JPH0724080B2 - Remote transmission device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a remote transmission device used in various fields for various purposes, and more specifically, to a base unit having first and second connection terminals, A slave unit having a third connection terminal to be connected to the first connection terminal and a fourth connection terminal to be connected to the second connection terminal is used as a master unit side connection terminal and a slave unit side connection terminal. A first energized state in which the main unit is energized through one of the electric wires toward the slave unit, and the other electric line is connected toward the slave unit. It is configured to switch the direction generation for energization to the second energized state in which the energization is performed, and the slave unit is configured so that the slave unit side electric loads in the first energized state and the second energized state are different from each other. , Remote configured to have direction about energization On the feeding device.

[Conventional technology]

In the remote transmission device configured as described above, it is necessary to establish a specific connection relationship between the connection terminal of the master unit and the connection terminal of the slave unit due to the form of transmission between the master unit and the slave unit. That is, it is necessary to connect the main unit in the first energized state and the second energized state so that the electric load on the slave unit side is in a suitable state.

By the way, in the past, only the right connection destination of each connection terminal was clearly shown to the builder to prevent erroneous connection.

[Problems to be Solved by the Invention]

Therefore, there are still many troubles due to the incorrect connection construction of the two electric wires extending over the master unit and the slave unit, and some improvement is required.

An object of the present invention is to provide two connection terminals on the master unit side and two connection units on the slave unit side even if the slave unit has a directivity for energization and the electric load is different due to the difference in the energization direction. The point is to eliminate the regulation of the connection relationship with the terminals.

[Means for Solving the Problems]

The characteristic configuration of the remote transmission device according to the present invention is as follows:
A base unit having a connection terminal, a third connection terminal to be connected to the first connection terminal, and a fourth connection terminal to be connected to the second connection terminal
A cordless handset having a connection terminal is connected by two electric wires that extend between the cordless handset side connection terminal and the cordless handset side connection terminal, and the cordless handset is oriented toward the cordless handset side. A first energized state in which electricity is conducted through an electric wire and a second energized state in which electricity is conducted through the other electric wire toward the slave unit side,
It is configured to switch the directionality of energization, so that the slave unit has directivity with respect to energization by different electric loads on the slave unit side in the first energized state and the second energized state. In the configured remote power transmission device, the parent device is energized with a specific directionality via the two electric wires, and as a result of the energization, a specific directionality of the energization performed and the child size are performed. Connection state determination means for determining whether or not the connection relationship between the master-side connection terminal and the slave-side connection terminal is correct by detecting whether or not an energization state abnormality has occurred due to incompatibility with the directionality of the machine , And the parent of the first connection terminal and the second connection terminal when the connection state determination means determines that the connection relationship between the parent device side connection terminal and the child device side connection terminal is incorrect. Electric power on board Manner automatically respective correction means for inverting the relationship, there in that provided in the master unit, the operation and effect are as follows.

[Action]

When the master unit and the slave unit are connected by two electric wires, the first connection terminal on the master unit side should be connected to the third connection terminal on the slave unit side. Due to this, in the case where it is connected to the fourth connection terminal and the second connection terminal on the master unit side is mistakenly connected to the third connection terminal on the slave unit side, the master unit identifies the slave unit. It is possible to determine that the connection relationship is incorrect, for example, due to the difference in the electric load on the slave unit side, etc.

When the connection relationship is incorrect as described above, the electrical relationship in the master unit is automatically reversed. That is, by inverting the first energized state and the second energized state,
The electric load on the slave unit and each energized state on the master unit can be set to a suitable state, and the connection relationship between the master unit side connection terminal and the slave unit side connection terminal becomes substantially correct.

〔The invention's effect〕

Therefore, even if the slave unit has a directivity for energization with respect to the transmission with respect to the master unit and the electric loads are different from each other in different energized states, the two units on the master unit side are considered in construction. There is no regulation on the connection between the connection terminal and the two connection terminals on the cordless handset side. As a result, the trouble caused by the incorrect connection can be eliminated, and the electric wire connection construction itself can be simplified. .

[First Embodiment] Next, a first embodiment of the present invention will be described with reference to FIGS. 1 to 4.

In FIG. 1, (1) is a master unit that executes various operations, (2) is a slave unit as a display that remotely displays the operating state of the master unit (1), and the master unit (1) is , A control circuit (3) for operation control and a constant current power supply circuit (4) for operating the slave unit, while the slave unit (2) displays the operating state of the master unit (1). It is equipped with first and second LEDs (5), (6).

