JP2005273493A - Internal combustion engine equipped with method and device for detecting/correcting fuel injection valve state - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and a device for detecting/correcting a state of a fuel injection valve of an auxiliary chamber type gas engine equipped with the fuel injection valve for ignition, in which existence or nonexisting of clogging of an injection hole in operation of an engine can be highly accurately and constantly determined by using a very simple method with high working efficiency and thereby to prevent deterioration of engine performance caused by the clogging of the injection hole, and the service life of the fuel injection valve can be elongated. <P>SOLUTION: The auxiliary chamber type gas engine has the fuel injection valve for ignition for igniting and burning gas fuel in an auxiliary chamber of the engine so that ignition flame is blown into a main combustion chamber to burn gas fuel in the main combustion chamber. In detection/correction of the state of the fuel injection valve of the auxiliary chamber type gas engine, consumption of fuel injected from the fuel injection valve is detected, the fuel consumption detection value is compared to allowable fuel consumption of clogging of the injection hole set to correspond to an engine operating condition. When the fuel consumption detection value is allowable fuel consumption or less, generation of the clogging of the injection hole is determined, and a fuel injection amount of the fuel injection valve is increased. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention ignites by igniting and burning gaseous fuel in a sub chamber formed inside a sub chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. An internal combustion engine comprising a sub-chamber type gas engine having a fuel injection valve for generating a flame and configured to inject the ignition flame into a main combustion chamber and combust gas fuel in the main combustion chamber The present invention relates to a fuel injection valve state detection and correction method for detecting and correcting the injection hole clogging of the fuel injection valve, and an internal combustion engine provided with a fuel injection valve state detection and correction device for implementing the method.

  In a gas engine that injects a small amount of pilot fuel for ignition into a combustion chamber (sub chamber), if the engine is operated for a long time with a small amount of fuel injection, the amount of fuel injection is small, so that it passes through the nozzle tip nozzle hole. Since the fuel penetration force is small and the cooling effect of the nozzle tip by the fuel is small, liquid fuel is carbonized and deposited in the nozzle hole of the fuel injection valve, and the nozzle hole is easily clogged with this carbide (carbon). It is in.

As for the presence or absence of clogging of the injection hole of the fuel injection valve, conventionally, when the exhaust temperature of each cylinder is monitored and a variation in the exhaust temperature is detected, the engine is stopped and the cylinder having a large variation in the exhaust temperature is detected. The fuel injection valve was extracted, and the presence or absence of clogging of the nozzle hole with carbide (carbon) was inspected. When the nozzle hole is clogged, the carbide is removed manually.
In addition, although patent document 1 (Unexamined-Japanese-Patent No. 2002-147223) describes only slightly about the carbon clogging of the nozzle of a fuel injection valve, it does not describe the means for detecting clogging of the nozzle.

JP 2002-147223 A

As described above, in the gas engine of the pilot fuel injection system, when the engine is operated for a long time with a small amount of fuel injection, the liquid fuel is carbonized and deposited in the injection hole of the fuel injection valve. However, if the nozzle hole is clogged, the required fuel spray is not formed and the ignition and combustion become unstable, resulting in a decrease in engine performance.
Further, when the clogging of the carbide in the nozzle hole occurs, the cooling effect from the fuel in the nozzle tip is lost, the nozzle tip is overheated, the temperature rises, and the life of the fuel injection valve decreases.

However, as described above, conventionally, the presence or absence of clogging due to carbide in the nozzle hole is inspected merely by visually observing the variation in the exhaust temperature. Since it is necessary to stop the engine every time checking for the presence of clogged holes, the smooth operation of the engine is hindered and the work efficiency for detecting the presence or absence of clogged nozzle holes is low.
And so on.

  In view of the problems of the prior art, the present invention can determine with high accuracy whether or not the nozzle hole is always clogged during operation of the engine without stopping the engine by a very simple and highly efficient method. It is an object of the present invention to provide a fuel injection valve state detection and correction method and an apparatus therefor in an internal combustion engine that can prevent deterioration of engine performance due to the clogging of the injection hole and extend the life of the fuel injection valve.

The present invention achieves such an object, and an ignition fuel spray for injecting gaseous fuel in a sub chamber formed inside a sub chamber base fixed to a cylinder head of an engine (internal combustion engine) from a fuel injection valve. Provided with an ignition fuel injection valve that generates an ignition flame by igniting and burning, and is configured to inject gaseous fuel in the main combustion chamber by injecting the ignition flame into the main combustion chamber In a method for detecting and correcting the state of a fuel injection valve in an internal combustion engine comprising a sub-chamber type gas engine, the consumption amount of fuel injected from the fuel injection valve is detected, and the fuel consumption detection value and the engine operating condition are supported And the allowable fuel consumption amount of the injection hole clogging in the fuel injection valve set as described above, and the occurrence of the injection hole clogging is detected when the detected fuel consumption value is equal to or less than the allowable fuel consumption amount. Judgment , Characterized in that allowed to increase the amount of fuel injection amount of the fuel injection valve.
Here, the gaseous fuel contains or contains combustible components such as methane, ethane, propane, butane, hydrogen, carbon monoxide (more specifically, natural gas, city containing methane as a main component, city Gas (13A, 12A)), propane gas mainly containing propane or butane, coal gas containing hydrogen, digestion gas containing methane and carbon monoxide, biogas, and the like.
The ignition fuel includes petroleum fuel (kerosene, light oil, gasoline, heavy oil (A, B, C)) and the like.

