The present invention relates to a seatbelt use-state warning device, particularly to the seatbelt use-state warning device which can indicate the use state of the seatbelt with a warning device such as a LED.
For example, US Patent Application Publication No. 2004/0155765 A1 discloses a technology that the sate of non-use of the seatbelt of the vehicle is warned. Specifically, there are provided at the indicating portion a plurality of LEDs operative to be turned on selectively according to ON/OFF state of the buckle switch provided at the seatbelt, and thereby the state of the seatbelt, namely the state of use and the state of non-use of the seatbelt, is indicated all the time.
The constitution disclosed in the above-described publication provides a kind of failsafe function. Namely, generally, when there exists a malfunction such as a wire breaking, the state of non-use of the seatbelt would not be indicated, and thereby there would be a problem that it would not be determined whether the malfunction has occurred or the seatbelt is in the state of non-use. The constitution disclosed in the above-described publication, however, can solve this problem.
However, the driver would not feel comfortable if the seatbelt state, the state of use and the state of non-use of the seatbelt, is indicated all the time when the power source (for example, an engine) of the vehicle operates. Meanwhile, when it is considered that the reliability of automobile electric components has considerably increased in these days, it would not be appropriate from the human engineering standpoint to give the driver lots of unnecessary stimulations. Particularly, when driving alone, the driver would not feel comfortable that the non-use indication of the seatbelts has been operated when the seatbelt is in the state of non-use.
The present invention has been devised in view of the above-described problem, and an object of the present invention is to provide a seatbelt use-state warning device which can warn the driver properly.
According to the present invention, there is provided a seatbelt use-state warning device, comprising a seatbelt use-state detecting device to detect a use/non-use of a seatbelt of a vehicle, a warning device to warn a driver of a use state of the seatbelt based on a detecting result of the seatbelt use-state detecting device, and a control device to control the warning device, wherein the control device is constituted so as to warn the use state of the seatbelt in a start-warning mode during a specified start-warning period of time after a starting of a power source of the vehicle, to disable the warning by the warning device when the specified start-warning period of time has lapsed after the power source starting, and to enable the warning device to warn the use state of the seatbelt for a specified period of time when the use state of the seatbelt detected by the seatbelt use-state detecting device changes during an operation of the vehicle power source.
Accordingly, since the use state of the seatbelt is indicated in the start-warning mode during the start period of time so that the driver can recognize the state of use of the seatbelt, the driver can properly know the use state of the passenger's seatbelt to confirm the safety at this point. Meanwhile, when the specified start-warning period of time has lapsed after the power source starting, the warning by the warning device is disabled at the specified timing and thereby the driver would not receive unnecessary warning stimulations from the warning device. Herein, the “power source” means mainly the engine of the vehicle, but it should not be limited to the engine. It can be any types of power sources of vehicles, such as an electronic vehicle having no engine. Namely, the present invention can be applied to any vehicles having no engine. Further, the specified start-warning period of time in “a specified start-warning period of time after a starting of a power source of the vehicle” does not necessarily need to be defined by counting from the start point of the power source, but it can include an embodiment where it is define by counting from a certain point when signal states have been stabilized after the power source starting. Also, the start-warning period of time can be determined properly from the human engineering standpoint based on the standard period of time for the drive to drive the vehicle after the cold starting of the power source. Also, the “seatbelt” of the present invention is typically considered to be the seatbelt of the rear seat, but it may also include seatbelts of the driver's seat or the assistant's seat. Further, “warning” of the present invention can be attained typically with the light from the LED and the like, but other means such as the sound from the buzzer and the like can be also applied. Herein, if the duplex system (with both an operational system and a standby system) is applied, the sufficient failsafe function will be provided.
According to a preferred embodiment of the present invention, the control device is constituted so as to warn the use state of the seatbelt in a provisional-warning mode during a specified provisional-warning period of time when the specified start-warning period of time has lapsed after the power source starting, wherein the warning in the provisional-warning mode has a warning stimulation characteristic which is softer than that of the warning in the start-warning mode. Accordingly, since the warning is conducted with the softer warning stimulation for a while after the start-warning period of time has lapsed, the warning of the seatbelt use state can be provided to the driver without giving any too stimulative warning. Herein, “a softer warning stimulation characteristic” means that the output level of the warning device becomes lower, or that the warning style is changed to a less stimulative warning style. Namely, for example, in the warning device having the LED and the buzzer, the brightness level of the LED or the volume level of the buzzer are lowered, or the warning using both LED and Buzzer is changed to the warning using only the LED. Herein, the brightness level may be further lowered in the latter case.
According to another embodiment of the present invention, the control device is constituted so as to enable the warning device in a warning mode to warn the driver of a warning state when the seatbelt is removed from the state of use thereof during the operation of the vehicle power source, and to enable the warning device in a safe mode to warn the driver of a safe state when the seatbelt is applied and changed to the state of use thereof during the operation of the vehicle power source, wherein the warning in the safe mode having the warning stimulation characteristic which is softer than that of the warning in the warning mode. Accordingly, since the warning style is changed according to the changing of the seatbelt use state during the power source operation, the driver can be warned properly according to the state of the seatbelt.
According to another embodiment of the present invention, a specified period of time for which the warning device is enabled in the warning mode is constituted so as to be longer than the specified start-warning period of time. Accordingly, any unnecessarily long warning to the driver can be prevented at the start, while when the seatbelt use state is changed to the state of use, the driver can be warned properly with a sufficiently long period of time.
According to further specific embodiment of the present invention, the specified period of time for which the warning device is enabled in the warning mode is constituted so as to be longer than a specified period of time for which the warning device is enabled in the safe mode. Accordingly, even if there occurs the change in the seatbelt use state during the power source operation, any unnecessarily long warning to the driver can be prevented when the seatbelt use state is changed to the safe state. Meanwhile, when the seatbelt use state is changed to the dangerous state, the driver can be warned properly with a sufficiently long period of time.
According to another preferred embodiment of the present invention, the warning in the warning mode has the warning stimulation characteristic which is harder than that of the warning in the start-warning mode. Accordingly, since the warning stimulation characteristic in the warning mode is harder than that of the warning in the start-warning mode, the proper warning can be provided to the driver when it should be necessary. Herein, “a harder warning stimulation characteristic” means that the output level of the warning device becomes greater, or that the warning style is changed to a more stimulative warning style. Namely, for example, in the warning device having the LED and the buzzer, the warning with both the LED and the buzzer is provided at the same time, the brightness level of the LED is increased or the LED is turned on and off, or the volume level of the buzzer is increased.
According to further another embodiment of the present invention, the warning in the warning mode has the warning stimulation characteristic which is harder than that of the warning in the safe mode. Accordingly, since the warning stimulation characteristic in the warning mode is harder than that of the warning in the safe mode, the proper warning can be provided to the driver when it should be necessary.
According to another preferred embodiment of the present invention, the above-described respective devices comprise the followings. Namely, the seatbelt use-state detecting device comprises a buckle point switch, the warning device comprises an indication panel, a lamp, or a buzzer. The control device comprises a microprocessor.
Other features, aspects, and advantages of the present invention will become apparent from the following description which refers to the accompanying drawings.
Hereinafter, preferred embodiments of the present invention will be described referring to the accompanying drawings. It should be understood that even though embodiments are separately described, single features thereof may be combined to additional embodiments.
The seatbelt warning device 10 of the present embodiment comprises an indicating panel 11, a buzzer 12 provided at the indicating panel 11, and lamps 14, 15 stored in the indicting panel 11.
The indicating panel 11, a thin case member, includes a plate member 11a which is laterally long at its face. The plate member 11a is made from an dark-colored acryl resin material, and there is provided an indication 11b of a white-colored print “REAR”, which means the rear seat, at one end side (a left side end in the figure) of the plate member 11a. At the right side of the indication 11b are provided a plurality of passenger's illustrations 11c which correspond to the number of the seatbelt provided. These portions are constituted so as to be transparent for lights of the respective lamps 14, 15.
The buzzer 12 is located in a portion where it can not be easily recognized.
A pair of the lamps 14 and 15, which are made of LED, are provided as one set for each of the illustrations 11c. Herein, for example, the lamp 14 is a green lamp which means that the seatbelt is in the state of use, while the lamp 15 is a red lamp which means that the seatbelt is in the state of non-use.
A microprocessor 20 is installed in the indicating panel 11 as a control device to control the buzzer 12 and the lamps 14, 15, as illustrated in
As illustrated in
The Memory 22 comprising ROM and Ram includes memory area for a program to perform a flowchart, which will be described below, and for data. In the present embodiment, the program stored in the Memory 22 includes a start-warning mode to warn at a starting of an engine as a power source of the vehicle, a provisional-warning mode to keep warning provisionally during a specified period of time after the start-warning mode is finished, a warning mode to warn when the seatbelt is removed from its state of use, and a safe mode to warn when the seatbelt is applied and changed to its state of use.