Further, the master unit (1) is provided with a first connection terminal (7) and a second connection terminal (8) for connecting the slave unit, and the slave unit (2) is provided with the first connection terminal (7) of the master unit (1). A third connection terminal (9) connected to the first connection terminal (7) and a fourth connection terminal (10) connected to the second connection terminal (8) are provided, and the main unit side connection terminal (7), By connecting two electric wires (11) and (12) for remote operation between (8) and the connection terminals (9) and (10) on the slave side, the master (1) and the slave ( 2) is electrically connected to.

Specific operations (see FIG. 2) are: (a) When the master unit (1) is in the operation stop state, the first and second slave units for operating the slave unit in the control circuit (3) of the master unit (1). Both the output terminals (13) and (14) are in the HIGH state, which is why the first and second transistors (1
Each of 5) and (16) is turned off, and power transmission from the constant current power supply circuit (4) to the slave unit (2) is cut off.
In the slave unit (2), both the first LED (5) and the second LED (6) are turned off.

(B) When the master unit (1) is in the operation start standby state as the first energized state, the first output terminal (13) is in the HIGH state and the second output terminal (14) is in the LOW state. , From that, the first and fourth transistors (15),
(18) is turned off and the second and third transistors (1
When 6) and (17) are turned on, the second transistor (16), the second connection terminal (8), one electric wire (12), and the fourth connection terminal (10) are connected to the slave unit (2). , The third diode (D ₃ ),
Second LED (6), first diode (D ₁ ), third connection terminal (9), first connection terminal (7), third transistor (1
The current from the constant current power supply circuit (4) flows in the order of 7) and ground (19), and only the second LED (6) lights up.

That is, the operation start standby state is displayed by turning on the second LED (6).

(C) Then, when the master unit (1) enters the operating state as the second energization state, the polarity reversing circuit (20) in the control circuit (3) performs the reversing operation (the connecting state shown by the broken line in the figure) and 1
The output terminal (13) is in the LOW state, and the second output terminal (14) is in the HIGH state. Therefore, the first and the fourth
The transistors (15) and (18) are turned on, the second and third transistors (16) and (17) are turned off, and the first transistor (15) and the first connection are made to the child device (2). Terminal (7), other electric wire (11), third connection terminal (9), second diode (D ₂ ), first LED (5), second LED (6), fourth diode (D ₄ ), fourth The current from the constant current power supply circuit (4) flows in the order of the 4 connection terminal (10), the 2nd connection terminal (8), the 4th transistor (18), and the ground (19).
2LEDs (5) and (6) both light up.

That is, the operating state is displayed when the first LED (5) is lit.

When the polarity reversing circuit (20) is in the reverse operation (the first output terminal (13) is in the LOW state and the second output terminal (14) is in the HIGH state) The voltage (V ₁ ) at the 1 connection terminal (7) and the non-inversion operation of the polarity inversion circuit (20) (the first output terminal (13) is in the HIGH state, and
Detects the voltage (V ₂ ) at the second connection terminal (8) when the second output terminal (14) is in the LOW state) and compares the detected voltages (V ₁ ) and (V ₂ ) A discriminating circuit (21) for discriminating whether or not the connection state between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is correct based on When the machine (1) enters the operation start standby state from the operation stop state, the connection state determination by the determination circuit (21) is executed every time, and the first and second output terminals (13), ( 14) LOW for remote control
・ High output form is discriminated. Control circuit according to the connection state (3)
It is designed to be automatically corrected within.

Specific determination operations and correction operations (see FIG. 3) include (a) when the master unit (1) makes a transition from the operation stop state to the operation start standby state, prior to the execution of the transition, First, in the control circuit (3), the lighting operation and the extinguishing operation of the first LED (5) are automatically executed on a trial basis regardless of the actual operating state of the master unit.

That is, the polarity reversing circuit (20) is operated to invert so that the first output terminal (13) is in the LOW state, and the second output terminal (1
4) to the HIGH state and the operation to reset the polarity inversion circuit (20) to bring the first output terminal (13) to the HIGH state and the second output terminal (14) to the LOW state. It is executed automatically.

(B) At that time, the voltage (V ₁ ) at the first connection terminal (7) at the time of the first LED lighting operation in which the polarity reversing circuit (20) is reversed and the polarity reversing circuit (20) are restored. The discrimination circuit (21) detects each of the voltages (V ₂ ) at the second connection terminals (8) at the time of operating the turned off first LED.