  Further, as an invention of an apparatus for performing the fuel injection valve state detection and correction method, gaseous fuel in the sub chamber formed inside the sub chamber base fixed to the cylinder head of the engine (internal combustion engine) is injected from the fuel injection valve. An ignition fuel injection valve for generating an ignition flame by igniting and burning with the ignited fuel spray, and jetting the ignition flame into the main combustion chamber to supply gaseous fuel in the main combustion chamber In an internal combustion engine composed of a sub-chamber gas engine configured to burn, a fuel consumption detector that detects a consumption amount of fuel injected from the fuel injection valve, a detected fuel consumption value, and a value of the engine Comparing with the permissible fuel consumption of the nozzle hole clogging set according to the operating conditions, when the detected value of fuel consumption falls below the permissible fuel consumption, the occurrence of clogging of the nozzle hole is determined. The fuel Fuel injection valve state detection characterized by comprising a controller that allowed to increase the fuel injection quantity of events, it proposes an internal combustion engine comprising a sub-chamber type gas engine having a correction device.

  According to this invention, when clogging due to carbonization of liquid fuel occurs in the injection hole of the fuel injection valve, fuel injection from the fuel injection valve into the combustion chamber is not normal, and the fuel consumption is reduced to the engine load (or Focusing on the fact that it is less than the normal fuel consumption set in the engine operating conditions such as engine output) and engine speed, the controller uses the engine such as a predetermined engine load (or engine output) and engine speed. The actual fuel consumption detection value input from the fuel consumption detector is set in advance for the minimum fuel consumption that is the limit of occurrence of clogging of the nozzle hole, that is, the allowable fuel consumption. When the detected value of the fuel consumption is less than the allowable fuel consumption, the nozzle hole is clogged with carbonized liquid fuel. It determines that.

Then, after determining whether the nozzle hole is clogged, the controller outputs an increase signal of the fuel injection amount of the fuel injection valve to the fuel injection amount control means of the engine such as a governor controller. The amount of fuel injection from the nozzle increases and blows away the carbides accumulated in the nozzle holes to eliminate clogging of the nozzle holes.
Next, when the controller detects that the nozzle hole is clogged and the detected value of the actual fuel consumption exceeds the allowable fuel consumption, it determines that the nozzle hole is clogged. Thus, the fuel injection amount is reduced to the normal fuel consumption amount set in the engine operating condition, and the normal operation is resumed.

  Therefore, according to the present invention, the actual fuel consumption is detected, and the detected value of the fuel consumption is compared with a predetermined minimum fuel consumption that is a limit of occurrence of clogging of the nozzle hole, that is, an allowable fuel consumption. It is an extremely simple method to determine the occurrence of clogging of the nozzle hole, and it is possible to accurately determine whether or not the nozzle hole is clogged at all times during operation of the engine. The performance can be prevented from being lowered and the life of the fuel injection valve can be extended.

Preferably, in this invention, the injection hole clogging time in which the detected fuel consumption value is equal to or less than the allowable fuel consumption is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time. .
And as a device for carrying out such a method, preferably, a timer for measuring the operation time of the engine and inputting it to the controller is provided, and the controller includes a fuel consumption detection value and an operation time measurement value from the timer. And detecting the injection hole clogging time when the detected fuel consumption value is less than or equal to the allowable fuel consumption, and increasing the fuel injection amount of the fuel injection valve during the injection hole clogging time. Being done.

  According to this configuration, the detection time of the fuel consumption is detected by detecting a time during which the detected value of the fuel consumption is equal to or less than a preset minimum fuel consumption, that is, an allowable fuel consumption, which becomes a limit of occurrence of clogging of the nozzle hole. Since the nozzle hole clogging is determined when the nozzle hole clogging allowable time is exceeded, erroneous determination of nozzle hole clogging caused by a temporary reduction in fuel consumption can be avoided, and the accuracy of determining the nozzle hole clogging is improved. .

  According to the present invention, in the method for detecting and correcting the state of the fuel injection valve in the internal combustion engine, the nozzle tip temperature in the fuel injection valve is detected, and the nozzle tip temperature detection value and the set allowable nozzle tip temperature of the nozzle hole clogging are set. And the occurrence of clogging of the nozzle hole is determined when the detected value of the nozzle tip temperature is equal to or higher than the allowable nozzle tip temperature, and the fuel injection amount of the fuel injection valve is increased.

  Also, as an invention of an apparatus for performing the fuel injection valve state detection and correction method, in the internal combustion engine, a nozzle tip temperature detector for detecting a temperature of a nozzle tip in the fuel injection valve and a nozzle tip temperature detector are input. The detected nozzle tip temperature is compared with the set allowable nozzle tip temperature of the nozzle hole clogging, and when the detected nozzle tip temperature becomes equal to or higher than the allowable nozzle tip temperature, the occurrence of the nozzle hole clogging is determined. And a fuel injection valve state detection and correction device comprising a controller for increasing the fuel injection amount of the fuel injection valve.

