JP2014215255A - Integration meter value restoration system for combination meter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an integration meter value restoration system for a combination meter that allows easy restoration of integration meter values and replacement of a combination meter in a short time.SOLUTION: A combination meter 1 includes: first storage means 13 that stores integration meter values in a first storage section 11; first transmission means 14 that transmits the integration meter values to a storage device 2; and restoration means 15 that stores the integration meter values in the first storage section 11. The storage device 2 includes second storage means 22 that stores the integration meter values received from the combination meter 1 in a second storage section 21, and second transmission means 23 that transmits the integration meter values to an operation device 3. The operation device 3 includes acquisition means 32 that receives the integration meter values from the storage device 2, and third transmission means 33 that transmits the integration meter values to the combination meter 1. Since the integration meter values are stored in the storage device 2, the integration meter values before replacement can be restored in the combination meter 1 after replacement by operating the operation device 3.

Description

  The present invention relates to an integrated meter value restoration system for a combination meter. More particularly, the present invention relates to an integrated meter value restoration system for a combination meter that restores an integrated meter value before replacement to a combination meter after replacement when the combination meter is replaced.

  In general, a combination meter is mounted on the driver's seat of the vehicle. In addition to a speedometer and a tachometer, an odometer (for example, Patent Document 1), a trip meter, an hour meter, and the like are displayed on the combination meter. When the combination meter is replaced due to failure or the like, it is necessary to restore the integrated meter value (odometer value, trip meter value, hour meter value, etc.) before replacement to the combination meter after replacement.

  Conventionally, when a combination meter breaks down, the integrated meter value before replacement is notified to the manufacturer of the combination meter, and after the manufacturer rewrites the integrated meter value of the new combination meter, the replacement operation of the combination meter has been performed. Therefore, there is a problem that it takes a long time to replace the combination meter. In addition, since it is troublesome to restore the accumulated meter value, the accumulated meter value is not restored, and a new combination meter may be used in a reset state.

Japanese Patent No. 2917673

  In view of the circumstances described above, an object of the present invention is to provide an integrated meter value restoring system for a combination meter, in which the integrated meter value can be easily restored and the combination meter can be replaced in a short time.

An integrated meter value restoring system for a combination meter according to a first aspect of the present invention includes a combination meter, a storage device connected to the combination meter, and an operation device connected to the combination meter and the storage device. Is calculated by the first storage unit, the calculation unit for calculating the integrated meter value, the first storage unit for storing the integrated meter value calculated by the calculation unit in the first storage unit, and the calculation unit. Stored in the first storage unit, a first transmission unit that transmits the integrated meter value to the storage device, a restoration unit that stores the integrated meter value received from the operation device in the first storage unit, Display means for displaying the integrated meter value, wherein the storage device is a second storage unit and the combination meter. Second storage means for storing the accumulated meter value received from the combination meter in the second storage unit when the received accumulated meter value is larger than the accumulated meter value stored in the second storage unit; And a second transmission means for transmitting the integrated meter value stored in the second storage unit to the operation device in response to a transmission request from the operation device, wherein the operation device transmits to the storage device. An acquisition means for transmitting a request and receiving the integrated meter value; and a third transmission means for transmitting the integrated meter value acquired by the acquisition means to the combination meter.
An integration meter value restoration system for a combination meter according to a second aspect of the present invention is the system according to the first aspect, wherein the combination meter resets the integration meter value stored in the first storage unit and transmits a reset signal to the storage device. And resetting means for resetting the integrated meter value stored in the second storage section when the reset signal is received.
The integrated meter value restoration system for a combination meter according to a third aspect of the present invention is the system according to the second aspect, wherein the integrated meter value includes a trip meter value and an average fuel consumption between the trip meter value and the same period. The storage means, when the trip meter value received from the combination meter is larger than the trip meter value stored in the second storage unit, the trip meter value and the average fuel consumption received from the combination meter, It memorize | stores in a 2nd memory | storage part, It is characterized by the above-mentioned.