Then, in the discrimination circuit (21), the detected voltages (V ₁ ) and (V ₂ ) are compared in magnitude, and the comparison result is V ₁ > V ₂
If it is, the connection state between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is proper (the third connection to the first connection terminal (7)). It is determined that the terminal (9) is connected and the fourth connecting terminal (10) is connected to the second connecting terminal (8)), while the comparison result is V ₁ <V ₂ . If there is, the connection terminal (7) on the base unit side,
The connection state between (8) and the connection terminals (9) and (10) on the cordless handset is improper (4th connection terminal (10) to 1st connection terminal (7))
Is connected, and the third connection terminal (9) is connected to the second connection terminal (8), which is the connection state shown by the dashed line in the figure).

That is, if the connection state between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is proper, the first L
The voltage (V ₁ ) at the first connection terminal (7) during the ED lighting operation is at the first LED (5) rather than the voltage (V ₂ ) at the second connection terminal (8) during the first LED off operation. Although it is a high value by the voltage drop of, the main unit side connection terminal (7),
If the connection state between (8) and the connection terminals (9), (10) on the cordless handset is not appropriate, conversely to the above, during the first LED lighting operation (first
1st connection terminal (7) in 1LED (5) does not light up
Voltage in (V _1), at the time of first 1LED off operation (the 1LED (5) is on) the voltage at the second connection terminal (8) in (V ₂₎
By utilizing the fact that the value becomes lower than the voltage drop in the first LED (5), the two detection voltages (V ₁ ) and (V ₂ ) as described above are used.
By comparing the magnitudes of the above, it is possible to determine whether or not the connection state between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is correct. Therefore, the cordless handset (2)
In each of the operation start standby state and the operation state, the electric loads are different from each other, so that there is a directivity in energization.

(C) When the discriminating circuit (21) discriminates that the connection state between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is proper, In response to the determination result, the control circuit (3) sets the first output terminal (13) to the HIGH state and the second output terminal (14) to the LOW state in the operation start standby state, and the polarity in the operation state. Reverse the inverting circuit (20) to output the first output terminal (13).
Is set to the LOW state and the second output terminal (14) is set to the HIGH state, while the original LOW / HIGH output form as shown in FIG. Execute the transition from the start standby state to the operating state.

(D) On the other hand, when the discriminating circuit (21) discriminates that the connection state between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is incorrect. In response to the determination result, the control circuit (3) inverts the operation form of the polarity reversing circuit (20) by the correction circuit (22) and inverts the polarity reversing circuit (20) in the operation start standby state. Then, the first output terminal (13) is set to the LOW state, the second output terminal (14) is set to the HIGH state, and the polarity reversing circuit (20) is restored in the operating state to restore the first output terminal (13). ) Is set to HIGH and the second output terminal (14)
To the LOW state, as shown in FIG.
After the HIGH output form is automatically inverted, the transition to the operation start standby state and the transition from the operation start standby state to the operation state are executed.

In other words, when the connection between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is incorrect due to a mistake in connecting the electric wires (11) and (12), it is determined. Based on the connection state discrimination by the circuit (21), the LOW / HIGH from the first and second output terminals (13), (14) by the correction circuit (22) as described above.
By automatically reversing the output form, the electrical relationship between the first connection terminal (7) and the second connection terminal (8) in the master unit (1) is reversed, and thus the master unit (1) and The connection relationship with the slave unit (2) is substantially correct so that the subsequent operation start standby state and the operation state can be correctly displayed regardless of connection mistakes of the electric lines (11) and (12).

As a specific example of the master unit (1) and the slave unit (2), the main body (1) is a water heater main body whose operation start standby state is the hot water supply start standby state and whose operation state is the hot water supply state. As an example, the case where the child device (2) is a remote display that displays the operating state of the water heater body can be given.

[Second Embodiment] Next, a second embodiment of the present invention will be described with reference to FIGS.

In FIG. 5, (1) is a master unit similar to the first embodiment, and (2) is a remote control function for the master unit (1) in addition to the function of remotely displaying the operating state of the master unit (1). It is a slave unit as a remote controller to which is added.

The slave unit (2) is provided with a changeover switch (23) and an operation stop circuit (24) in addition to the configuration of the first embodiment, and the master switch is operated by the changeover operation of the changeover switch (23). The machine (1) is switched between an operation stop state and an operation start standby state.