  According to this invention, when clogging due to carbonization of liquid fuel occurs in the nozzle hole of the fuel injection valve, fuel injection from the fuel injection valve into the combustion chamber is not normal, and the nozzle tip temperature in the fuel injection valve is Focusing on the rise, the controller sets a maximum nozzle tip temperature that is the limit of occurrence of clogging of the nozzle hole, that is, an allowable nozzle tip temperature in advance, and the actual nozzle tip temperature input from the nozzle tip temperature detector is set. When the temperature becomes equal to or higher than the allowable nozzle tip temperature, it is determined that the nozzle hole is clogged due to carbonization of the liquid fuel.

Then, after determining whether the nozzle hole is clogged, the controller outputs an increase signal of the fuel injection amount of the fuel injection valve to the fuel injection amount control means of the engine such as a governor controller. The amount of fuel injected from the nozzles increases, and the carbides accumulated in the nozzle holes are blown off to eliminate clogging of the nozzle holes.
Next, when the controller detects that the nozzle hole is clogged and the detected value of the actual nozzle tip temperature is equal to or lower than the allowable nozzle tip temperature, the nozzle hole is clogged. Determination is made to reduce the fuel injection amount to the normal fuel consumption set in the engine operating conditions, and to return to normal operation.

  Therefore, according to this invention, the nozzle tip temperature of the fuel injection valve is detected, and the detected value of the nozzle tip temperature and the preset maximum nozzle tip temperature that is the limit of occurrence of clogging of the nozzle hole, that is, the allowable nozzle tip temperature are obtained. In comparison, the occurrence of clogging of the nozzle hole is determined by a very simple method, and the presence or absence of clogging of the nozzle hole can always be determined with high accuracy during engine operation. The engine performance can be prevented from deteriorating due to the clogging of the nozzle hole, and the life of the fuel injection valve can be extended.

In this invention, it is preferable that the nozzle clogging time in which the nozzle tip temperature detection value is equal to or higher than the allowable nozzle tip temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the nozzle hole clogging time. .
As a device for carrying out such a method, preferably, a timer for measuring the operation time of the engine and inputting it to the controller is provided, and the controller measures the detected value of the nozzle tip temperature and the operation time from the timer. Based on the value, the nozzle hole clogging time in which the detected value of the nozzle tip temperature is equal to or higher than the allowable nozzle chip temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the nozzle hole clogging time. Consists of.

  According to this configuration, the detection time of the nozzle tip temperature is detected by detecting a time in which the detected value of the nozzle tip temperature is equal to or higher than the preset nozzle tip temperature that is the limit of occurrence of clogging of the nozzle hole, that is, the allowable nozzle tip temperature. Therefore, the nozzle hole clogging is determined when the nozzle hole clogging allowable time is exceeded, so that the presence or absence of the nozzle hole clogging can be determined with the nozzle tip temperature being stable, and the accuracy of determining the nozzle hole clogging is improved.

  Further, according to the present invention, in the fuel injection valve state detection and correction method in the internal combustion engine, the exhaust temperature of the engine is detected, and the detected exhaust temperature is compared with the set allowable exhaust temperature of the nozzle hole clogging, When the detected exhaust gas temperature becomes equal to or lower than the allowable exhaust gas temperature, it is determined that the nozzle hole is clogged, and the fuel injection amount of the fuel injection valve is increased.

  Further, as an invention of an apparatus for performing the fuel injection valve state detection and correction method, in the internal combustion engine, an exhaust temperature detector for detecting an exhaust temperature of the engine, and an exhaust temperature detection value input from the exhaust temperature detector And the set allowable exhaust temperature of the nozzle hole clogging, and when the detected exhaust gas temperature is equal to or lower than the allowable exhaust temperature, it is determined that the nozzle hole is blocked, and the fuel injection amount of the fuel injection valve An apparatus for detecting and correcting the state of a fuel injection valve of an internal combustion engine is provided.

  According to this invention, at the time of overload or rapid load application, the nozzle tip overheats and clogging of the fuel injection valve due to carbonization of the liquid fuel occurs, and fuel injection from the fuel injection valve into the combustion chamber is normal. In the controller, the minimum exhaust temperature that is the limit of occurrence of clogging of the nozzle hole, that is, the allowable exhaust temperature is set in advance, and the actual temperature input from the exhaust temperature detector is set. When the exhaust temperature becomes equal to or lower than the allowable exhaust temperature, it is determined that clogging due to carbonization of liquid fuel occurs in the nozzle hole.

Then, after determining whether the nozzle hole is clogged, the controller outputs an increase signal of the fuel injection amount of the fuel injection valve to the fuel injection amount control means of the engine such as a governor controller. The amount of fuel injected from the nozzles increases, and the carbides accumulated in the nozzle holes are blown off to eliminate clogging of the nozzle holes.
Next, when the controller detects that the nozzle hole is clogged and the detected value of the actual exhaust temperature is equal to or higher than the allowable exhaust temperature, the controller determines that the nozzle hole is clogged. Thus, the fuel injection amount is reduced to the normal fuel consumption amount set in the engine operating condition, and the normal operation is resumed.

