal passing through the switching device. In addition, the term “regular” is usually considered to be sufficient once a day or once a week.
[0022]
That is, by periodically checking the operation of the relay prepared for signal switching and confirming that it is not in operation, the second relay having the relay contact arranged as described above is driven. Regardless of the state of the first relay, the terminal C and the terminal A are connected, and the state where the terminal C and the terminal B are open is ensured (the non-switching state as the switching device is maintained). It is possible to operate the first relay for signal switching without affecting the signal passing through the switching device.
[0023]
Thus, by periodically operating the first relay for signal switching, the oxide film generated at the relay contact is periodically removed, and when the signal switching becomes necessary, the contact failure of the relay contact As a result, there is an effect of preventing a problem that the predetermined function as the switching device is not performed.
[0024]
The above-described embodiment is an example of a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.
[0025]
【The invention's effect】
As is clear from the above description, in the signal switching device and the signal switching method of the present invention, the signal of the C terminal is switched and transmitted to the A terminal or the B terminal by the first switching connection, and the second switching connection is the first. Connected in series between the make contact of the switching connection and the B terminal to form a break contact between the C terminal and the B terminal, and connected the third switching connection in parallel between the break contact of the first switching connection and the C terminal. Then, it operates in conjunction with the break contact of the second switching connection to form a make contact between the C terminal and the A terminal. By checking the switching state, the operation of the first switching connection and the connection state between the C terminal, the A terminal, and the B terminal And the operation of the first switching connection, the second switching connection, and the third switching connection is controlled by the switching connection drive signal control, and the C terminal and the A terminal or B Ensures connection operation compensation between terminals. .
[0026]
As described above, according to the present invention, in a signal switching device or the like, a relay contact that is a signal switching element is always in a clean state by removing oxidized compounds generated on its surface at regular intervals. Therefore, even in a signal switching device that remains stationary for a long period of time, it is very convenient because it can prevent a contact failure of a relay contact when switching and secure a highly reliable signal switching function.
[Brief description of the drawings]
FIG. 1 is a circuit configuration diagram showing an embodiment of a signal switching device of the present invention.
[Explanation of symbols]
1 C terminal 2 A terminal 3 B terminal 4, 5, 6 Relay contact 7 D terminal 8, 9 Drive winding 10, 11, 12 Buffer circuit 13 Switching state confirmation circuit 14 Relay drive signal control circuit 15, 16 Diode

Claims (6)