In the circuit for operation stop (24), the first resistance (R ₁ ) is the first L
The second resistor (R ₂ ) has a resistance value that causes a voltage drop equal to that of ED (5), and the second resistor (R ₂ ) has a fourth connection terminal (10), 7 diode (D ₇ ), 2nd resistance (R ₂ ), 5th diode (D ₅ ),
The voltage drop when the changeover switch (23) and the third connection terminal (9) flow in this order is the third connection terminal (9) and the changeover switch (2
3), a second diode (D _2), the 1LED (5), first 2LED
(6), the fourth diode (D ₄ ) and the fourth connection terminal (10) have a resistance value that becomes larger than the voltage drop when a constant current flows in this order.

That is, in this example, even when the operation is stopped, one of the first output terminal (13) and the second output terminal (14) is
LOW, which puts the HIGH state and the other in the LOW state.
When the HIGH output form is taken (in other words, the energization of the slave unit (2) is executed even in the operation stopped state), when the resistance value of the second resistor (R ₂ ) is set as described above, Regardless of the direction of current flow, the voltage (V ₃ ) generated at the first connection terminal (7) or the voltage (V ₃ ) generated at the second connection terminal (8) when the changeover switch (23) is on the NC side. ₄ ) is higher (V ₃ ) than the voltage (V ₁ ) generated at the first connection terminal (7) or the voltage (V ₂ ) generated at the second connection terminal (8) when the selector switch (23) is on the NO side (V ₃ , V ₄ > V ₁ ,
V ₂ ) will be.

Therefore, the switching operation state of the changeover switch (23) is discriminated on the side of the master unit (1) by detecting the high voltages (V ₃ ) and (V ₄ ) and the first connection terminal (7) Or a high voltage (V ₃ ) at the second connection terminal (8),
When (V ₄ ) is detected, it is assumed that the changeover switch (23) is on the NC side, so that the main unit (1) itself puts its operation state into an operation stop state, and the first connection terminal (7) or 2 When low voltage (V ₁ ) or (V ₂ ) is detected at the connection terminal (8), it is assumed that the changeover switch (23) is on the NO side, and the operating state of the main unit (1) itself is set to the operation start standby state. I am doing it.

Although a specific circuit in the parent device (1) for determining the switching operation state of the changeover switch (23) as described above is not shown, it is also used as a determination circuit (21) for determining the connection state described later. Then, the switching operation state of the changeover switch (23) may be determined, or a dedicated determination circuit for determining the switching operation state may be separately provided.

On the other hand, in the present example, in the master unit (1), when the operation is stopped (the changeover switch (23) is on the NC side), the polarity reversing circuit (20) similar to that of the first embodiment is in the reversing operation state. The voltage (V ₃ ) at the first connection terminal (7) when (the first output terminal (13) is in the LOW state and the second output terminal (14) is in the HIGH state), The polarity reversing circuit (20) is in a non-reversing operating state (the first output terminal (13)
Voltage (V ₄ ) at the second connection terminal (8) when in the HIGH state and the second output terminal (14) is in the LOW state)
Is detected, and based on the comparison of the detected voltages (V ₃ ) and (V ₄ ), the main unit side connection terminals (7) and (8) and the slave unit side connection terminals (9) and (10) A discriminating circuit (21) for discriminating whether or not the connection state is correct is provided, and the discriminating circuit (21).
The LOW / HIGH output form for operating the slave unit from the first and second output terminals (13) and (14) is already discriminated in the operation stop state based on the connection state discrimination result by I'm trying to let you do it.

That is, the polarity reversing circuit (20) is experimentally reversed and restored in the operation stopped state in which the changeover switch (23) is switched to the NC side, and the first connection terminal (7) when the reverse operation is performed. The discriminating circuit (21) is caused to detect the voltage (V ₃ ) at the voltage (V ₃ ) and the voltage (V ₄ ) at the second connection terminal (8) at the time of the recovery operation, and the discriminating circuit (21)
In comparison, the two detection voltages (V ₃ ) and (V ₄ ) are compared in magnitude, and if the comparison result is V ₃ > V ₄ , the connection terminals (7) and (8) on the base unit side and the handset unit Side connection terminals (9), (10)
Is properly connected (the third connection terminal (9) is connected to the first connection terminal (7), and the fourth connection terminal (10) is connected to the second connection terminal (8)) State), and when the comparison result is V ₃ <V ₄ , the main unit side connection terminals (7) and (8) and the slave unit side connection terminals (9) and (10) Is not properly connected (the fourth connection terminal (10) is connected to the first connection terminal (7), and the third connection terminal (9) is connected to the second connection terminal (8)) It is discriminated that it is in a connection state as shown by the one-dot chain line in the figure).