  Therefore, according to this invention, the exhaust temperature of the engine is detected, and the detected value of the exhaust temperature is compared with a preset minimum exhaust temperature that is a limit of occurrence of clogging of the injection hole, that is, an allowable exhaust temperature. It is possible to determine the occurrence of clogging of the nozzle hole with a very simple method and to determine whether or not the nozzle hole is clogged at all times during operation of the engine. The performance can be prevented from being lowered and the life of the fuel injection valve can be extended.

Preferably, in this invention, the injection hole clogging time in which the detected exhaust gas temperature value is equal to or lower than the allowable exhaust gas temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time.
And as a device for carrying out such a method, preferably, a timer for measuring the operation time of the engine and inputting it to the controller is provided, and the controller includes the detected exhaust gas temperature value and the measured operation time value from the timer. On the basis of this, the nozzle hole clogging time in which the detected exhaust gas temperature is below the allowable exhaust gas temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the nozzle hole clogging time.

  According to this configuration, a time during which the detected value of the exhaust temperature is lower than the preset exhaust hole clogging limit, ie, the minimum exhaust temperature, that is, the allowable exhaust temperature or less, is detected. Since the nozzle hole clogging is determined when the allowable clogging time is exceeded, it is possible to determine the presence or absence of nozzle hole clogging while the exhaust temperature, which fluctuates greatly during engine operation, is set, and the accuracy of the nozzle hole clogging determination is improved. .

  Further, the present invention provides a method for detecting and correcting a state of a fuel injection valve in the internal combustion engine, wherein the engine load (or output) and the operation time of the engine are detected, and the engine load (or output) and the operation time are detected based on the engine load (or output) and operation time. The load change rate (or output change rate), which is the time change of the load (or output), is calculated, and the allowable load change rate (or output change rate) in which the calculated value of the load change rate (or output change rate) is set. When the above operation time exceeds a set allowable operation time, the occurrence of clogging of the nozzle hole is determined, and the fuel injection amount of the fuel injection valve is increased.

  Further, as an invention of an apparatus for performing the fuel injection valve state detection and correction method, a load (or output) detector for detecting the load (or output) of the engine, a timer for measuring the operating time of the engine, Based on the load (or output) detection value input from the load (or output) detector and the operation time input from the timer, the load change rate (or output change rate), which is the time change of the load (or output), is calculated. When the operation time when the calculated value of the load change rate (or output change rate) exceeds the set allowable load change rate (or output change rate) exceeds the set allowable operation time, the nozzle hole And a controller for increasing the fuel injection amount of the fuel injection valve by determining occurrence of clogging of the fuel injection valve, and detecting and repairing the state of the fuel injection valve of the internal combustion engine To propose a device.

  According to this invention, when the engine is rapidly loaded, that is, when the load change rate (or output change rate) increases, the nozzle tip of the fuel injection valve overheats and the nozzle hole is clogged due to carbonization of liquid fuel, Paying attention to the fact that fuel injection from the fuel injection valve into the combustion chamber will not be performed normally, the controller calculates the load change rate (or output change rate) calculated based on the load detection value (or output detection value) The operation time that is allowed to exceed the maximum load change rate (or output change rate) that is the limit of occurrence of clogging of the nozzle hole, that is, the allowable load change rate (or allowable output change rate), that is, the allowable operation time is preset. In addition, when the load change rate (or output change rate) operating time exceeds a set allowable operating time, the nozzle hole is clogged with carbonized liquid fuel. It determines that has occurred.

Then, after determining whether the nozzle hole is clogged, the controller outputs an increase signal of the fuel injection amount of the fuel injection valve to the fuel injection amount control means of the engine such as a governor controller. The amount of fuel injected from the nozzles increases, and the carbides accumulated in the nozzle holes are blown off to eliminate clogging of the nozzle holes.
Next, when the controller detects that the nozzle hole is clogged and the operation time based on the actual load change rate (or output change rate) has become less than the allowable operation time, the nozzle hole clogging is eliminated. The fuel injection amount is reduced to the normal fuel consumption set in the engine operating conditions, and the normal operation is resumed.

  Therefore, according to this invention, the detected load value (or output detection value) of the engine is detected, and the clogging of the nozzle hole is generated depending on the operation time based on the load change rate (or output change rate) calculated based on the load detection value. It is possible to determine with high accuracy whether or not the nozzle hole is always clogged during engine operation with a very simple method. This can be prevented and the life of the fuel injection valve can be extended.

According to the present invention, the actual fuel consumption is detected, and the detected value of the fuel consumption is compared with a predetermined minimum fuel consumption that is the limit of occurrence of clogging of the nozzle hole, that is, an allowable fuel consumption. Determine the occurrence of clogging of the nozzle hole,
Alternatively, the nozzle tip temperature of the fuel injection valve is detected, and the detected value of the nozzle tip temperature is compared with a preset nozzle tip temperature that is a limit of occurrence of clogging of the nozzle hole, that is, an allowable nozzle tip temperature. Judge the occurrence of clogging,
Alternatively, the exhaust temperature of the engine is detected, and the detected value of the exhaust temperature is compared with the preset minimum exhaust temperature that is the limit of occurrence of the clogging of the nozzle hole, that is, the allowable exhaust temperature, to determine whether the nozzle hole is clogged. And
Alternatively, an engine load detection value (or output detection value) is detected, and occurrence of clogging of the nozzle hole is determined based on an operation time based on a load change rate (or output change rate) calculated based on the load detection value. It is a simple method and can accurately determine the presence or absence of nozzle hole clogging during engine operation, prevent engine performance deterioration due to nozzle hole clogging, and reduce the life of the fuel injection valve. Can be extended.

  Hereinafter, the present invention will be described in detail using embodiments shown in the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the component parts described in this example are not intended to limit the scope of the present invention only to specific examples unless otherwise specified. Only.

  FIG. 1 is an overall configuration diagram of a sub-chamber type gas engine equipped with a fuel injection valve state detection and correction device according to a first embodiment of the present invention. FIG. 2 is a control block diagram (part 1) in the first embodiment, and FIG. 3 is a control block diagram (part 2). FIG. 4 is a view corresponding to FIG. 1 showing the second embodiment. FIG. 5 is a sectional view of a fuel injection valve to which the present invention is applied.

In FIG. 1 showing the first embodiment of the present invention, 100 is an engine, 101 is a cylinder head, 118 is a piston, 105 is a cylinder liner, 104 is a main combustion chamber, 106 is an exhaust passage, and 107 is an exhaust valve.
130 is a sub chamber main body, 131 is a sub chamber base, and the sub chamber main body 130 and the sub chamber base 131 are arranged concentrically with the cylinder center line (not necessarily concentric), and a plurality of bolts (not shown). Fastened to the cylinder head 101.
103 is a sub chamber formed in the sub chamber base 131, 102 is a fuel injection valve fixed to the central portion of the sub chamber main body 130, and injects fuel from the fuel injection valve 102 into the sub chamber 103, The injected fuel is ignited and combusted in the sub chamber 103. The sub chamber 103 communicates with the main combustion chamber 104 through a plurality of communication holes 103a.

A fuel injection pump 110 is reciprocally driven by a fuel cam 114 that is rotationally driven in conjunction with a crankshaft (not shown) of the engine 100 to pressurize the fuel to a high pressure and to the fuel injection valve 102 via a high pressure injection pipe 117. Is to be pumped.
108 is a liquid fuel tank in which fuel (liquid fuel) is stored, 114 and 116 are fuel supply pipes connecting the liquid fuel tank 108 and the fuel inlet of the fuel injection pump 110, and 115 is from the fuel injection pump 110. It is a fuel return pipe. Reference numeral 109 denotes a fuel supply pump that supplies the fuel in the liquid fuel tank 108 to the fuel injection pump 110.
113 is a governor and 2 is a governor controller. The governor 113 receives the control signal output from the governor controller 2 based on the detected value of the engine speed from the engine speed detector 3, and sets the fuel injection amount. Then, the governor operation amount corresponding to the fuel injection amount is transmitted to the fuel adjustment rack 111 of the fuel injection pump 110 via the fuel adjustment link 112, and the fuel injection amount of the fuel injection pump 110 is controlled to the set value. It is like that.

The fuel injection valve 102 has the same configuration as the conventional one. In FIG. 5 showing the details, 123 is an injection valve main body, and 125 is fastened to the injection valve main body 123 via a nozzle nut 127. A nozzle tip 122 is a needle valve fitted in the nozzle tip 125 so as to be slidable back and forth. Reference numeral 124 denotes a needle valve spring that presses the needle valve 122 in the valve closing direction, and reference numeral 128 denotes an adjustment screw that adjusts the mounting load of the needle valve spring 124.
121 is a plurality of nozzle holes perforated at the tip of the nozzle chip 125, 129 is an oil reservoir that opens on the inlet side of the nozzle hole 121, and 126 is a fuel passage connected to the oil reservoir 129.

  In the fuel injection valve 102, when high-pressure fuel pumped from the fuel injection pump 110 through the high-pressure injection pipe 117 reaches the oil sump 129 through the fuel passage 126, the needle valve 122 is driven by the pressure of the high-pressure fuel. Is pushed up against the spring force of the needle valve spring 124 to open, and is injected from the nozzle hole 121 into the combustion chamber (in the case of FIG. 1, the sub chamber 103).

  During the operation of the sub-chamber gas engine, the compressed air and gaseous fuel in the main combustion chamber 104 are filled into the sub-chamber 103 through the communication hole 103a during the compression stroke, and at the set injection timing. The fuel for ignition is injected into the pressurized air in the sub chamber 103 from the nozzle hole 121 (see FIG. 5) of the nozzle tip 125 of the fuel injection valve 102, and is ignited and burned together with the gaseous fuel. The generated ignition flame is ejected into the main combustion chamber 104 through the communication hole 103a, and the gaseous fuel in the main combustion chamber 104 is ignited and combusted.

The present invention relates to detection of the state of the fuel injection valve 102, specifically, the clogging state of the injection hole 121, a correction method for the clogging, and an apparatus therefor.
In FIG. 1 showing the first embodiment, reference numeral 7 denotes a fuel consumption detector provided in a fuel supply pipe 114 to the fuel injection pump 110, and fuel supplied to the fuel injection pump 110 through the fuel supply pipe 116. The difference between the amount and the amount of fuel returned through the fuel return pipe 115, that is, the amount of fuel consumed is detected.
3 is an engine speed detector that detects the engine speed, 4 is an engine load detector (or engine output detector) that detects the engine load (or engine output), and 5 is a timer that measures the operating time of the engine 100. is there. Reference numeral 6 denotes an exhaust temperature sensor which is attached to the exhaust passage 106 and detects the exhaust temperature in the exhaust passage 106, and 12 is a nozzle tip temperature sensor which detects the nozzle tip temperature of the fuel injection valve 102.

  Reference numeral 1 denotes a controller that performs control and calculation to be described later, and outputs a control operation signal to the governor controller 2. The detected value of the engine fuel consumption from the fuel consumption detector 7, and the engine speed from the engine speed detector 3. A detected value of the engine load detector (or engine output detector) 4, a detected value of the engine load (or engine output) from the exhaust temperature sensor 6, an exhaust temperature detected value from the exhaust temperature sensor 6, and the nozzle tip temperature sensor 12 The detected value of the nozzle tip temperature and the detected value of the operation time from the timer 5 are input to the controller 1.

Next, the operation of the first embodiment will be described with reference to the control block diagrams of FIGS. 2A to 3A and FIG.
In the first example shown in FIG. 2A, the detected value of the engine fuel consumption from the fuel consumption detector 7 is input to the nozzle clogging determination unit 32 of the controller 1.
Reference numeral 31 denotes a fuel consumption setting unit. The fuel consumption setting unit 31 includes a detected value of the engine speed from the engine speed detector 3 and an engine load from the engine load detector (or engine output detector) 4. (Or engine output) detection value is input. In the fuel consumption setting section, as shown in FIG. 5B, the minimum fuel consumption, that is, the allowable fuel consumption that becomes the limit of occurrence of clogging of the nozzle hole 121 (see FIG. 5) of the fuel injection valve 102 is set. It is set corresponding to the engine load (or engine output) or the engine speed.

Here, when the injection hole 121 of the fuel injection valve 102 is clogged due to carbonization of the liquid fuel, the fuel injection from the fuel injection valve 102 into the combustion chamber (in this case, the sub chamber 103) is normally performed. The fuel consumption is reduced from the normal fuel consumption set in the engine operating conditions such as engine load (or engine output) and engine speed.
Therefore, in the nozzle clogging determination unit 32, the actual engine fuel consumption detection value input from the fuel consumption detector 7 and the engine load (or engine engine) set in the fuel consumption setting unit 31 are detected. Output) or permissible fuel consumption at the engine speed, and a fuel consumption deviation is calculated. When the detected value of the fuel consumption falls below the permissible fuel consumption, liquid fuel is introduced into the nozzle hole 121. It is determined that clogging due to carbonization has occurred, and the determination result is input to the injection amount increase amount calculation unit 33.
In the injection amount increase amount calculation unit 33, an increase amount of the fuel injection amount is set corresponding to the deviation between the detected value of the fuel consumption amount and the allowable fuel consumption amount, and is input from the nozzle clogging determination unit 32. An increase amount of the fuel injection amount corresponding to the fuel consumption amount deviation is calculated and input to the governor operation amount calculation unit 34.

The governor operation amount calculation unit 34 calculates the operation amount of the governor 113 corresponding to the increase amount of the fuel injection amount, that is, the movement amount of the fuel adjustment rack 111 of the fuel injection pump 110, and inputs it to the governor controller 2.
In the governor controller 2, the governor 113 is operated with an operation amount obtained by adding the operation amount of the governor 113 corresponding to the increase amount of the fuel injection amount to the operation amount of the governor 113 based on the detected value of the normal engine speed. Operate. Accordingly, the governor 113 pushes the fuel adjustment rack 111 of the fuel injection pump 110 toward the fuel injection amount increase side by an amount corresponding to the increase in the fuel injection amount, thereby increasing the fuel injection amount.

By increasing the fuel injection amount, the flow energy of the fuel passing through the nozzle hole 121 of the fuel injection valve 102 is increased, and the carbides accumulated in the nozzle hole 121 are blown off to eliminate clogging of the nozzle hole 121.
On the other hand, in the nozzle clogging determination unit 32, the detected fuel consumption value is calculated based on the measured operation time value input from the timer 5 and the detected fuel consumption value from the fuel consumption detection 7. In the following state, the nozzle hole clogging time in which the nozzle hole 121 is clogged is detected, and when the detection time exceeds the preset nozzle hole clogging allowable time, the nozzle hole clogging is determined. Thus, the fuel injection amount is continuously increased during the nozzle hole clogging time.
In this way, the nozzle clogging determination unit 32 detects the time when the detected value of the fuel consumption is in the state equal to or less than the allowable fuel consumption based on the measured operation time value by the timer 5, and the detected time Since the nozzle hole clogging is determined when the nozzle hole clogging allowable time is exceeded, erroneous determination of nozzle hole clogging caused by a temporary reduction in fuel consumption can be avoided, and the accuracy of determining the nozzle hole clogging is improved. .

  Next, when the nozzle clogging determination unit 32 of the controller 1 detects that the nozzle hole 121 has been clogged and the detected value of the actual fuel consumption exceeds the allowable fuel consumption, the nozzle hole is clogged. It is determined that the fuel has been eliminated, and the fuel injection amount is reduced to a normal fuel consumption amount set in the engine operating conditions such as the engine speed and the engine load (or engine output), and the normal operation is resumed.

  Therefore, according to this embodiment, the actual fuel consumption amount is detected, and the detected value of the fuel consumption amount in the controller 1 and the minimum fuel consumption amount that is a limit of occurrence of clogging of the nozzle hole, that is, the allowable fuel consumption amount. And the occurrence of clogging of the nozzle hole is determined by a very simple method, and the presence or absence of clogging of the nozzle hole can always be determined with high accuracy during the operation of the engine 100. Therefore, it is possible to prevent the engine performance from being deteriorated due to the clogging of the injection hole 121 and to extend the life of the fuel injection valve 102.

Next, in the second example shown in FIG. 3A, the detected value of the nozzle tip temperature from the nozzle temperature sensor 12, the detected value of the exhaust temperature from the exhaust temperature sensor 6, and the engine operating time from the timer 5 The detection value is input to the nozzle clogging determination unit 43 of the controller 1. The detected value of the engine load (or engine output) from the load detector (or engine output detector) 4 is input to the load change rate calculation unit 42 of the controller 1.
The load change rate calculation unit 42 calculates a load change rate (or output change rate) ΔL that is a time change of the load (or output) based on the engine load (or output) and the operation time from the timer 5. , Input to the nozzle clogging determination unit 43.

Reference numeral 41 denotes a nozzle temperature setting unit. As shown in FIG. 3B, the nozzle temperature setting unit 41 includes the relationship between the operating time t and the nozzle tip 125 (see FIG. 5) temperature Tn, and the nozzle hole 121 ( Figure 5 maximum nozzle tip temperatures clogging allowable nozzle tip temperature Tn _0, and the allowable nozzle tip temperature Tn allowable time is _zero or more conditions i.e. the nozzle hole blockage of time allowed Delta] t ₁ the limit of occurrence of clogging reference) is set ing.
Reference numeral 44 denotes an exhaust gas temperature setting unit. As shown in FIG. 3C, the exhaust gas temperature setting unit 44 includes a relationship between the operation time t and the exhaust gas temperature Te, and the lowest limit for occurrence of clogging of the nozzle hole 121. An exhaust temperature, that is, an allowable exhaust temperature Te ₀ , and an allowable time in which the exhaust gas temperature is equal to or lower than the allowable exhaust temperature Te ₀ , that is, an allowable time Δt _{2 for} injection hole clogging are set.
Reference numeral 45 denotes a load change rate setting unit. As shown in FIG. 3D, the load change rate setting unit 45 includes the relationship between the operation time t and the load change rate ΔL and the limit of occurrence of clogging of the nozzle hole 121. The maximum load change rate, that is, the permissible load change rate ΔL ₀ , and the permissible time that is equal to or greater than the permissible load change rate ΔL ₀ , that is, the permissible time Δt _{3 for} injection hole clogging are set.

Allowable nozzle tip temperature Tn ₀ from nozzle temperature setting unit 41 and nozzle hole clogging allowable time Δt ₁ , allowable exhaust gas temperature Te _{0 from} nozzle temperature setting unit 44 and nozzle hole clogging allowable time Δt ₂ , load change rate setting The allowable load change rate ΔL ₀ and the nozzle clogging allowable time Δt ₃ from the unit 45 are input to the nozzle clogging determination unit 43.

Here, when the clogging occurs in the nozzle hole 121 of the fuel injection valve 102, fuel injection from the fuel injection valve into the combustion chamber is not normal, and the nozzle tip temperature Tn in the fuel injection valve 102 rises.
Therefore, in the nozzle clogging determining unit 43, it may be set up to the nozzle tip temperature clogging the allowable nozzle tip temperature Tn ₀ of the limit of occurrence of clogging the nozzle holes 121 previously, the actual input from the nozzle temperature sensor 12 When the nozzle tip temperature Tn becomes equal to or higher than the allowable nozzle tip temperature Tn ₀ , it is determined that the clogging has occurred in the injection hole 121, and the determination result of the fuel injection amount increase is the injection amount increase calculation unit 33. Output to.
The subsequent operation is the same as in the first example.

