JPH0622108U - Receiver for remote control of vehicle load - Google Patents

Abstract

(57) [Summary] [Purpose] A large number of vehicle loads can be remotely controlled by a wireless signal from the outside while having a simple and space-saving configuration. [Construction] Vehicle loads such as a door node 2, a meter node 3 and an air conditioner node 4 are connected to a vehicle via a multiplex bus line 8. A wireless node 7 including a transmitting / receiving circuit 9 and a control circuit 10 is connected to the multiplex bus line 8 and receives a wireless signal from the outside. Remote control 1
When the wireless signal is output from 1, the wireless signal is received by the transmission / reception circuit 9 via the antenna 9a, demodulated to the control circuit 10, and output. After the control circuit 10 collates the identification code,
The control signal of the load corresponding to the multiplex bus line 8 is converted and transmitted to the multiplex bus line 8. Each node 2, 3, 4
Identifies the control signal applied to itself and detects the loads 2c, 3
Drive control of c and 4c. It is possible to drive and control a large number of vehicle loads with a simple and space-saving configuration in which only the wireless node 7 is provided.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention is for a vehicle having multiple transmission lines that are commonly connected to a plurality of vehicle loads via drive circuits, and that control signals are transmitted via the multiple transmission lines. The present invention relates to a remote control receiver for a load.

[0002]

[Prior art]

 In vehicles such as automobiles, a large number of electrically driven vehicle loads are provided. For example, there are many door lock mechanisms, power window drive mechanisms, door mirrors, stereos, etc. Usually, the drive control is possible by operating each operation switch or the like arranged in the vehicle compartment.

By the way, when the number of vehicle loads to be drive-controlled increases, the number of wires between each vehicle load and the corresponding operation switch section also increases, which complicates the wiring work and makes wiring. There is a problem that the space becomes large. Therefore, in recent years, in order to reduce the space of wiring, each vehicle load and the operation switch are commonly connected by one multi-transmission path, and the control relating to the drive operation of the vehicle load is performed. There is one in which signals are transmitted and received through this multiplex transmission line.

In this case, each vehicle load is connected to the multiplex transmission line via a control circuit, and the load control signal is converted into a signal that can be transmitted and received on the multiplex transmission line by the control circuit for communication. I am supposed to do it. That is, for example, an address code is set for each of the vehicle load and the operation switch, and each control circuit, when outputting the control signal to the multiplex transmission line, controls the transmission side and the reception side with the address code. In order to prevent multiple control signals from being output overlapping the multiplex transmission line, for example, when one control signal is output to the multiplex transmission line, other control signals are not output. Divided control is performed.

Then, when the control signal transmitted to the multiplex transmission path includes its own address code, the control circuit accepts the control signal to reduce the load on the vehicle connected to the control circuit. The drive can be controlled.

[0006] On the other hand, recently, there is one in which drive control of a vehicle load is performed by a remote operation from the outside of the vehicle by a remote controller or the like. This is because, for example, a receiving circuit is provided in the drive circuit section of the door lock mechanism, and when a wireless signal transmitted from a remote control transmitter built into a vehicle key or the like is received, the door lock mechanism is driven to lock or It is designed to perform the unlock operation.

In this case, the receiving circuit is provided with an identification function for recognizing that the received wireless signal is a wireless signal addressed to itself, and for example, it compares with a preset identification code. By doing so, only the wireless signal addressed to itself is identified and the door lock mechanism is driven and controlled.

[0008]

[Problems to be solved by the device]

 However, in such a conventional configuration, for example, when the target of vehicle loads to be controlled by remote control from the outside of the vehicle increases, a receiver is provided corresponding to each vehicle load drive circuit. , It is necessary to set the identification code for each receiver to prevent malfunction. Therefore, in order to expand the functions in this way, it is necessary to provide a receiver for each vehicle load, and as a whole the drive circuit section of each vehicle load is enlarged and the load between vehicle loads is increased. Since the configuration for obtaining mutual information etc. becomes complicated, the functions that can be expanded are limited in practical use.

The present invention has been made in view of the above circumstances, and an object thereof is a vehicle capable of remotely controlling a large number of vehicle loads by a wireless signal from the outside while having a simple and space-saving configuration. In order to provide a remote control receiving device for a load.

[0010]

[Means for Solving the Problems]

 The remote control receiving device for vehicle loads according to the present invention has multiple transmission lines commonly connected to a plurality of vehicle loads via drive circuits, and control signals are transmitted through the multiple transmission lines. Is intended to control the drive by transmitting the radio signal received by the receiver and the receiver installed in the vehicle for receiving a radio signal for controlling the load from the outside. It is characterized in that it is provided with a control means for converting into a control signal that can be transmitted to the multiplex transmission path and outputting it.