C端子の信号をA端子またはB端子へ切り替え伝達する第1のリレーと、
前記第1のリレーのメーク接点と前記B端子間へ直列に接続され前記C端子とB端子間のブレーク接点を構成する第2のリレーと、
前記第1のリレーのブレーク接点と前記C端子間へ並列に接続され前記第2のリレーのブレーク接点と連動動作し前記C端子とA端子間のメーク接点を構成する第3のリレーと、
前記第1のリレーの動作と前記C端子とA端子およびB端子間の接続状態をチェックする切替状態確認回路と、
該切替状態確認回路のチェック結果を受け、前記第1のリレー、第2のリレー、第3のリレーの動作を制御するリレー駆動信号制御回路とを有して構成され、
前記C端子とA端子またはB端子間の接続動作補償を確保したことを特徴とする信号切替装置。A first relay for switching and transmitting the signal of the C terminal to the A terminal or the B terminal;
A second relay connected in series between the make contact of the first relay and the B terminal and constituting a break contact between the C terminal and the B terminal;
A third relay connected in parallel between the break contact of the first relay and the C terminal and operating in conjunction with the break contact of the second relay to form a make contact between the C terminal and the A terminal;
A switching state confirmation circuit for checking the operation of the first relay and the connection state between the C terminal, the A terminal and the B terminal;
A relay drive signal control circuit that receives the check result of the switching state confirmation circuit and controls the operation of the first relay, the second relay, and the third relay;
A signal switching device characterized by ensuring connection operation compensation between the C terminal and the A terminal or B terminal. 前記接続状態のチェックとは、前記第1のリレーが不動作状態である場合に、
前記第2のリレーを駆動する第1のリレー駆動信号を出力し、
その後、数回に亘って前記第1のリレーを動作させる第2のリレー駆動信号の出力を断続させ、
その後に、前記第1のリレー駆動信号を停止して、前記第2のリレーを復旧させ、
前記第1のリレーの動作の確保を図るチェックであることを特徴とする請求項1記載の信号切替装置。The connection status check means that when the first relay is in an inoperative state,
Outputting a first relay drive signal for driving the second relay;
Thereafter, the output of the second relay drive signal for operating the first relay for several times is intermittently interrupted,
Thereafter, the first relay drive signal is stopped to restore the second relay,
The signal switching device according to claim 1, wherein the signal switching device is a check for ensuring the operation of the first relay. 前記接続状態のチェックは、予め定めた所定期間において定期的に実行されることを特徴とする請求項1または2記載の信号切替装置。3. The signal switching device according to claim 1, wherein the connection state check is periodically executed in a predetermined period. 第1の切替接続によりC端子の信号をA端子またはB端子へ切り替え伝達し、
第2の切替接続を前記第1の切替接続のメーク接点と前記B端子間へ直列に接続し前記C端子とB端子間のブレーク接点を構成し、
第3の切替接続を前記第1の切替接続のブレーク接点と前記C端子間へ並列に接続し前記第2の切替接続のブレーク接点と連動動作し前記C端子とA端子間のメーク接点を構成し、
切替状態確認により前記第1の切替接続の動作と前記C端子とA端子およびB端子間の接続状態をチェックし、
該切替状態確認のチェック結果を受け、前記第1の切替接続、第2の切替接続、第3の切替接続の動作を切替接続駆動信号制御により制御し、
前記C端子とA端子またはB端子間の接続動作補償を確保したことを特徴とする信号切替方法。The signal of the C terminal is switched and transmitted to the A terminal or the B terminal by the first switching connection,
A second switching connection is connected in series between the make contact of the first switching connection and the B terminal to form a break contact between the C terminal and the B terminal;
A third switching connection is connected in parallel between the break contact of the first switching connection and the C terminal, and operates in conjunction with the break contact of the second switching connection to form a make contact between the C terminal and the A terminal. And
By checking the switching state, the operation of the first switching connection and the connection state between the C terminal, the A terminal and the B terminal are checked,
In response to the check result of the switching state confirmation, the operations of the first switching connection, the second switching connection, and the third switching connection are controlled by switching connection drive signal control,
A signal switching method characterized by securing connection operation compensation between the C terminal and the A terminal or B terminal. 前記接続状態のチェックとは、前記第1の切替接続が不動作状態である場合に、
前記第2の切替接続を第1の切替接続駆動により駆動し、
その後、数回に亘って前記第1の切替接続を第2の切替接続駆動により断続させ、
その後に、前記第1の切替接続駆動を停止して、前記第2の切替接続を復旧させ、
接続不良の発生を防止し、前記第1の切替接続の確保を図るチェックであることを特徴とする請求項4記載の信号切替方法。The connection state check is when the first switching connection is in an inoperative state.
Driving the second switching connection by a first switching connection drive;
Thereafter, the first switching connection is interrupted by the second switching connection drive several times,
Thereafter, the first switching connection drive is stopped to restore the second switching connection,
5. The signal switching method according to claim 4, wherein the signal switching method is a check for preventing occurrence of a connection failure and securing the first switching connection. 前記接続状態のチェックは、予め定めた所定期間において定期的に実行されることを特徴とする請求項4または5記載の信号切替方法。6. The signal switching method according to claim 4, wherein the connection state check is periodically executed in a predetermined period.
JP2001319754A 2001-10-17 2001-10-17 Signal switching device and signal switching method Expired - Fee Related JP3750582B2 (en)

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