According to the first invention, since the integrated meter value calculated by the combination meter is stored in the storage device, the integrated meter value before replacement can be changed by operating the operating device when the combination meter is replaced. Can be restored to a combination meter. Therefore, it is easy to restore the integrated meter value, and the combination meter can be replaced in a short time. Further, since the storage device stores the integrated meter value received from the combination meter when it is larger than the stored integrated meter value, the integrated value stored in the storage device with the reset integrated meter value of the combination meter immediately after replacement is stored. The meter value is not overwritten. Therefore, a correct integration meter value can be stored.
According to the second invention, when the reset means is operated, the integrated meter value stored in the combination meter is reset and the integrated meter value stored in the storage device is reset. It can be stored in a storage device.
According to the third invention, the storage device determines whether or not the average fuel consumption received from the combination meter is a reset value based on the trip meter value, so that the correct average fuel consumption can be stored.

It is a block diagram of the total meter value restoration system concerning a 1st embodiment of the present invention. It is the screen image of the monitor in restoration operation. It is the screen image of the monitor in restoration operation. It is a block diagram of the total meter value restoration system concerning a 2nd embodiment of the present invention.

Next, an embodiment of the present invention will be described with reference to the drawings.
The integrated meter value restoration system for a combination meter according to the present invention is provided in a vehicle such as a general vehicle or a work vehicle. Work vehicles include mobile cranes and aerial work platforms. In this specification, the “integrated meter value” means a value indicated by an integrated value for a predetermined period among values indicating the use state of the vehicle, and a value related to the integrated value. Examples of the value indicated by the integrated value include an odometer value (integrated travel distance), a trip meter value (section travel distance), an hour meter value (integrated use time), and the like. The value related to the integrated value includes, for example, trip meter value and average fuel consumption during the same period. In addition, the integrated meter value includes integrated values such as odometer values and hour meter values from the completion of the vehicle to the present time that cannot be reset by the user, and integrated values in any section such as trip meter values and average fuel consumption. Values that can be reset by the user.

(First embodiment)
As shown in FIG. 1, the integrated meter value restoration system A according to the first embodiment of the present invention includes a combination meter 1, a storage device 2, and an operation device 3. The combination meter 1, the storage device 2, and the operation device 3 are connected so as to be able to transmit information. An external device B is connected to the combination meter 1. The external device B is a device that measures or generates information that is a source of the integrated meter value, such as a sensor such as a speed sensor or an engine control unit.

  The combination meter 1 is mounted in a driver's seat of a vehicle and has a function of displaying integrated meter values such as an odometer, trip meter, hour meter, etc. in addition to a speedometer, a tachometer, and the like. Note that the integrated meter value restoration system A of the present embodiment has a function of restoring only values that cannot be reset by the user, such as odometer values and hour meter values, among the integrated meter values. Hereinafter, when simply referred to as “integrated meter value” in this embodiment, it means “integrated meter value that cannot be reset by the user”.

  The combination meter 1 includes a first storage unit 11, a calculation unit 12, a first storage unit 13, a first transmission unit 14, a restoration unit 15, and a display unit 16. The first storage unit 11 is configured by a nonvolatile memory. The calculation means 12, the first storage means 13, the first transmission means 14, and the restoration means 15 are realized by a CPU or the like. The display means 16 is composed of a liquid crystal display for displaying the integrated meter value.

  The first storage unit 11 stores an integrated meter value calculated by the calculating unit 12 or an integrated meter value received from the operating device 3 as described later.

  The calculating means 12 calculates the current integrated meter value by adding the measured value from the external device B to the past integrated meter value stored in the first storage unit 11. For example, a vehicle speed sensor that generates a pulse for every fixed travel distance of the vehicle is used as the external device B, and the number of input pulses from the vehicle speed sensor is integrated and added to the past odometer value stored in the first storage unit 11. To calculate the current odometer value. Further, the current hour meter value is calculated by adding up the time during which the engine is operating and adding it to the past hour meter value stored in the first storage unit 11.

  The integrated meter value calculated by the calculation means 12 is stored in the first storage section 11 by the first storage means 13 and transmitted to the storage device 2 by the first transmission means 14 whenever the value is updated, for example. The

  The restoring means 15 receives the integrated meter value from the controller device 3 as will be described later. Then, the received integrated meter value is stored in the first storage unit 11. Details of this will be described later.

  The display unit 16 displays the integrated meter value stored in the first storage unit 11. When the integrated meter value stored in the first storage unit 11 is updated, the value displayed on the display unit 16 is also updated. The accumulated meter value stored in the first storage unit 11 is updated by either the first storage unit 13 or the restoration unit 15. Therefore, if the integrated meter value is updated by the first storage means 13, the value is displayed on the display means 16, and if the integrated meter value is updated by the restoration means 15, the value is displayed on the display means 16.

