IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0191560
(2014-02-27)
|
등록번호 |
US-9481981
(2016-11-01)
|
우선권정보 |
JP-2013-067626 (2013-03-27) |
발명자
/ 주소 |
- Magaki, Hideto
- Sano, Kiminori
- Kurosawa, Ryota
|
출원인 / 주소 |
- SUMITOMO(S.H.I.) CONSTRUCTION MACHINERY CO., LTD.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
A shovel includes a cabin in which a display monitor is provided, a main pump that generates a hydraulic pressure, an internal combustion engine that drives the main pump, and a display control part configured to generate display information to be displayed on the display monitor based on informatio
A shovel includes a cabin in which a display monitor is provided, a main pump that generates a hydraulic pressure, an internal combustion engine that drives the main pump, and a display control part configured to generate display information to be displayed on the display monitor based on information communicated between the display control part and the internal combustion engine, and cause the generated display information to be displayed on the display monitor. The display control part is configured to cause a graph showing the fuel efficiency of the internal combustion engine over time and the operational work mode of the shovel corresponding to a time for which the fuel efficiency is calculated to be simultaneously displayed on the single display screen of the display monitor.
대표청구항
▼
1. A shovel, comprising: a display monitor provided in a cabin of the shovel;a main pump that generates a hydraulic pressure;an internal combustion engine that drives the main pump;a plurality of hydraulic actuators connected to the main pump via a valve;a boom, an arm connected to the boom, and a b
1. A shovel, comprising: a display monitor provided in a cabin of the shovel;a main pump that generates a hydraulic pressure;an internal combustion engine that drives the main pump;a plurality of hydraulic actuators connected to the main pump via a valve;a boom, an arm connected to the boom, and a bucket connected to the arm, the boom, the arm, and the bucket being driven by the plurality of hydraulic actuators; anda display control part, including a processor; anda memory storing a program that, when executed by the processor, causes the display control part todisplay a graph on a single display screen on the display monitor, based on information communicated between the display control part and the internal combustion engine, the graph simultaneously showing, with respect to each of a plurality of time periods of a predetermined time unit, which are equal in length and arranged along a time axis, a fuel efficiency of the internal combustion engine and an operational work mode of the shovel selected from a plurality of operational work modes of the shovel and set in said each of the plurality of time periods, wherein the plurality of operational work modes are assigned respective different display colors, andwhen first and second different operational work modes are selected from the plurality of operational work modes and set in one of the plurality of time periods, and switched within said one of the plurality of time periods, show the fuel efficiency in said one of the plurality of time periods in only one of the different display colors assigned to the first operational work mode, the first operational work mode being set for a longer time than the second operational work mode within said one of the plurality of time periods. 2. The shovel as claimed in claim 1, wherein the fuel efficiency and the first operational work mode are shown in a single bar with respect to each of the plurality of time periods. 3. The shovel as claimed in claim 1, wherein the fuel efficiency is one of fuel efficiency averaged based on a first predetermined time, fuel efficiency averaged based on a second predetermined time during which the internal combustion engine is in operation, and fuel efficiency averaged based on a third predetermined time during which a lever is operated. 4. The shovel as claimed in claim 1, wherein the plurality of operational work modes are determined by respective setting values of an output of the internal combustion engine, wherein a greater setting value among the setting values corresponds to a greater target value of a rotational speed of the internal combustion engine, andthe setting values are selected and input through an input part provided in the cabin. 5. The shovel as claimed in claim 1, wherein the graph includes a first graph and a second graph that are arranged at vertically different positions,the plurality of time periods of the first graph are of a first time unit, and the plurality of time periods of the second graph are of a second time unit different from the first time unit, andin each of the first graph and the second graph, when the first and second operational work modes are selected from the plurality of operational work modes and set in said one of the plurality of time periods, and switched within said one of the plurality of time periods, the display control part is caused to show the fuel efficiency in said one of the plurality of time periods in said only one of the different display colors assigned to the first operational work mode within said one of the plurality of time periods. 6. The shovel as claimed in claim 2, wherein the single bar is variable in vertical length in the graph. 7. A shovel, comprising: a display monitor provided in a cabin of the shovel;a main pump that generates a hydraulic pressure;an internal combustion engine that drives the main pump;a plurality of hydraulic actuators connected to the main pump via a valve;a boom, an arm connected to the boom, and a bucket connected to the arm, the boom, the arm, and the bucket being driven by the plurality of hydraulic actuators; anda display control part, including a processor; anda memory storing a program that, when executed by the processor, causes the display control part todisplay a time series of a fuel efficiency of the internal combustion engine in a plurality of bars on the display monitor, based on information communicated between the display control part and the internal combustion engine, the plurality of bars being successively arranged along a time axis that is divided into a plurality of time periods of a predetermined time unit, and each corresponding to one of the plurality of time periods, the plurality of time periods being equal in length, and the fuel efficiency being represented by a length of each of the plurality of bars in a direction perpendicular to the time axis, anddisplay, on the display monitor, an operating condition of the shovel regarding the fuel efficiency of the internal combustion engine in each of the plurality of time periods by displaying each of the plurality of bars in a color corresponding to the operating condition of the shovel in said one of the plurality of time periods to which said each of the plurality of bars corresponds,wherein the operating condition to which the color corresponds is dominant relative to another operating condition within said each of the plurality of time periods. 8. The shovel as claimed in claim 7, wherein the display control part is further caused to display the time series in a first graph and a second graph that are arranged at vertically different positions,the plurality of time periods of the first graph are of a first time unit, and the plurality of time periods of the second graph are of a second time unit different from the first time unit, andthe display control part is further caused to display, in each of the first graph and the second graph, each of the plurality of bars in the color corresponding to the operating condition of the shovel set in said one of the plurality of time periods to which said each of the plurality of bars corresponds. 9. The shovel as claimed in claim 7, wherein the operating condition of the shovel regarding the fuel efficiency of the internal combustion engine is an operational work mode of the shovel. 10. The shovel as claimed in claim 9, wherein the operational work mode is determined by a setting value of an output of the internal combustion engine, wherein the setting value corresponds to a target value of a rotational speed of the internal combustion engine, and the target value increases as the setting value increases, andthe setting value is selected and input through an input part provided in the cabin. 11. The shovel as claimed in claim 9, wherein a plurality of colors for displaying the plurality of bars are stored in correspondence to a plurality of operational work modes of the shovel in the memory, andthe display control part is further caused to calculate the fuel efficiency of the internal combustion engine based on the information communicated between the display control part and the internal combustion engine with respect to each of the plurality of time periods,assign the calculated fuel efficiency to each of the plurality of bars corresponding to said each of the plurality of time periods, anddisplay each of the plurality of bars assigned with the calculated fuel efficiency in one of the plurality of colors corresponding to the operational work mode set in said each of the plurality of time periods. 12. The shovel as claimed in claim 7, wherein each of the plurality of bars is variable in the length in the direction perpendicular to the time axis.
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