[0011]

[Action]

 According to the remote control receiving device for a vehicle load of the present invention, when the receiver receives the wireless signal for controlling the vehicle load transmitted from the remote controller or the like, the receiver gives the wireless signal to the control means. When receiving the control wireless signal, the device converts the control wireless signal into a control signal that can be transmitted to the multiplex transmission line and transmits the control signal to the multiplex transmission line. As a result, in the case of multiple vehicle loads connected to the multiplex transmission path, if it is identified as a control signal assigned to itself, for example, drive control of the load is performed according to the control content of the control signal. Like That is, a radio signal for controlling the vehicle load from the outside is received by the receiver, and on the vehicle side, the control means transmits the control signal via the multiplex transmission path to transmit the control signal to the corresponding vehicle load. Since it is provided, a large number of vehicle loads can be remotely controlled targets with a simple structure and space saving.

[0012]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings. First, in FIG. 2 conceptually showing the entire system, as a number of vehicle loads arranged in various parts of the vehicle 1, for example, a door lock mechanism, a door mirror drive mechanism, a power window drive mechanism, various meters, an air conditioner, etc. A drive control unit is provided in each of the stereo, the seat drive mechanism, etc., and a door node 2, a meter node 3, an air conditioner node 4, a stereo node 5, and a seat node 6 are set corresponding to the drive control units. In addition, wireless nodes 7 to be described later are set, and these nodes 2 or 7 are commonly connected by a multiplex bus line 8 as a multiplex transmission line.

Corresponding address codes are set in the respective nodes 2 to 7, and when communication is performed via the multiplex bus line 8, the address code of itself and the node 2 to which communication is to be performed. Send the control signal or information signal with the address code of the other party of No. 7. Such a signal is transmitted to the multiplex bus line 8 by time division multiplexing, and each of the nodes 2 to 7 transmits and receives the signal at the assigned predetermined timing.

Now, FIG. 1 shows a block diagram of an electrical configuration. In FIG. 1, the wireless node 7 is composed of a transmission / reception circuit 9 as a receiver and a control circuit 10 as a control means. ing. When the transmitter / receiver circuit 9 receives a radio signal transmitted from the outside by the antenna 9a, it demodulates the demodulated signal and gives it to the control circuit 10, and also modulates the signal given from the control circuit 10 to convert it into a radio signal. This is output from the antenna 9a to the outside. The control circuit 10 converts the demodulated signal from the transmission / reception circuit 9 into a signal that can be transmitted to the multiplex bus line 8 according to a program stored in advance, outputs the signal, and supplies the signal via the multiplex bus line 8. The converted signal is converted to a wireless signal and given to the transmission / reception circuit 9.

The door node 2, the meter node 3 and the air conditioner node 4 are configured as follows (the stereo node 5 and the seat node 6 are not shown in FIG. 1). That is, each of the nodes 2, 3 and 4 is composed of control circuits 2a, 3a and 4a for exchanging signals via the multiplex bus line 8 and drive circuits 2b, 3b and 4b connected to these. The drive circuit 2b is connected to a door load drive mechanism 2c that drives a door mirror, a door opening / closing mechanism, a power window, etc., and the drive circuit 3b is connected to a meter load drive mechanism 3c that drives various meters. An air conditioner load drive mechanism 4c such as a car air conditioner is connected to the circuit 4b.

The remote controller 11 that transmits / receives a radio signal to / from the wireless node 7 from the outside has a control circuit and a transmission / reception circuit (not shown) inside and an antenna 11a. Then, when the user operates the remote controller 11, the control circuit outputs a control signal for the load to be controlled to the transmission / reception circuit, and the transmission / reception circuit modulates the carrier wave with the control signal according to the control signal. The signal is converted and output from the antenna 11a.

When a radio signal from the outside is received by the antenna 11a, the remote controller 11 demodulates the signal by the transmitting / receiving circuit and outputs the demodulated signal to the control circuit. The control circuit decodes the signal and transmits the information. Is configured to display or store.

Next, regarding the operation of this embodiment, a reception mode (A) when the wireless node 7 receives a radio signal from the remote controller 11 and a transmission mode (B) when transmitting from the wireless node 7 to the remote controller 11 side. The two modes will be described with reference to the program flow charts shown in FIGS. 3 (a) and 3 (b).

(A) Reception Mode In this mode, for example, when the remote control 11 remotely controls the load to be controlled in the vehicle 1, the user operates the remote control 11 to use the remote control signal as a wireless signal to the antenna. When the wireless signal reaches the wireless node 7 on the vehicle side when output from 11a, the transmitter / receiver circuit 9 demodulates the wireless signal input from the antenna 9a into a remote control signal and outputs it to the control circuit 10. Become.

Upon receiving the remote control signal, the control circuit 10 executes signal processing according to the flowchart shown in FIG. That is, the control circuit 10 first reads the remote control signal (step S1), and compares the identification code included in the remote control signal with the identification code assigned to the own vehicle (step S2). Then, in step S3, if the collated identification codes match, the control circuit 10 determines “YES” as the remote operation signal transmitted to itself, and shifts to step S4. If this is not the case, this program ends and returns, and returns to the signal reception state.

