JP2004048381A - Interphone device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain a simpler configuration for a control unit without the need for arranging a port and a memory in the control unit for each external terminal. <P>SOLUTION: A control unit 1 is equipped with a set of transmitting blocks comprising a transmission port 3, a transmission memory 9, and a transmission standby memory 8; and a set of receiving blocks comprising a reception port 4, a reception memory 13, and a reception completion memory 12. Transmission gates 5a-5n and reception gates 6a-6n are provided for each communication channel connecting a plurality of external terminals 2a-2n of the control unit 1. Each of transmission gates 5a-5n is connected to the transmission port 3 in parallel, and each of reception gates 6a-6n is connected to the reception port 4 in parallel. Transmission gates 5a-5n are controlled by a transmission gate control circuit 10 to create a transmission path for any of the external terminals 2a-2n, and reception gates 6a-6n are controlled by a reception gate control circuit 14 to create a reception path for any of the external terminals 2a-2n. According to this arrangement, communications can be done. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an intercom apparatus having a plurality of external terminals such as a collective entrance machine and an electric lock, and more particularly to an improvement in a configuration for transmitting and receiving data between an external terminal and a control unit of the intercom apparatus.
[0002]
[Prior art]
In an intercom apparatus having a plurality of external terminals such as a collective entrance machine and an electric lock, the configuration of a control unit for executing data communication is generally configured as shown in the block diagram of FIG. In FIG. 5, reference numeral 41 denotes a control unit, 42a to 42n denote n external terminals connected to the control unit 41, and the control unit 41 has n communication channels to which the external terminals are connected. In addition, a set of a plurality of transmission blocks 46a to 46n having a transmission port 43 (43a to 43n), a transmission memory 44 (44a to 44n), and a transmission standby memory 45 (45a to 45n), and a reception port 47 ( 47a to 47n), a reception memory 48 (48a to 48n), and a set of n reception blocks 50a to 50n having a reception completion memory 49 (49a to 49n). Arrows indicate the flow of signals.
[0003]
The transmission memory 44 is a memory for storing transmission data for one packet to be transmitted, and the transmission standby memory 45 is a queue (first-in first-out) memory for holding transmission data to be processed for transmission. When the transmission memory 44 becomes empty, the next one packet of transmission data is transferred from the transmission standby memory 45 to the transmission memory 44 and transmission is performed, and data to be transmitted is waiting in the transmission standby memory 45. . The data output from the control unit transmission port 43 is transmitted to the reception ports 51 of the external terminals 42a to 42n via the signal lines.
[0004]
The data output from the transmission ports 52 of the external terminals 42a to 42n is sent to the reception port 47 of the control unit via a signal line, and the received data is written to the reception memory 48. It is sent to the completion memory 49. The reception completion memory 49 is constituted by a queue (first-in, first-out) memory for storing reception data for which one packet has been received by the reception memory 48, and the data written in the reception completion memory 49 is sequentially received when the reception is completed. It is processed.
[0005]
[Problems to be solved by the invention]
As described above, in the above-described conventional intercom apparatus, the transmission / reception ports 43 and 47, the transmission memory 44, the reception memory 48, the transmission standby memory 45, and the reception completion memory 49 are provided for each communication channel for connecting an external terminal. The number of ports and memories had to be increased in proportion to the number of channels. Further, when transmitting data, an operation of distributing the transmission data to the transmission memory 44 for each transmission port 43 is required, and an operation of selecting the received reception completion memory 49 is required at the time of data reception processing. Therefore, each process must be performed individually, and the control operation of the control unit 41 is complicated.
[0006]
Therefore, in view of the above problems, the present invention eliminates the need to provide a port and a memory for each terminal in the control unit even if a plurality of external terminals are connected to the control unit. It is an object of the present invention to provide an intercom device that can simplify the above.
[0007]
[Means for Solving the Problems]
In order to solve the above problem, the invention according to claim 1 is an intercom apparatus having a control unit for controlling transmission of data to a plurality of external terminals such as a collective entrance machine, an electric lock, etc. A plurality of transmission gates for connecting and disconnecting the transmission port from an external terminal, and a gate control circuit for controlling the plurality of transmission gates, wherein the gate control circuit is an arbitrary one of the plurality of transmission gates. It is characterized in that one is operated to create a communication path with one external terminal and transmission is possible.
With this configuration, it is possible to transmit data to a plurality of external terminals only by providing one transmission port in the control unit, and it is not necessary to provide a transmission port and a memory for each communication channel connecting the external terminals. Therefore, the number of memories provided in the control unit is the minimum, and the operation of selecting a memory and a port is not required at the time of data transmission, so that the configuration and control operation of the control unit can be simplified. Can be achieved.
[0008]
The invention according to claim 2 is an intercom apparatus having a control unit for controlling data reception from a plurality of external terminals such as a collective entrance machine and an electric lock, wherein the control unit comprises: a reception port; A plurality of reception gates for connecting and disconnecting the plurality of reception gates, and a gate control circuit for controlling the plurality of reception gates. The gate control circuit operates an arbitrary one of the plurality of reception gates, and A communication path is formed with two external terminals to enable reception.
With this configuration, it is possible to receive data from a plurality of external terminals only by providing one reception port in the control unit, and it is not necessary to provide a reception port and a memory for each communication channel connecting the external terminals. Therefore, the number of memories provided in the control unit is the minimum number of memories, and the operation of selecting a memory and a port is not required at the time of data reception. Can be achieved.
[0009]
The invention according to claim 3 is an intercom apparatus having a control unit for controlling transmission of data to a plurality of external terminals such as a collective entrance machine, an electric lock, etc., wherein the control unit comprises: a transmission port; A plurality of transmission gates for connecting to and disconnecting from the transmission gate, and a gate control circuit for establishing a communication path by operating the plurality of transmission gates to enable communication.
With this configuration, it is possible to collectively transmit data with a simple configuration in which one set of transmission port and transmission memory is provided without providing a transmission port and transmission memory for each of a plurality of external terminals, and it takes time to perform batch transmission. Not.
[0010]
According to a fourth aspect of the present invention, there is provided an intercom apparatus having a control unit for controlling transmission and reception of data with a plurality of external terminals such as a collective entrance machine and an electric lock, wherein the control unit comprises a transmission port, a reception port, and the transmission port. A plurality of transmission / reception gates for connecting and disconnecting communication between the reception port and the external terminal, and a communication path with one external terminal by operating an arbitrary one of the plurality of transmission / reception gates to perform communication. And a gate control circuit that enables the following.
With this configuration, it is possible to transmit and receive data to and from a plurality of external terminals simply by providing one transmission port and one reception port in the control unit. A port and a memory are provided for each communication channel connecting the external terminals. There is no need to provide it. Therefore, the memory provided in the control unit requires a minimum number of memories, and the operation of selecting a memory and a port is not required for data transmission / reception. Cost can be reduced.
In addition, by integrating the transmission gate and the reception gate, transmission and reception can be performed with the same gate control, and there is no need to perform gate control independently for transmission and reception. Therefore, the number of gate control circuits for controlling the gate can be reduced by half as compared with the transmission and reception independent type.
[0011]
According to a fifth aspect of the present invention, in any one of the first to fourth aspects of the present invention, the control unit determines a transmission port and / or a reception port, and connects and disconnects the transmission port and / or the reception port with an external terminal. A plurality of communication paths each including a plurality of transmission gates and / or reception gates to be controlled and a gate control circuit for controlling the plurality of transmission gates and / or reception ports, which are connected in parallel; Communication is enabled using any one of the communication paths.
With this configuration, for example, even if one transmission port or reception port is performing communication processing, another communication processing can be executed by another transmission port or reception port, and a plurality of connected external terminals and the control unit are connected. , A parallel communication process can be executed, and a transmission / reception delay due to a waiting time can be reduced.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a first embodiment of an intercom apparatus according to the present invention, and shows a block diagram of a control section for performing data communication with an external terminal, which is a main part of the present invention. In the figure, 1 indicates a control unit, 2a to 2n indicate n external terminals such as a collective entrance machine, an electric lock, a parent device in a living room, and the like, and arrows indicate a flow of data. Note that a CPU, a display unit, an operation unit, and the like are omitted.
[0013]
The control unit 1 has one transmission port 3 and one reception port 4, and the transmission port 3 has a plurality of n transmission gates 5a to 5n connected in parallel to form a data transmission path of a plurality of communication channels. External terminals 2a to 2n are connected to the respective terminals. Similarly, the reception port 4 has n reception gates 6a to 6n connected in parallel, and constitutes a data reception path of each communication channel.