The start-warning mode is the one where the seatbelt use state is indicated only by the lamps 14, 15.
The provisional-warning mode is the one where the state of the start-warning mode is performed provisionally with a softer warning stimulation characteristic. The warning with the softer warning stimulation characteristic can be attained, for example, by the warning with a reduced brightness of the lamps 14, 15.
The warning mode is the one where the state of the seatbelt (the state of non-use of the seatbelt) is warned with the harder warning stimulation characteristic. The warning with the harder warning stimulation characteristic in the warning mode can be attained, for example, by the warning with a twice warning by the buzzer 12 and with an increased brightness of the lamp 15.
The safe mode is the one where the use state of the seatbelt is warned with another softer warning stimulation characteristic. The warning with this another softer warning stimulation characteristic in the safe mode can be attained, for example, by the warning with once warning by the buzzer 12 and with an increased brightness of the lamp 14.
Herein, respective warning period of times t1, t20, t21 and t22, for which the warning is enabled, are set for the above-described respective modes.
In the start-warning mode, the start-warning period of time t1 is set and this period of time is counted up with a counter by the program in which the counter value C is set so as to be a specified value C1 in the start-warning mode. Herein, the start-warning period of time t1 is set properly from the human engineering standpoint, based on the standard period of time until the vehicle driving starts. In the present embodiment, this is set at the minimal period of time which is necessary to warn the driver who starts a driving. Thereby, the driver will not be bothered by the seatbelt warning for an improperly long time.
In the provisional-warning mode, the provisional-warning period of time t20 is set and this period of time is counted up with the counter value C set to a specified value C20. Herein, the provisional-warning period of time t20 is set properly at need.
In the warning mode, the warning period of time t21 is set and this period of time is counted up with the counter value C set to a specified value C21. Herein, the warning period of time t21 is set so as to be sufficiently longer than the start-warning period of time t1. Thereby, the careless removal of the seatbelt can be warned surely to the driver.
In the safe mode, the safe-warning period of time t22 is set and this period of time is counted up with the counter value C set to a specified value C22. Herein, the value C22 for the safe-warning period of time t22 is set so as to be a proper value to warn the driver that the driver is in the safe state. For example, this value may be set at the same value as the value C1 for the start-warning period of time t1, or this value may be set at a shorter value than that. This is because the buzzer is also used as the warning device in the present embodiment and thereby the driver can easily recognize the warning even for a short period of time.
Accordingly, these period of times t1, t20, t21 and t22 will be described as below.
Namely, in the case where the start-warning period of time t1 is set as the standard, only the warning period of time t21 should be set so as to be longer than the start-warning period of time t1 and the other period of time t20 and t22 can be set properly at need.
Also, the warning embodiments (level of the warning stimulation) can be set in a similar relationships to the above-described period of time.
Further, these period of times t1, t20, t21 and t22 may be set at constant values or variable values which change according to, for example, the vehicle speed. In the latter case, the proper warning can be attained surely by prolonging these period of times t1, t20, t21 and t22 under the condition that the noise increases with the increased vehicle speed.
Herein, in the present embodiment the start of control is delayed for a specified period of time t0 in order to avoid transitional noises which will occur at the engine start, and a specified value C0 for this time is memorized in the Memory.
A change of the seatbelt use state can be determined specifically by memorizing/updating the ON/OFF state of B-point switches 16, which are attached to respective seatbelt buckles (not illustrated), with FIFO algorithm. For example, when the B-point switch 16 is ON (the seatbelt is not in the state of use), a state value T is set at 0. Meanwhile, when the B-point switch 16 is OFF (the seatbelt is in the state of use), the state value T is set at 1. Then, according to the FIFO algorithm, as the result of the state transition of the Memory 22, if the state value T memorized in the Memory 22 is changed from 1 to 0, it is determined that the seatbelt state has been changed from the state of use to the state of non-use. Meanwhile, the state value T memorized is changed from 0 to 1, it is determined that the seatbelt state has been changed from the state of non-use to the state of use.
The B-point switches 16 attached to the seatbelt buckles are connected to the Input Port 23. Also, pull-up registers 17 are connected so as to be provided between the B-point switches 16 and the Input Port 23, respectively. The ON/OFF state of the B-point switches 16 is detected by the pull-up electric current flowing down the pull-up registers 17.
To the Output Port 21 are connected the above-described buzzer 12 and the lamps 14, 15.