When the control circuit 10 receives the remote control signal transmitted to itself and moves to step S4, the control circuit 10 extracts the control signal from the read remote control signal and addresses code corresponding to the load to be controlled. Is added and converted into a signal that can be transmitted to the multiplex bus line 8, a format conversion is executed corresponding to a predetermined signal format. Next, the control circuit 10 outputs the format-converted control signal to the multiplex bus line 8 (step S6) and transmits it to the corresponding load control circuit.

The control signal transmitted to the multiplex bus line 8 is received by the control circuits 2a to 4a of the respective loads 2 to 4 connected to the multiple bus line 8, and the control signals 2a to 4a of the respective load circuits 2a to 4a self-operate in accordance with a program not shown. It is judged whether or not it is the control signal addressed to it, and this is accepted.

Now, for example, when the control signal transmitted to the multiplex bus line 8 corresponds to the air conditioner node 4, the control circuit 4a accepts the result of collating the address code and receives the corresponding control. As a result, the air conditioner load drive mechanism 4c is driven via the drive circuit 4b. Similarly, when the control signals are received by the control circuits 2a and 3a for the other nodes 2 and 3 as well, the door load drive mechanism 2c and the meter load drive mechanism 3c are drive-controlled via the drive circuits 2b and 3b. It is supposed to be done.

(B) Transmission Mode Next, a case where a response signal or a signal such as information to be transmitted to the remote controller 11 side is transmitted to the multiplex bus line 8 will be described. In this case, when a signal transmitted from any of the loads 2 to 6 or the transmitter (not shown) to the multiplex bus line 8 is input to the control circuit 10, the control circuit 10 causes the control circuit 10 to operate as shown in FIG. Execute the transmission mode according to the program shown in.

That is, the control circuit 10 first reads the input signal (step P 1), and determines whether or not this is a transmission signal for external communication, that is, the signal addressed to itself. It is determined whether or not (step P2). If the received signal is a transmission signal, the control circuit 10 determines “YES” and proceeds to step P 3, and otherwise, determines “NO” and executes the transmission mode program. When it is finished, the signal reception state is restored.

When the control circuit 10 receives the transmission signal and proceeds to step P3, the control circuit 10 performs format conversion of the transmission signal so as to correspond to the wireless signal, and then proceeds to step P4 to respond to the vehicle. Then, the set identification code is added and output to the transmission / reception circuit 9 in the subsequent step P5.

The transmission / reception circuit 9 modulates the carrier wave with the transmission signal given from the control circuit 10 and outputs it as a radio signal from the antenna 9a. When the remote controller 11 receives the wireless signal via the antenna 11a, it demodulates the wireless signal and displays or stores the transmitted information to transmit the information to the user.

According to the present embodiment as described above, the wireless node 7 is provided in the multiplex bus line 8 for transmitting and receiving signals to and from the multiple loads 2 to 6 provided in the vehicle, and the remote control signal from the remote controller 11 is provided. Since it is possible to receive, it is possible to drive and control a large number of loads with a simple configuration in which only the wireless node 7 is provided without providing a remote control transmission / reception device for each load 2 to 6. Therefore, the function of the remote controller 11 can be greatly improved, and the space for the receiving circuit, wiring, etc. in the vehicle 1 can be greatly reduced.

[0029]

[Effect of device]

 According to the vehicle load remote control receiver of the present invention, the vehicle is provided with a receiver for receiving a radio signal for controlling a load from the outside, and the received radio signal can be transmitted to the multiple transmission path. Since the control means for converting into a control signal and outputting the control signal is provided, it is possible to drive and control a large number of loads with a simple configuration without providing a separate receiver for each load provided on the vehicle. It has an excellent effect.

[Brief description of drawings]

FIG. 1 is a system configuration diagram showing an embodiment of the present invention.

FIG. 2 is a conceptual diagram of multiplex transmission.

FIG. 3 is a flowchart of a reception and transmission mode program.

[Explanation of symbols]

2 is a door node, 2c is a door load drive mechanism (vehicle load), 3 is a meter node, 3c is a meter load drive mechanism (vehicle load), 4 is an air conditioner node, 4a is an air conditioner load drive mechanism (vehicle load), 7 is a wireless node,
Reference numeral 8 is a multiplex bus line (multiplex transmission path), 9 is a transmission / reception circuit (receiver), 10 is a control circuit (control means), and 11 is a remote controller.

Claims (1)

[Scope of utility model registration request] 1. A multi-transmission path commonly connected to a plurality of vehicle loads via respective drive circuits, wherein a control signal is transmitted via the multi-transmission path for drive control. In which a receiver is installed in the vehicle for receiving a wireless signal for controlling the load from the outside, and the wireless signal received by the receiver is converted into a control signal that can be transmitted to the multiplex transmission path and output. A remote control receiver for a vehicle load, comprising: