| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 123410150 | Indicators and safety devices | 12 |
| 20080202451 | MOUNTING STRUCTURE OF FILTER FOR COOLER OF CONSTRUCTION MACHINE - On the front surface side of a cooler, a filter mounting portion provided with a filter abutment surface with which a filter is brought into abutment from the front side of the filter mounting portion is provided. The front end side of the filter pushed in from a maintenance port is pressed onto an elastic body formed of a plate spring and provided in the filter mounting portion. Thereby, by a pressing force F | 08-28-2008 |
| 20080202452 | Method for detecting malfunction of a cooling system based on detected coolant temperature - A method For detecting a malfunction of a cooling system of an internal combustion engine, comprising: detecting a coolant temperature on a side of the engine; determining a malfunction of the cooling system with the coolant temperature and the value only after a cold start of the engine. | 08-28-2008 |
| 20080302317 | Automatic by-pass safety cooling system for fire pump engines - In an internal combustion engine system where the heat in the engine jacket coolant is discharged in a water cooled heat exchanger, an independent and automatic by-pass safety cooling system responsive solely and directly to engine jacket coolant temperatures to ensure that cooling of the engine will continue without reliance upon any other control system or personnel. | 12-11-2008 |
| 20120318214 | SENSOR ABNORMALITY DETECTION APPARATUS AND A BLOCK HEATER INSTALLATION DETERMINING APPARATUS - A sensor abnormality detection apparatus which is installed in a vehicle with an electric water pump for circulating engine cooling water and is configured to perform an abnormality detecting process related to a first temperature sensor or a second temperature sensor based on a relationship between a detection result of the first temperature sensor for detecting a temperature of the engine cooling water and a detection result of the second temperature sensor for detecting a temperature of another medium which is correlated with the temperature of the engine cooling water or an estimation result of the temperature of the engine cooling water, comprising: a water pump forced-operating part configured to force the electric water pump to operate if the detection result of the first temperature sensor and the detection result of the second temperature sensor or the estimation result of the temperature of the engine cooling water do not meet a predetermined relationship, under a condition where the electric water pump is not operated after an engine starts. If a decrease in the temperature of the engine cooling water is observed based on the detection result of the first temperature sensor after the forced-operation of the electric water pump by the water pump forced-operating part, the abnormality detecting process is prevented, an abnormality detection result is invalidated, or an abnormality detecting way of the abnormality detecting process is changed. | 12-20-2012 |
| 20130192545 | VARIABLE OIL PUMP DIAGNOSTIC - Embodiments for indicating degradation of a piston-cooling jet system are provided. In one example, an engine method comprises indicating degradation of a piston-cooling jet system in response to a relationship between engine speed and oil pressure at maximum oil pump displacement conditions. In this way, engine operation may be adjusted in response to an indicated degradation. | 08-01-2013 |
| 20130255603 | ENGINE COOLING SYSTEM CONTROL - Methods and systems are provided for expediting engine system heating by stagnating coolant in one of a plurality of loops in an engine cooling system. Degradation of the various valves and thermostats of the cooling system can be diagnosed by adjusting the valve and monitoring changes in one or more of coolant temperature, transmission temperature and cabin temperature. Based on engine operating conditions, the various valves may be adjusted to vary coolant temperature in different regions of the cooling system, thereby providing fuel economy benefits. | 10-03-2013 |
| 20130255604 | ENGINE COOLING SYSTEM CONTROL - Methods and systems are provided for diagnosing each of a plurality of engine cooling system components including various valves and grill shutters. Each valve may be individually closed and opened for a specified duration, and corresponding changes in coolant temperature may be monitored. If all the components are functional, the various valves may be adjusted to stagnate coolant at the engine and expedite engine warm-up during a cold-start. | 10-03-2013 |
| 20130255605 | ENGINE COOLING SYSTEM CONTROL - Methods and systems are provided for diagnosing each of a plurality of engine cooling system components including various valves and grill shutters. Each valve may be individually closed and opened for a specified duration, and corresponding changes in coolant temperature may be monitored. If all the components are functional, the various valves may be adjusted to stagnate coolant at the engine and expedite engine warm-up during a cold-start. | 10-03-2013 |
| 20150369116 | COOLANT CIRCUIT - A coolant circuit for an internal combustion engine includes: a coolant pump; at least one coolant line; a radiator; and a coolant cavity delimited in the internal combustion engine. The coolant pump, the coolant line, the radiator and the coolant cavity are filled with a coolant. One or more sensors, configured to monitor the coolant concentration, are fixedly and permanently arranged in and/or on the coolant circuit. | 12-24-2015 |
| 20150377115 | OIL JET ABNORMALITY DETERMINATION APPARATUS OF INTERNAL COMBUSTION ENGINE AND CONTROL APPARATUS OF INTERNAL COMBUSTION ENGINE - An MBT ignition time and a knock ignition time are acquired from an engine rotation speed and engine load, and an ignition time on a delay angle side, out of these ignition times, is set as the most advance angle ignition time. An ignition time on the delay angle side only by the KCS learning value with respect to the most advance angle ignition time is set as a required ignition time, and when an actual ignition time set by a knock control system exceeds a predetermined amount and is positioned on the delay angle side with respect to the required ignition time, it is determined that abnormality occurs in an oil jet. Fail-safe processing to the effect that the opening degrees of a throttle valve are corrected to a closed side is executed in response to the abnormality determination. | 12-31-2015 |
| 20160186648 | METHOD AND SYSTEM FOR ENGINE COOLING SYSTEM CONTROL - Methods and systems are providing for improving engine coolant level estimation to reduce engine overheating. The level of fluid in a coolant overflow reservoir is inferred based on the fluid level in a hollow vertical standpipe fluidically coupled to the reservoir at top and bottom locations, while the fluid level in the standpipe is estimated based on echo times of an ultrasonic signal transmitted by a sensor positioned in a recess at the bottom of the vertical standpipe. Engine power is limited differently based on distinct coolant level states determined based on a change in level of coolant in the reservoir over a duration. | 06-30-2016 |
| 20160186649 | METHOD AND SYSTEM FOR ENGINE COOLING SYSTEM CONTROL - Methods and systems are providing for improving engine coolant level estimation to reduce engine overheating. The level of fluid in a coolant overflow reservoir is inferred based on the fluid level in a hollow vertical standpipe fluidically coupled to the reservoir at top and bottom locations, while the fluid level in the standpipe is estimated based on output from an ultrasonic signal transmitted by a sensor positioned in a recess at the bottom of the vertical standpipe. The sensor uses a combination of raw echo times and processed fluid level data to estimate the fluid level accurately and reliably. | 06-30-2016 |