  The combination meter 1 is replaced when it fails. At the time of replacement, only the combination meter 1 is replaced while the storage device 2 and the operation device 3 are mounted on the vehicle. In the combination meter 1 after replacement, the integrated meter value is reset. For example, the odometer value and the hour meter value are all 0.

  The storage device 2 is mounted on the vehicle as a device different from the combination meter 1. The storage device 2 includes a second storage unit 21, a second storage unit 22, and a second transmission unit 23. The second storage unit 21 is configured by a nonvolatile memory. The second storage unit 22 and the second transmission unit 23 are realized by a CPU or the like.

  The second storage unit 22 stores the accumulated meter value received from the first transmission unit 14 of the combination meter 1 in the second storage unit 21 each time it is received. Therefore, a copy of the integrated meter value of the combination meter 1 is always stored in the second storage unit 11.

  Here, the second storage means 22 is an integrated meter value (hereinafter referred to as “stored value”) in which the integrated meter value received from the combination meter 1 (hereinafter referred to as “received value”) is stored in the second storage unit 21. The received value is stored in the second storage unit 21. If the received value is smaller than the stored value, the received value is not stored in the second storage unit 21 and the stored value is not updated.

  When the combination meter 1 is replaced, the integrated meter value of the combination meter 1 after replacement is reset. Therefore, if the received value is always stored in the second storage unit 21, an integrated meter value that does not match the actual state of the vehicle will be stored. In this embodiment, since the received value is stored when it is larger than the stored value, the integrated meter value stored in the second storage unit 21 is overwritten with the reset integrated meter value of the combination meter 1 immediately after replacement. There is no. Therefore, it is possible to store a correct integrated meter value that matches the actual condition of the vehicle.

  The comparison between the received value and the stored value may be made by comparing all values of the integrated meter value or by comparing some values. For example, the received value may be stored in the second storage unit 21 when all of the odometer value and the hour meter value as received values are larger than the odometer value and the hour meter value as stored values, respectively. When the odometer value as the received value is larger than the odometer value as the stored value, all of the odometer value and the hour meter value as the received value may be stored in the second storage unit 21.

  As will be described later, the second transmission unit 23 transmits the integrated meter value stored in the second storage unit 21 to the operation device 3 in response to a transmission request from the operation device 3. Details of this will be described later.

  The operating device 3 is mounted on the vehicle as a device different from the combination meter 1. In the case of a mobile crane, the operation device 3 may be shared with the monitor of the overload prevention device. Further, the storage device 2 and the operation device 3 may be configured as an integrated device. The operation device 3 includes an operation unit 31, an acquisition unit 32, and a third transmission unit 33. The operation means 31 is a user interface composed of a monitor, a switch and the like. The acquisition unit 32 and the third transmission unit 33 are realized by a CPU or the like.

  The operation unit 31 receives a user operation (restoration instruction) and controls operations of the acquisition unit 32 and the third transmission unit 33. The integrated meter value of the combination meter 1 can be restored by operating the operation means 31 when the combination meter 1 is replaced. Details of this will be described later.

  The acquisition unit 32 transmits a transmission request to the second transmission unit 23 of the storage device 2 when the operation unit 31 receives an operation of restoring the integrated meter value (hereinafter referred to as “restore instruction”). The second transmission unit 23 transmits the integrated meter value stored in the second storage unit 21 to the acquisition unit 32 in response to a transmission request from the acquisition unit 32.

  The third transmission unit 33 transmits the integrated meter value acquired by the acquisition unit 32 to the restoration unit 15 of the combination meter 1. The restoring unit 15 stores the accumulated meter value received from the third transmitting unit 33 in the first storage unit 11. When the storage in the first storage unit 11 is completed, a completion response is transmitted to the third transmission unit 33. Based on this completion response, the third transmission means 33 recognizes the completion of restoration of the integrated meter value.

Next, the operation of the integrated meter value restoration system A will be described separately at the normal time and when the combination meter 1 is replaced.
(Normal time)
In the normal state, the combination meter 1 calculates the integrated meter value by the calculating means 12, stores the integrated meter value in the first storage unit 11 by the first storage means 13, and stores the storage meter 2 by the first transmission means 14. Send to. The display unit 16 displays the accumulated data value stored in the first storage unit 11. Since the integrated data value stored in the first storage unit 11 is updated as needed by the first storage unit 13, the value displayed on the display unit 16 is also updated as needed.

