JPH0339972Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a communication device that allows remotely located operators to call each other.

[Technical background of the invention and its problems]

For example, during installation and testing of electric motors and control devices in plants, operators are present at the electric motors and control devices, respectively, and communicate with each other to make adjustments and checks. In this case, the electric motor and control device are often remote from each other.
Operators therefore use on-board handsets, so-called brainstorming devices, to communicate with each other.
These breastplates are connected to batteries and connected to each other by cables, allowing them to send and receive calls at the same time.

When operators located at remote locations communicate using the above-mentioned brainstorming system, unless both operators who are to communicate with each other always have the above-mentioned brainstorming system on their heads, they will not be able to hear each other's voices. If the other operator needed to be called urgently while the other operator was taking off his/her chest, the operator could not contact them, which was a problem. Furthermore, since the battery is always energized, power consumption while waiting for a call is uneconomical, and in conjunction with the problems associated with the above-mentioned call, a simple communication device has been desired.

[Purpose of invention]

This invention was made based on the above circumstances,
The object is to provide a communication device that allows remotely located operators to call each other and that does not consume power while waiting for a call.

[Summary of the idea]

The communication device according to the present invention has a first device that receives power supply from an external source to transmit and receive calls.
a first alarm circuit configured by connecting in series a first Zener diode and a first alarm means that receives power supply from an external source to operate an alarm; 2nd transmitter and receiver
a second alarm circuit formed by connecting in series a second Zener diode and a second alarm means that receives power supply from an external source to operate an alarm; and the first alarm circuit. a cable connecting the first alarm circuit and the second alarm circuit so as to form a series circuit including the second alarm circuit; a power supply inserted into the series circuit; and the first alarm circuit. a lever that operates when the head-mounted transmitter-receiver is placed in the head; the operation of the lever inserts the first head-mounted transmitter-receiver into the series circuit in place of the first alarm circuit; and a lever that operates when the second headphone transmitter/receiver is placed on the head, and the operation of the lever causes the second alarm circuit to switch over in place of the second alarm circuit. a second switching circuit for inserting a headphone transmitter/receiver into the series circuit, and the first alarm circuit and the first switching circuit are attached to the first headphone transmitter/receiver. The second alarm circuit and the second switching circuit are attached to the second headphone transmitter/receiver, and the composite Zener voltage in the series connection of the first and second Zener diodes is equal to the voltage of the power supply. , and the individual Zener voltage of the first and second Zener diodes does not exceed the voltage of the power supply.

[Example of idea]

A communication device according to the present invention will be explained below according to an embodiment shown in FIG. That is, in Fig. 1, 1A,
1B has signal input terminals X _A , Y _A , X _B , and Y _B. For example, there are first and second breasts, the appearance of which is shown in FIG. , it is now possible to receive calls. In Figure 2, 3 is a transmitting microphone, 4
5 is a receiver speaker, 5 is a main body, and 6 is a head band.

Also, 7A and 7B are the first and second breasts 1, respectively.
A, 1B are the first and second callers attached, for example, as shown in FIG.
It has terminals A ₁ to A ₄ and B ₁ to B ₄ .

Terminal A ₁ of the first and second calling devices 7A and 7B,
A ₂ , terminals B ₁ and B ₂ are connected to the first and second breast 1, respectively.
It is connected to the signal input terminals X _A , Y _A , X _B , Y B of A and 1 _B , and the terminals A ₃ , A ₄ and the terminals B ₃ , B ₄ are connected by the cable 8 mentioned above. Further, the first and second callers 7A and 7B have changeover switches 9A and 9B each having terminals a and b and a common terminal c, Zener diodes 10A and 10B, and electronic buzzers 11A and 1.
1B are connected in series, fuses 12A,
12B, bidirectional Zener diode 13A, 13
A protection circuit consisting of B and diodes 14A and 14B is incorporated. In the above, the terminal a of the changeover switch 9A is connected to the terminal _A1 , the terminal b is connected to one end of the alarm circuit, and the other end is connected to the terminal _A2 . Further, the common terminal c of the changeover switch 9A is connected to the anode of the bidirectional Zener diode 13A, and is also connected to the terminal _A3 via the fuse 12A. As shown in FIG. 2, the changeover switch is automatically switched by pushing up a lever H when the operator stands on his or her head. In addition, the other anode of the bidirectional Zener diode 13A is connected to the terminal A ₂ and the caller 7 together with the cathode of the diode 14A.
The anode of the diode 14A is connected to the terminal _A4 . Further, the second paging device 7B is also connected in the same manner as the first paging device 7A, and a battery E as a DC power source is inserted as shown.