Two circuit wires 25 are connected to the buzzer 12 and have buffers 26, respectively. Thus, the CPU 21 of the microprocessor 20 can control the ON/OFF of the buzzer 12 and the warning stimulation characteristic (level) of the buzzer 12 (a sound frequency change or a sound volume) with a simple structure.
The respective lamps 14, 15 are connected to respective npn transistors 18, and bases 18b of the npn transistors 18 are connected to the Output Port 24 of the microprocessor 20. Herein, emitters 18e of the npn transistors 18 are connected to a ground line G. Meanwhile, to the lamps 14, 15 is connected an electric supply line 19 which supplies the electricity during the engine operation. Thereby, the lamps 14, 15 are constituted so as to be on only during the engine operation. The electric supply line 19 is also connected to the Input Port 23 of the microprocessor 20 via a wiring 19a (see
Next, the program memorized in the Memory 22 of the microprocessor 20 will be described.
In
The counter value C has decrement with a specified unit (for example, several milliseconds) (step S3), and it is determined that the transitional period of time t0 has lapsed (step S4). After the transitional period of time t0 has lapsed and the counter value C has become 0, the CPU 21 resets the counter value C so as to be C1 corresponding to the start-warning period of time t1 (step S5).
Next, the CPU 21 warns the seatbelt use state according to the connecting state of the B-point switch 16 of the seatbelt which is connected to the Input Port 23 (steps S6, S7). Specifically, when the B-point switch 16 of the seatbelt closes the circuit at the time the specified value C1 corresponding to the start-warning period of time t1 is set, the red lamp 14 of the illustration 11c of the corresponding seatbelt is turned on. Thereby, it is warned that the corresponding seatbelt is not in the state of use. Meanwhile, when the B-point switch 16 of the seatbelt opens the circuit by the seatbelt being applied, the CPU 21 turns on the green lamp 15 of the illustration 11c of the corresponding seatbelt. At this point, the passenger will apply the seatbelt, and thereby the CPU 21 memorizes the connecting state of the B-point switch 16 in the Memory and updates the data with the FIFO algorithm.
The CPU waits until the specified value C1 corresponding to the start-warning period of time t1 becomes 0 during the engine operation (step S9). At the time the specified value C1 corresponding to the start-warning period of time t1 has become 0, namely, the specified start-warning period of time t1 has lapsed, the control proceeds to the flowchart of
In the flowchart of
The CPU 21 monitors the change of the seatbelt use state after the mode is changed to the provisional-warning mode (step S12). When there is no change in the seatbelt use state (no change in the state value T), the counter value C has decrement with the specified unit (step S13). And, when the counter value C has become 0, the indication is OFF (steps S14, S15). Thereby, any unnecessary warnings to the driver can be prevented. Further, it is determined whether the engine is turned OFF or not (step S16). When the engine stops, the control ends. When the engine still operates, the control sequence returns to the step S12.
Meanwhile, when the passenger removes the seatbelt during the engine operation, the B-point switch 16 attached to the seatbelt buckle closes the circuit, and thereby the state value T is changed from 1 to 0. The CPU 21 detects this state change with the state value T and determines whether or not the change is from the state of use of the seatbelt to the state of non-use of the seatbelt (step S17). Since the state value T is changed from 0 to 1 in the above-described embodiment, the control by the CPU 21 moves on to the warning mode (steps S18, S19). In the warning mode, at first, the counter value C is set so as to be the specified value C21 corresponding to the warning period of time t21 (step S18), and the warning in the warning mode is conducted (step S19). As described above, since the warning in the warning mode warns the use state (the state of non-use) of the seatbelt with the harder warning stimulation characteristic, the necessary warning can be provided properly to the driver for the sufficiently long warning period of time (the specified value C21 corresponding to the warning period of time t21). After the step S19, the control moves on to steps after the step S13. As a result, until the warning period of time t21 has lapsed, the warning in the warning mode is conduced as long as the sate of non-use of the seatbelt continues. Then, at the time when the warning period of time t21 has lapsed, the control moves on to the monitoring state of the step S12 by way of the steps S14 through S16.
Meanwhile, when the seatbelt is applied to the passenger, the B-point switch 16 of the seatbelt is turned OFF again and the memory is updated from 1 to 0. Thereby, the control moves to the safe mode by the determination of the step S17 (steps S20, S21). In the safe mode, the counter value C is set so as to be the specified value C22 corresponding to the safe-warning period of time t22 (step S20), and the seatbelt use state is warned with the softer warning stimulation characteristic (step S21).