  The storage device 2 stores the integrated data value received from the combination meter 1 by the second storage unit 22 in the second storage unit 21 as needed. Therefore, a copy of the integrated meter value of the combination meter 1 is always stored in the second storage unit 11. Here, since the integrated data value increases with time, the received value is larger than the stored value during normal times. Therefore, every time the integrated meter value is received from the combination meter 1, it is stored in the second storage unit 21.

(When replacing)
When replacing the combination meter 1, first, the user removes the combination meter 1 and attaches a new combination meter 1. Since the integrated meter value is reset in the new combination meter 1, it does not match the actual condition of the vehicle. Therefore, the user operates the operation means 31 to restore the integrated meter value.

  Even if the integrated meter value reset from the combination meter 1 is transmitted to the storage device 2 before the integrated meter value is restored, whether the received value is reset by the second storage means 22 or not. Therefore, the integrated meter value in the second storage unit 21 is not reset.

  The integration meter value is restored by operating the operation means 31. Below, the case where the monitor of an overload prevention apparatus and the switch provided in the monitor are used as the operation means 31 is demonstrated. The operation means 31 may be a monitor or controller of a work vehicle other than a monitor of an overload prevention device, or may be an independent device. 2 and 3 are examples of screens displayed on the monitor of the overload prevention device. The monitor of the overload prevention device is installed in the driver's seat of the mobile crane. Normally, various information on the overload prevention device, such as boom length, boom undulation angle, working radius, outrigger extension width, counterweight The weight, rated load, suspended load, load factor, etc. are displayed (see FIG. 2A).

  When the user performs a predetermined operation using a switch provided on the monitor, the acquisition unit 32 transmits a transmission request to the second transmission unit 23 of the storage device 2, and the second transmission unit 23 sends the second storage unit 21. The accumulated meter value memorized in is acquired. Then, the monitor transitions to the screen shown in FIG. 2B, and displays the acquired integrated meter value (in the example shown in FIG. 2B, the odometer value and the hour meter value).

  Next, when the user performs a predetermined operation using a switch provided on the monitor and instructs rewriting of the integrated meter value (see FIG. 3C), the third transmitting means 33 converts the integrated meter value into the combination meter. 1 to the restoring means 15. The restoring unit 15 stores the accumulated meter value received from the third transmitting unit 33 in the first storage unit 11. When the third transmission means 33 receives the completion response from the restoration means 15, the monitor transitions to the screen shown in FIG. 3D and displays that the restoration of the integrated meter value has been completed.

  After the integrated meter value is restored by the above procedure, the exchanged combination meter 1 calculates the current integrated data value based on the integrated data value stored in the first storage unit 11, so that The integrated total meter value can be displayed.

  As described above, since the integrated meter value calculated by the combination meter 1 is stored in the storage device 2, the integrated meter value before replacement can be exchanged by operating the operation device 3 when the combination meter 1 is replaced. The combination meter 1 can be restored later. Therefore, the integration meter value can be easily restored, and the combination meter 1 can be replaced in a short time. Further, since the accumulated meter value can be restored, it is not necessary for the manufacturer to rewrite the accumulated meter value of the new combination meter. Therefore, a replacement stock of the combination meter 1 is possible, and replacement can be performed in a short time.

(Second Embodiment)
Next, an integrated meter value restoration system B according to the second embodiment of the present invention will be described. As shown in FIG. 4, the integrated meter value restoration system B is a form in which a reset means 17 is added to the combination meter 1 in the accumulated meter value restoration system A according to the first embodiment. Since the rest of the configuration is the same as that of the integrated meter value restoration system A, the same members are denoted by the same reference numerals and description thereof is omitted.

  The integrated meter value restoration system B according to the present embodiment has an integrated meter value that can be reset by the user, such as a trip meter value or average fuel consumption, in addition to or instead of the “integrated meter value that cannot be reset by the user” as the integrated meter value. It has a function to restore “value”. Hereinafter, when simply referred to as “integrated meter value” in the present embodiment, it means “integrated meter value that can be reset by the user”.