The apparatus of this embodiment is constructed as described above. Further, the apparatus of this embodiment will be explained in detail. In other words, the device of this embodiment has a first device that receives power supply from an external source and operates for transmitting and receiving calls.
A breast 1A, a first Zener diode 10A, and a first electronic buzzer 1 that operates as an alarm by receiving power from an external source.
1A connected in series, and a second alarm circuit that receives power supply from an external source and operates to transmit and receive calls.
breast 1B, a second Zener diode 10B, and a second electronic buzzer 1 that receives power supply from the outside and operates as an alarm.
1B connected in series; and the first alarm circuit and the second alarm circuit are connected in series so that a series circuit is configured including the first alarm circuit and the second alarm circuit. It has a cable 8 that connects it to the alarm circuit, a power source E that is inserted into the series circuit, and a lever H that operates when the first breast 1A is placed on the head. The present invention includes a first changeover switch 9A for inserting the first breast 1A into the series circuit instead of the first alarm circuit, and a lever H that operates when the second breast 1B is mounted. A second changeover switch 9B for inserting the second breast 1B into the series circuit instead of the second alarm circuit by the operation of the lever H, and a first and second protection circuit. Consisting of

Here, the first alarm circuit, the first changeover switch 9A, and the first protection circuit cause the first paging device 7 to
The second alarm circuit, the second changeover switch 9B, and the second protection circuit constitute a second paging device 7B.

The first and second paging devices 7A and 7B are attached to the first and second breasts 1A and 1B, respectively.

Next, the operation of this embodiment configured as described above will be described.

<Operating mode 1> Two operators are in remote locations, one operator is loading breast 1A, the other operator is not loading breast 1B, and one operator is loading the other operator. Let's talk about when to call. In this case, the lever H is pushed by the head of the breast 1A, and the terminals a and c of the changeover switch 9A become conductive, and accordingly, a voltage exceeding the Zener voltage of the Zener diode 10B is applied to the caller 7B of the breast 1B. A current is applied to the pager 7B to drive the electronic buzzer 11B. Therefore, the other operator places the breast 1B in response to the call, presses the lever H, and disconnects the paging device 7B corresponding to the breast 1B, allowing both operators to send and receive calls using the breasts 1A and 1B. Become.

Although the case where the breast 1B is on standby has been described above, the same operation can be performed even when the breast 1A is on standby.

<Operating Mode 2> In addition to the above, if both the breasts 1A and 1B are not mounted, no current flows from the power source E to the breasts 1A and 1B, and the electronic buzzers 11A and 11B do not operate. That is, since the configuration is such that current flows only when at least one of the breasts 1A, 1B is used, battery E is less consumed.

The operation of this embodiment includes the above-mentioned operation mode 1,
In addition to operation mode 2, the following operations are included.

Furthermore, driving the electronic buzzer 11B of the paging device 7B on the breast 1B side causes a change in current, producing an operating sound in the breast 1A, allowing the operator to know the operation of the paging device 7B from the breast 1A. Further, even if the breast plates 1A, 1B and the callers 7A, 7B are incorrectly connected, the protection circuit operates and the fuses 12A, 12B can be blown to protect the device.

Here, operation mode 1 and operation mode 2 will be explained in more detail. That is, in operation mode 1, the first breast 1A or the second breast 1B is not mounted. When the first breast 1A is not mounted and the second breast 1B is mounted, a series circuit is constituted by the power supply E, the electronic buzzer 11A, the first Zener diode 10A, the second breast 1B, and the cable 8. Ru. As mentioned above, the electronic buzzer 11A operates in this state because current flows through this series circuit, which means that the Zener voltage of the first Zener diode 10A is lower than the voltage of the power supply E. It shows. The second breast 1B is not listed, and the first
If breast 1A is mounted, power supply E,
Electronic buzzer 11B, second Zener diode 1
0B, the first breast 1A, and the cable 8 constitute a series circuit. As mentioned above, the electronic buzzer 11B operates in this state because current flows through this series circuit, which means that the Zener voltage of the second Zener diode 10B is lower than the voltage of the power supply E. It shows.

On the other hand, operation mode 2 is a case where the first breast 1A and the second breast 1B are not mounted. In this case, the power supply E, the electronic buzzer 11A, the first Zener diode 10A, and the electronic buzzer 11
B, the second Zener diode 10B, and the cable 8 constitute a series circuit. As mentioned above, no current flows through the first breast 1A and second breast 1B, and the electronic buzzer 11A and electronic buzzer 11B do not operate, so in this state, no current flows through this series circuit. It doesn't flow. This indicates that the series combined Zener voltage of the first Zener diode 10A and the second Zener diode 10B is larger than the voltage of the power supply E.

Note that an electric light display or the like may be used instead of the electronic buzzer in the alarm circuit.

In addition to the embodiments described above, the present invention can be modified in various ways without departing from the gist thereof.

[Effect of idea]

As described above, according to the present invention, the first
a first alarm circuit formed by connecting in series a first Zener diode and a first alarm means that receives power supply from the outside to operate an alarm; and a first alarm circuit that receives power supply from the outside and operates for transmitting and receiving. Second
a second alarm circuit formed by connecting in series a second Zener diode and a second alarm means that operates an alarm by receiving power supply from the outside; the first alarm circuit and the second alarm circuit; a cable connecting the first alarm circuit and the second alarm circuit to form a series circuit including the alarm circuit; a power supply inserted into the series circuit; and a cable on which the first breast plate is mounted. It has a lever that operates when the head is tilted, and the operation of the lever causes the first
a first switching circuit for inserting the first breast into the series circuit in place of the alarm circuit; and a lever that operates when the second breast is placed on the head, The operation causes the second
a second switching circuit for inserting the second breast into the series circuit in place of the alarm circuit; the first alarm circuit and the first switching circuit are connected to the first breast; the second alarm circuit and the second switching circuit are attached to the second breast, and the combined Zener voltage in the series connection of the first and second Zener diodes exceeds the voltage of the power supply. In addition, since the independent Zener voltage of the first and second Zener diodes does not exceed the voltage of the power supply, one of the remotely located operators can call the other just by placing the brain on the operator. Since the other party can make calls and communicate with each other by placing the brain board in response to the call, it is possible to make calls and talk with each other very easily, and furthermore, communication that does not consume power while waiting for a call is possible. Equipment can be provided.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of a communication device according to the present invention, and FIG. 2 is a perspective view of the communication device according to the present invention. 1A, 1B...first and second breasts, 7A,
7B...First and second callers, 8...Cable,
9A, 9B...changeover switch, 10A, 10B...
...Zener diode, 11A, 11B...Electronic buzzer, 12A, 12B...Fuse, 13A,
13B... Bidirectional Zener diode, 14...
Diode, E...battery.

Claims (1)

[Scope of claim for utility model registration]
a first alarm circuit configured by connecting in series a first Zener diode and a first alarm means that receives power supply from an external source to operate an alarm; 2nd transmitter and receiver
a second alarm circuit formed by connecting in series a second Zener diode and a second alarm means that receives power supply from an external source to operate an alarm; and the first alarm circuit. a cable connecting the first alarm circuit and the second alarm circuit so as to form a series circuit including the second alarm circuit; a power supply inserted into the series circuit; and the first alarm circuit. a lever that operates when the head-mounted transmitter-receiver is placed in the head; the operation of the lever inserts the first head-mounted transmitter-receiver into the series circuit in place of the first alarm circuit; and a lever that operates when the second headphone transmitter/receiver is placed on the head, and the operation of the lever causes the second alarm circuit to switch over in place of the second alarm circuit. a second switching circuit for inserting a headphone transmitter/receiver into the series circuit, and the first alarm circuit and the first switching circuit are attached to the first headphone transmitter/receiver. The second alarm circuit and the second switching circuit are attached to the second headphone transmitter/receiver, and the composite Zener voltage in the series connection of the first and second Zener diodes is equal to the voltage of the power supply. , and the individual Zener voltage of the first and second Zener diodes does not exceed the voltage of the power supply.