After the execution of the warning in the safe mode in step S21, the control moves to the step S13. Then, at the time the specified value C22 corresponding to the safe-warning period of time t22 has become 0, the control moves to the monitoring state of the step S12 by way of the steps S15, S16. Also, when the engine stops, the control ends up by the monitoring at the step S16.
As described above, according to the present embodiment, the use state of the seatbelt is indicated in the start-warning mode during the start period of time so that the driver can recognize the use state of the seatbelt, the driver can properly know the use state of the passenger's seatbelt to confirm the safety at this point. Meanwhile, when the specified start-warning period of time t1 has lapsed after the power source starting, the lamps 14, 15 as the warning device is turned off at the specified timing and thereby the driver would not receive unnecessary warning stimulations from the lamps 14, 15.
Also, according to the present embodiment, the microprocessor 20 as the control device is constituted, as described in the steps S10, S11 of
Also, according to the present embodiment, the microprocessor 20 operates the buzzer 12 and the lams 14, 15 as the warning device in the warning mode to warn the driver of the warning state when the seatbelt is removed from it's state of use during the engine operation, as described in the steps S12, S16-S18 of
Particularly, according to the present embodiment, the start-warning period of time t1 is set so as to be the minimal period of time which can warn the driver, and the specified period of time for the warning mode (the warning period of time t21) is constituted so as to be longer than the start-warning period of time t1. Accordingly, any unnecessarily long warning to the driver can be prevented at the start, while when the seatbelt use state is changed to the state of use, the driver can be warned properly with a sufficiently long period of time.
Further, according to the present embodiment, the specified period of time for the safe mode (the safe-warning period of time t22) is set so as to be the minimal period of time which can warn the driver, and the specified period of time for the warning mode (the warning period of time t21) is constituted so as to be longer than the specified period of time for the safe mode (the safe-warning period of time t22). Accordingly, even if there occurs the change in the seatbelt use state during the engine operation, any unnecessarily long warning to the driver can be prevented when the seatbelt use state is changed to the safe state. Meanwhile, when the seatbelt use state is changed to the dangerous state, the driver can be warned properly with the sufficiently long period of time.
Further, according to the present embodiment, the warning in the start-warning mode is set so as to be the minimal warning stimulation characteristic which can warn the driver, and the warning in the warning mode has the warning stimulation characteristic which is harder than that of the warning in the start-warning mode. Accordingly, the proper warning can be provided to the driver when it should be necessary.
Further, according to the present embodiment, the warning in the safe mode is set so as to be the minimal warning stimulation characteristic which can warn the driver, and the warning in the warning mode has the warning stimulation characteristic which is harder than that of the warning in the safe mode. Accordingly, since the warning stimulation characteristic in the warning mode is harder than that of the warning in the safe mode, the proper warning can be provided to the driver when it should be necessary.
As described above, according to the present embodiment, during the driving start or when the seatbelt use state has changed during the engine operation, the warning is properly provided. Meanwhile, when the specified start-warning period of time has lapsed after the engine start, the buzzer 12 and the lamps 14, 15 are turned off (disabled) when there is no change of the seatbelt use state. Thus, the driver will not receive any unnecessary stimulations from the buzzer 12 and the lamps 14, 15. Accordingly, the proper and sufficient warning can be provided to the driver.
Herein, the above-described embodiments are exemplified preferred embodiments of the present invention, and the present invention should not be limited to these embodiments.
For example, the above-described “softer warning stimulation characteristic” may be such that the buzzer 12 is operated together. Also, the warning style of the buzzer 12 and lamps 14, 15 may be changed other than lowering the output level of these. For example, in the embodiment in which the warning by the lamps 14, 15 and the warning by the buzzer 12 are combined, the lamps 14, 15 may be changed such that the brightness of the LED of these lamps is lowered or the buzzer 12 may be changed such that the sound volume is lowered, other than the above-described embodiment.
Likewise, the above-described “harder warning stimulation characteristic” may be such that the increasing of the brightness of the lamps 14, 15 or the on-off turning of these lamps and the increasing of the volume of the buzzer are combined, other than the operation of both the buzzer 12 and the lamps 14, 15.
Further, the steps S10, S11 can be omitted in the flowchart of
Also, the steps S19 and S20 can be omitted in the flowchart of
Herein, when the above-described constitution is the duplex system (with both the operational system and the standby system), the sufficient failsafe function can be provided.
The present invention should not be limited to the above-described embodiments, but any other modifications and improvements may be applied within the scope of a sprit of the present invention.
Number | Date | Country | Kind |
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2004-274901 | Sep 2004 | JP | national |