  The calculation means 12 uses, for example, a vehicle speed sensor as the external device B, integrates the number of input pulses from the vehicle speed sensor, and adds it to the past trip meter value stored in the first storage unit 11, The trip meter value is calculated. An engine control unit is used as the external device B, and an average fuel consumption is calculated from a value obtained by integrating instantaneous fuel consumption (command value of the fuel injection amount of the engine) obtained from the engine control unit and a trip meter value.

  The reset means 17 is constituted by a switch or the like provided in the combination meter 1. When the reset unit 17 is operated (a switch is pressed), the reset unit 17 resets the integrated meter value stored in the first storage unit 11 and transmits a reset signal to the second storage unit 22 of the storage device 2. The 2nd memory | storage means 22 resets the integrating | accumulating meter value memorize | stored in the 2nd memory | storage part 21, when a reset signal is received. Thus, when the reset means 17 is operated, the integrated meter value stored in the combination meter 1 is reset and the integrated meter value stored in the storage device 2 is reset.

  Similarly to the first embodiment, the second storage unit 22 stores the received value in the second storage unit 21 when the received value is larger than the stored value. If the received value is smaller than the stored value, the received value is not stored in the second storage unit 21 and the stored value is not updated. If the integrated meter value stored in the storage device 2 is not reset when the integrated meter value of the combination meter 1 is reset, the received value becomes smaller than the stored value, and the second storage means 22 is the second storage unit 21. Do not update the total meter value. However, in this embodiment, when the integrated meter value of the combination meter 1 is reset, the integrated meter value of the storage device 2 is reset, so that the integrated meter value after the reset can be stored in the storage device 2.

  When the integrated meter value includes the trip meter value and the trip meter value and the average fuel consumption during the same period, the second storage means 22 uses the trip meter value as the stored value as the trip meter value as the stored value. When the value is larger than the value, the second storage unit 21 stores the trip meter value and the average fuel consumption as the received value. That is, based on the trip meter value, it is determined whether or not the average fuel consumption is a reset value.

  This is because the average fuel consumption does not necessarily increase with the passage of time but may decrease. Thus, since it is determined whether the average fuel consumption received from the combination meter 1 is a reset value based on the trip meter value, the correct average fuel consumption can be stored.

DESCRIPTION OF SYMBOLS 1 Combination meter 11 1st memory | storage part 12 Calculation means 13 1st memory | storage means 14 1st transmission means 15 Restoration means 16 Display means 17 Reset means 2 Storage device 21 2nd memory | storage part 22 2nd memory | storage means 23 2nd transmission means 3 Operation Device 31 Operation means 32 Acquisition means 33 Third transmission means

Claims (3)

A combination meter,
A storage device connected to the combination meter;
An operation device connected to the combination meter and the storage device,
The combination meter is
A first storage unit;
A computing means for computing the integrated meter value;
First storage means for storing the integrated meter value calculated by the calculation means in the first storage unit;
First transmission means for transmitting the integrated meter value calculated by the calculation means to the storage device;
Restoring means for storing the integrated meter value received from the operating device in the first storage unit;
Display means for displaying the integrated meter value stored in the first storage unit,
The storage device
A second storage unit;
When the integrated meter value received from the combination meter is larger than the integrated meter value stored in the second storage unit, the integrated meter value received from the combination meter is stored in the second storage unit. Two storage means;
Second transmission means for transmitting the integrated meter value stored in the second storage unit to the operating device in response to a transmission request from the operating device;
The operating device is:
An acquisition means for transmitting a transmission request to the storage device and receiving the integrated meter value;
And a third transmitting means for transmitting the integrated meter value acquired by the acquiring means to the combination meter. An integrated meter value restoring system for a combination meter, comprising: The combination meter includes reset means for resetting the integrated meter value stored in the first storage unit and transmitting a reset signal to the storage device,
2. The integrated meter value restoring system for a combination meter according to claim 1, wherein the second storage unit resets the integrated meter value stored in the second storage unit when the reset signal is received. 3. The integrated meter value includes a trip meter value and an average fuel consumption between the trip meter value and the same period,
The second storage means, when the trip meter value received from the combination meter is larger than the trip meter value stored in the second storage unit, the trip meter value received from the combination meter and the average 3. The integrated meter value restoration system for a combination meter according to claim 2, wherein fuel consumption is stored in the second storage unit.