That is, if the connection state between the master unit side connection terminals (7) and (8) and the slave unit side connection terminals (9) and (10) is proper, when the polarity reversing circuit (20) is reversed. The voltage (V ₃ ) at the first connection terminal (7) is higher than the first resistance (R ₄ ) than the voltage (V ₄ ) at the second connection terminal (8) when the polarity inverting circuit (20) is reset. _{Although the} value becomes higher by the amount of voltage drop in ₁ ), if the connection state between the master unit side connection terminals (7) and (8) and the slave unit side connection terminals (9) and (10) is incorrect, Contrary to the above, the voltage (V ₃ ) at the first connection terminal (7) when the polarity reversing circuit (20) is operated to be reversed is the first voltage when the polarity reversing circuit (20) is operated to recover. By utilizing the fact that the voltage is lower than the voltage (V ₄ ) at the 2nd connection terminal (8) by the voltage drop at the first resistor (R ₁ ), both detection voltages (V ₃ ), ( V ₄ The base-side connection terminal by the magnitude comparison (7), (8) and the slave unit side connection terminal (9), are so as to determine whether the correct connection state of the (10).

Then, the discriminating circuit (21) causes the base unit side connection terminal (7),
When it is determined that the connection state between (8) and the connection terminals (9) and (10) on the slave unit side is proper, the control circuit (3) receives the determination result, and the control circuit (3) stops the operation and waits for the start of operation. In both states, the first output terminal (13) is set to the HIGH state, the second output terminal (14) is set to the LOW state, and the polarity reversing circuit (20) is operated to reverse the first output in the operating state. The original LOW / HIGH output mode (see FIG. 6) is adopted in which the terminal (13) is set to the LOW state and the second output terminal (14) is set to the HIGH state.

On the other hand, the discriminating circuit (21) causes the base unit side connection terminal (7),
When it is determined that the connection state between (8) and the slave unit side connection terminals (9) and (10) is incorrect, the control circuit (3) receives the determination result, and the correction circuit (22) The operation form of the polarity reversing circuit (20) has already been reversed from the operation stopped state, and the polarity inversion circuit (20) is set to the reversing operation state in both the operation stopped state and the operation start standby state, and the first output terminal (13) Is set to the LOW state, the second output terminal (14) is set to the HIGH state, and the polarity reversing circuit (20) is reset in the operating state to make the first output terminal (13) HI.
The inverted LOW / HIGH output form (see FIG. 7) is adopted in which the GH state is set and the second output terminal (14) is set to the LOW state.

In short, in this example, although the selector switch (23) for operating the master unit (1) is provided on the energization circuit of the slave unit (2), the selector switch (23) is NO.
In the operation stop state before the switching operation to the side,
It is possible to determine whether or not the connection state of the parent device (1) and the child device (2) is correct, and when the connection state is incorrect, the parent of the first connection terminal (7) and the second connection terminal (8) By automatically reversing the electrical relationship in the machine (1), the connection relationship can be made substantially correct.

Incidentally, FIG. 6 shows the original LOW / HIGH output form when the connection relationship between the master unit (1) and the slave unit (2) is correct, and
Fig. 7 shows LOW / HIGH when the connection relationship between the master unit (1) and the slave unit (2) is incorrect and correction is performed by automatic inversion.
The output form is shown, but in each case the changeover switch (2
When 3) is switched to the NO side and the master unit (1) enters the operation start standby state, the second LED (6) lights up and the second LED
The lighting of (6) indicates that the main unit (1) is in the operation start standby state, and when the main unit (1) enters the operating state, the second LED (6) and the first LED (5) are turned on. The first
The lighting of the 1 LED (5) indicates that the master unit (1) is in the operation start standby state.

[Other Examples]

 Next, other examples of the present invention will be listed.

(A) As a current having a specific directionality, a constant voltage is applied from the master unit (1) to the slave unit (2), and as a result of the current flow, the directionality of the carried current and the slave unit (2). By detecting the difference in the current value that occurs depending on whether or not the directionality of the main unit side connection terminal (7),
You may make it discriminate | determine whether the connection relationship of (8) and the connection terminal (9), (10) of a cordless handset is correct.