[0014]
The data transmission path includes a transmission standby memory 8 for waiting for a plurality of data to be transmitted, a transmission memory 9 for extracting and storing data to be transmitted from the transmission standby memory 8 for each packet, and transmission gates 5a to 5n. A transmission gate control circuit 10, which is a gate control circuit for controlling, is provided.
The transmission memory 9 has a control information data section 9a and a transmission data section 9b. The control information data section 9a stores information on the external terminals 2a to 2n to be transmitted, and the transmission data section 9b stores a data packet to be transmitted. The stored transmission gate control circuit 10 receives the information of the control information data section 9a of the transmission memory, selects the transmission gates 5a to 5n, and performs a connection operation.
The transmission standby memory 8 is a queue (first-in first-out) memory, and the data is sequentially output from the oldest write data.
[0015]
By configuring the data transmission path in this way, the transmission first stores the control information data and the transmission data to be transmitted to the transmission standby memory 8 and, when the transmission memory 9 becomes empty, the one stored in the transmission standby memory 8. The data is moved to the transmission memory 9 in order from the oldest data. The transmission gate control circuit 10 operates the corresponding one of the plurality of transmission gates 5a to 5n according to the control information data stored in the transmission memory 9 to operate the transmission port 3 and one corresponding external terminal. Secure communication paths. When the communication path is secured, data is transmitted to the receiving port 16 of the communication destination among the external terminals 2a to 2c. When the transmission is completed, the data in the transmission memory 9 is deleted.
[0016]
The reception path includes a reception completion memory 12 for waiting a plurality of data to be received, a reception memory 13 for storing data sent from an external terminal for each packet, and a gate control circuit for controlling the reception gate 6. A certain reception gate control circuit 14 is provided.
The reception memory 13 has a control information data section 13a and a reception data section 13b. The control information data section 13a stores received channel information and the like, and the reception data section 13b stores received data packets. Then, the reception gate control circuit 14 controls the reception gate 6 based on the operation of the transmission gate control circuit 10 and sends the received channel information to the control information data section 13a of the reception memory 13.
Note that the reception completion memory 12 is a queue (first-in first-out) memory, and the data is sequentially output from the oldest write data.
[0017]
By configuring the data reception path in this manner, first, in the reception, information such as a communication channel received from the transmission port 17 of each of the external terminals 2a to 2n is stored in the control information data section 13a of the reception memory 13. 13b stores the received data packet. The received control information and received data are stored one packet at a time in the reception memory 13. When one packet of data is received, the data is sequentially moved to the reception completion memory 12 to empty the reception memory 13 and receive the next data. When performing the receiving process, the process is performed by moving from the oldest data in the receiving completion memory 12.
The selection of the reception gate 6 is maintained until the transmission gate control circuit 10 selects the next transmission gates 5a to 5n.
[0018]
As described above, simply providing the transmission port 3 and the transmission memory 9 or the reception port 4 and the reception memory 13 in the control unit 1 enables transmission or reception of data with a plurality of external terminals. Since there is no need to provide a port and a memory for each communication channel connecting the control unit, the minimum number of memories is required, the configuration of the control unit can be simplified, and the size and cost of the control unit can be reduced.
Further, only by storing data in the transmission standby memory 8, there is no need to select a port corresponding to each communication channel and perform an operation of distributing data to the selected memory, so that the transmission operation can be simplified and an external terminal can be used. When receiving data, the data can be received only by browsing the reception completion memory 12, and the receiving process can be simplified. Therefore, the control operation can be simplified, and the layers can be simplified and the cost can be reduced.
[0019]
Further, the transmission gates 5a to 5n can be connected at the same time without providing a transmission port and a transmission memory for a plurality of external terminals, so that data can be transmitted collectively. Thus, batch transmission can be performed with a simple configuration in which only one set of the transmission port 3 and the transmission memory 9 is provided. As a result, the time for batch transmission can be reduced.
[0020]
FIG. 2 shows a second embodiment of the intercom apparatus according to the present invention. The difference from FIG. 1 is that transmission / reception gates 19a to 19n in which a transmission gate and a reception gate are integrated are provided, and a transmission / gate control circuit 20 is provided in which a transmission gate control circuit and a reception gate control circuit are integrated. The same components as those in FIG. 1 are denoted by the same reference numerals.
As described above, if the transmission gate and the reception gate are integrated, transmission and reception can be performed with the same gate control, and there is no need to perform gate control independently for transmission and reception. Therefore, the transmission / reception gate control circuit 20, which is a gate control circuit, can be reduced to half the transmission / reception independent type.
[0021]
FIG. 3 shows a third embodiment of the intercom apparatus of the present invention. FIG. 3 shows a case in which there are three communication channels, and shows a form in which three external terminals 2 a to 2 c are connected to the control unit 1. The difference from FIG. 1 is that the control unit 1 is provided with two sets of transmission / reception gates including a first gate unit 22 and a second gate unit 23 for each of the external terminals 2a to 2c, Are two communication paths.
The first and second gate units 22 and 23 are provided with three transmission / reception gates 22a to 22c and 23a to 23c respectively corresponding to individual communication channels. A first gate control circuit 26 for controlling the one gate unit 22 is provided to configure a first communication path for an external terminal. Further, the second gate section 23 is provided with a second transmission / reception port 25 and a second gate control circuit 27 for controlling the second gate section 23 to constitute a second communication path for an external terminal, and the first communication path And the second communication path are connected in parallel with each other. The same components as those in FIG. 1 are denoted by the same reference numerals.
[0022]
By providing two communication paths in this manner, even if one transmission / reception port is performing communication processing, that is, one communication path is in use, communication processing can be performed using the other communication path, and parallel communication processing can be performed. Can be executed. Therefore, it is possible to reduce a transmission / reception delay due to a communication waiting time between a plurality of connected external terminals and the control unit.
Despite these excellent effects, it is not necessary to provide a transmission / reception port and a memory for each communication channel for connecting an external terminal. Two transmission / reception gates are provided for each communication channel and two transmission / reception ports are provided. It can be implemented with a simple configuration of providing one.
[0023]
In each of the above embodiments, the configuration of the control unit that transmits and receives data has been described. However, when data is not received from an external terminal, the gate may be configured only with the transmission gate, and the reception gate and the reception gate may be used. There is no need to provide a receiving path such as a port and a receiving memory.
In the configuration of FIG. 3, the number of communication paths provided in parallel is two. However, if the number of communication paths is further increased, the number of communication parallel processes can be increased accordingly. In that case, the corresponding ports and gate control circuits are increased according to the number of gate units.
[0024]
FIG. 4 is an explanatory diagram of an intercom unit for a multi-family house, which further embodies the intercom apparatus shown in FIGS. 1 to 3 above. FIG. 2 shows a schematic diagram of the device. In FIG. 4, reference numerals 31 a to 31 n denote a collective entrance device as an external terminal, 32 denotes an arrival display control device as a control unit, 33 denotes a home delivery locker as an external terminal, 34 denotes a key reader controller as an external terminal, Arrows between indicate the signal flow.
[0025]
Each of the collective entrance machines 31a to 31n has an arrival display section 36 for displaying an arrival when there is a home delivery in the home delivery locker 33, and a key reader 37 for reading an operation of an electric lock (not shown). Is sent to the arrival display control device 32 via the key reader controller 34. In addition, arrival status data is sequentially input from the home delivery locker 33 to the arrival display unit 36, and the key reader 37 and the key reader controller 34 recognize the resident who has passed through the collective entrance machines 31a to 31n. The ID data is transmitted to 32. The ID data is compared with the arrival status of the home delivery locker 33, and for the resident in the arrival state, the fact that the arrival has arrived is displayed on the arrival display section 36 of the corresponding collective entrance machines 31a to 31n.
In the intercom unit for a multi-family housing configured as described above, the arrival display control device 32 can be downsized by applying the configuration of the control unit having the configuration shown in FIGS. 1 to 3 to the arrival display control device 32.
[0026]
【The invention's effect】
As described in detail above, according to the first and second aspects of the present invention, it is possible to transmit or receive data to and from a plurality of external terminals simply by providing one transmission port or one reception port in the control unit, and connect the external terminals. It is not necessary to provide a transmission port, a reception port and a memory for each communication channel to be used. Therefore, the memory provided in the control unit requires a minimum number of memories, and since there is no need to select a memory or a port when transmitting or receiving data, the configuration and control operation of the control unit can be simplified, and the size of the control unit can be reduced. And cost can be reduced.
[0027]
According to the invention of claim 3, data is transmitted collectively with a simple configuration simply by providing one set of transmission port and transmission memory without providing transmission ports and transmission memories to a plurality of external terminals, respectively. Yes, and no time is required for batch transmission.
[0028]
According to the invention of claim 4, it is possible to transmit and receive data with a plurality of external terminals only by providing one transmission port and one reception port in the control unit, and to provide a port and a memory for each communication channel connecting the external terminals. There is no need to provide Therefore, the memory provided in the control unit requires a minimum number of memories, and since there is no need to select a memory and a port when transmitting and receiving data, the configuration and control operation of the control unit can be simplified, and the control unit can be reduced in size and cost. Cost can be reduced.
In addition, by integrating the transmission gate and the reception gate, transmission and reception can be performed with the same gate control, and there is no need to perform gate control independently for transmission and reception. Therefore, the number of gate control circuits can be reduced to half that of the transmission / reception independent type.
[0029]
According to the invention of claim 5, in addition to the effect of any one of claims 1 to 4, for example, even if one transmission port or reception port is in communication processing, another transmission port or reception port is used for another communication. One communication process can be executed, a parallel communication process can be executed between a plurality of connected external terminals and the control unit, and a transmission / reception delay due to a waiting time can be reduced.
[Brief description of the drawings]
FIG.
It is a principal part block diagram which shows 1st Embodiment of the intercom apparatus which concerns on this invention.
FIG. 2
It is a principal part block diagram which shows 2nd Embodiment of the intercom apparatus which concerns on this invention.
FIG. 3
It is a principal part block diagram which shows 3rd Embodiment of the intercom apparatus which concerns on this invention.
FIG. 4
1 shows a specific example of an intercom apparatus according to the present invention, and is a schematic diagram of an intercom apparatus for a multi-family house having a function of notifying home delivery locker information.
FIG. 5
It is a principal part block diagram of the conventional intercom apparatus.
[Explanation of symbols]
1 control unit, 2 external terminal, 3 transmission port, 4 reception port, 5a to 5n transmission gate, 6a to 6n reception gate, 9 transmission memory, 10 transmission Gate control circuit (gate control circuit), 13 reception memory, 14 reception gate control circuit (gate control circuit), 19a to 19n transmission / reception gate, 20 transmission / reception gate control circuit (gate control circuit), 22 ..First gate section, 22a to 22c transmission / reception gate, 23 second gate section, 23a to 23c transmission / reception gate, 24 first transmission / reception port, 25 second transmission / reception port, 26 First gate control circuit, 27 second gate control circuit, 31a to 31n, entrance hall (external terminal), 32 arrival display device (control unit), 33 home delivery locker (external terminal), 34 ..Kiri Dah controller.

Claims (5)

In an intercom apparatus having a control unit for controlling data transmission to a plurality of external terminals such as a collective entrance machine and an electric lock,
The control unit includes: a transmission port; a plurality of transmission gates for connecting and disconnecting the transmission port from the external terminal; and a gate control circuit for controlling the plurality of transmission gates. Operates an arbitrary one of the plurality of transmission gates to form a communication path with one external terminal, thereby enabling transmission. In an intercom apparatus having a control unit for controlling data reception from a plurality of external terminals such as a collective entrance machine and an electric lock,
The control unit includes a reception port, a plurality of reception gates for connecting and disconnecting the reception port to and from the external terminal, and a gate control circuit for controlling the plurality of reception gates. Operates an arbitrary one of the plurality of reception gates to form a communication path with one external terminal to enable reception. In an intercom apparatus having a control unit for controlling data transmission to a plurality of external terminals such as a collective entrance machine and an electric lock,
The control unit includes a transmission port, a plurality of transmission gates for connecting and disconnecting the transmission port from the external terminal, and a gate for enabling communication by forming a communication path by operating the plurality of transmission gates. An intercom device comprising a control circuit. In an intercom apparatus having a control unit for controlling transmission and reception of data with a plurality of external terminals such as a collective entrance machine and an electric lock,
The control unit includes: a transmission port and a reception port; a plurality of transmission / reception gates for connecting and disconnecting communication between the transmission port and the reception port and the external terminal; and any one of the plurality of transmission / reception gates And a gate control circuit that enables communication by making a communication path with one external terminal by operating the communication terminal. The control unit includes: a transmission port and / or a reception port; a plurality of transmission gates and / or reception gates for connecting and disconnecting the transmission port and / or the reception port to the external terminal; And / or a plurality of sets of communication paths including a gate control circuit for controlling a reception port,
The intercom apparatus according to any one of claims 1 to 4, wherein they are connected in parallel, and communication can be performed using any one of the communication paths.

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