(B) Further, the slave unit (2) is provided with an element or a circuit that allows a current containing an AC component energized in the forward direction to pass therethrough but does not pass a current containing an AC component energized in the reverse direction. When a current containing an AC component is applied from the master unit (1) to the slave unit (2) as the current having the directionality of, the directionality of the carried current and the slave unit (2) By detecting whether or not there is an energization blocking of an AC component generated depending on whether or not the directionality of the master unit side connection terminals (7) and (8) and the connection terminal (9) of the slave unit side, It may be possible to determine whether or not the connection relationship with (10) is correct, and the energization having a specific directionality is performed from the master unit (1) to the slave unit (2), and the energization result is obtained. , It was used for the incompatibility between the specific direction of energization that was carried out and the directionality of the handset (2). In order to determine whether or not the connection relationship between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is correct by detecting whether or not an electrical state abnormality has occurred. The specific means (connection state determination means) can be modified in various ways.

(C) First when the connection state determination means determines that the connection relationship between the parent device side connection terminals (7) and (8) and the child device side connection terminals (9) and (10) is incorrect. In order to automatically reverse the electrical relationship between the connection terminal (7) and the second connection terminal (8) in the parent device (1), originally for the operation of the child device as in the first embodiment. Inverting the reversing operation form of the polarity reversing circuit (20) that is installed, so that the LOW / HIGH output form for operating the slave unit from the master unit side control circuit (3) is reversed. Instead, in the master unit (1), the first and second connection terminals (7), (8) are provided between the control circuit (3) and the first and second connection terminals (7), (8).
A configuration may be adopted in which a separate switching circuit for inverting the connection relationship with respect to (8) is provided, and the connection relationship is inverted by the switching circuit only for correction of a terminal connection error.
The specific means (correction means) for automatically reversing the electrical relationship between the connection terminal (7) and the second connection terminal (8) in the parent device (1) can be modified in various ways. .

(D) The present invention is not limited to the water heater main body and its remote display, or the water heater main body and its remote controller.
It can be applied to remote transmission devices for various applications in various fields.
The relationship between the master unit (1) and the slave unit (2) is such that the master unit (1) is the main device and the slave unit (2) is a subsidiary device such as an indicator or remote controller for the main unit, or , The master unit (1) and the slave unit (2) are equivalent to each other in parallel, and further, the slave unit (2) is the main device, and the master unit (1) is an indicator or remote controller for the main unit. Of the master device (1) regardless of its original device function. To call.

It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the structures of the accompanying drawings by the entry.

[Brief description of drawings]

1 to 4 show a first embodiment of the present invention.
FIG. 4 is a circuit diagram, FIG. 2 is a time chart diagram when the connection state is proper, FIG. 3 is a flow chart diagram, and FIG. 4 is a time chart diagram when the connection state is improper. FIGS. 5 to 7 show a second embodiment of the present invention, FIG. 5 is a circuit diagram, and FIGS. 6 and 7 are time charts when the connection state is proper and when they are improper. (1) …… Main unit, (2) …… Slave unit, (7), (8) ……
Main unit side connection terminals, (9), (10) …… Slave unit side connection terminals,
(11), (12) ... Electric wire, (21) ... Connection state determination means, (22), (20) ... Correction means.

Claims (1)

[Claims] 1. A master unit (1) having first and second connection terminals (7), (8); a third connection terminal (9) to be connected to the first connection terminal (7); A slave unit (2) having a fourth connection terminal (10) to be connected to the second connection terminal (8), a slave unit side connection terminals (7), (8) and a slave unit side connection terminal ( 9), (10) and two electric wires (11),
(12) to connect the parent device (1) to the child device (2) side through one of the electric wires (12) in the first energized state and to the child device (2) side. And a second energization state in which the other electric wire (11) is energized toward the second energization state, and the handset (2) is set to the first energization state and the second energization state. Is a remote transmission device configured so as to have directivity with respect to energization by different electric loads on the slave side in each of the parent devices, the parent device via the two electric wires (11) and (12). The energization with a specific directionality is performed from the machine (1) to the slave unit (2), and as a result of the energization, the specific directionality of the energization performed and the directionality of the slave unit (2) are incompatible. Connection by detecting the occurrence of an abnormality in the energization state due to Connection state determination means (21) for determining whether or not the connection relationship between the terminals (7), (8) and the slave unit side connection terminals (9), (10) is correct, and the connection state determination means (21). ) Determines that the connection relationship between the parent machine side connection terminals (7) and (8) and the child machine side connection terminals (9) and (10) is incorrect, the first connection terminal (7) The parent device (1) is provided with correction means (20), (22) for automatically reversing the electrical relationship between the second connection terminal (8) and the second connection terminal (8) in the parent device (1). Remote transmission device.