Further, in the nozzle clogging determination unit 43, the operation time measurement value input from the timer 5 and the allowable time in which the nozzle tip temperature Tn is equal to or higher than the allowable nozzle tip temperature Tn ₀ , that is, the injection port clogging allowable time Δt. _{When 1} is exceeded, clogging of the nozzle hole 121 is determined, and the fuel injection amount is continuously increased during the nozzle hole clogging time.
According to this configuration, the nozzle clogging determination unit 43 determines clogging of the nozzle hole 121 when the detection time exceeds the nozzle hole clogging allowable time Δt ₁ based on the measured operation time value by the timer 5. The presence or absence of nozzle hole clogging can be determined while the tip temperature Tn is stable, and the determination accuracy of nozzle hole clogging is improved.

When the nozzle clogging determination unit 43 of the controller 1 as described above detects that the detected value of the actual nozzle tip temperature Tn is equal to or lower than the allowable nozzle tip temperature Tn ₀ , the temperature rise of the nozzle tip 125 is caused. Clogging of nozzle hole 121 It is determined that the nozzle hole is clogged, and the normal fuel consumption is set with the fuel injection amount set to the engine operating conditions such as engine speed and engine load (or engine output). Reduce the amount to normal and return to normal operation.
Thus, by comparing the maximum nozzle tip temperatures clogging allowable nozzle tip temperature Tn ₀ of the clogging of the limit of detection value with a preset injection hole of the nozzle tip temperature Tn, the occurrence of clogging of該噴hole 121 It is possible to determine with high accuracy whether or not the nozzle hole 121 is always clogged with a very simple method of determining and during operation of the engine 100.

Further, when the engine 100 is overloaded or rapidly loaded, the nozzle tip 125 is overheated and the clogging occurs in the nozzle hole 121 of the fuel injection valve 102, and fuel injection from the fuel injection valve into the combustion chamber becomes normal. Exhaust temperature is not allowed.
Therefore, in the nozzle clogging determining unit 43, may be set the minimum exhaust temperature, i.e. the allowable exhaust temperature Te ₀ as a limit of the clogging of the injection hole 121 in advance, the actual exhaust temperature input from the exhaust gas temperature sensor 6 When Te becomes equal to or lower than the allowable exhaust temperature Te ₀ , it is determined that the clogging has occurred in the nozzle hole 121, and the determination result of the fuel injection amount increase is output to the injection amount increase calculation unit 33.
The subsequent operation is the same as in the first example.

Further, in the nozzle clogging determining unit 43, the time allowed Delta] t ₂ of the permissible time or the injection hole clogging the exhaust temperature Te and the operating time measurement value inputted from said timer 5 is in the allowable exhaust temperature Te ₀ following states When exceeding, the clogging of the nozzle hole 121 is determined, and the fuel injection amount is continuously increased during the nozzle hole clogging time.
In this way, a time during which the detected value of the exhaust temperature Te is equal to or lower than the preset minimum exhaust temperature that is the limit of occurrence of clogging of the nozzle hole 121, that is, the allowable exhaust temperature Te ₀ is detected. Therefore, the nozzle hole 121 is determined to be clogged when the nozzle hole clogging tolerance time Δt ₂ is exceeded. Therefore, the presence or absence of the nozzle hole clogging can be determined in a state where the exhaust temperature having a large fluctuation is set during operation of the engine. The accuracy of determination is improved.

Furthermore, the nozzle clogging determination unit 43 of the controller 1, the detected value of the actual exhaust temperature Te detects that became the allowable exhaust temperature Te ₀ or more, according to the exhaust gas temperature drops, clogging of the injection hole 121 is eliminated The fuel injection amount is reduced to the normal fuel consumption set in the engine operating conditions such as the engine speed and engine load (or engine output), and the normal operation is resumed.
Thus, by comparing the minimum exhaust temperature, that allowed the exhaust temperature Te ₀ to the limit of occurrence of clogging detection value with a preset injection holes 121 of the exhaust temperature Te, determining occurrence of clogging of該噴hole 121 Thus, it is possible to determine with high accuracy whether or not the nozzle hole 121 is always clogged with an extremely simple method and during operation of the engine 100.

Further, when the engine is rapidly loaded, that is, when the load change rate (or output change rate) ΔL becomes large, the nozzle tip 125 of the fuel injection valve 102 is overheated and the clogging occurs in the nozzle hole 121, and fuel injection is performed. The fuel is not normally injected from the valve 102 into the combustion chamber.
Therefore, in the nozzle clogging determination unit 43, the calculated value of the load change rate (or output change rate) ΔL calculated based on the load detection value (or output detection value) by the load change rate calculation unit 42 is clogged in the nozzle hole 121. A maximum load change rate (or output change rate) that is the limit of generation, that is, an allowable load change rate (or allowable output change rate) ΔL ₀ or more is allowed to be set in advance, that is, an allowable operation time Δt ₃ is set in advance. When the operation time of the load change rate (or output change rate) exceeds the allowable operation time Δt ₃ , it is determined that the nozzle hole 121 is clogged due to carbonization of the liquid fuel, and the fuel The determination result of the injection amount increase amount is output to the injection amount increase amount calculation unit 33.
The subsequent operation is the same as in the first example.

Further, when the nozzle clogging determination unit 43 of the controller 1 detects that the operation time due to the actual load change rate (or output change rate) ΔL has become the allowable operation time Δt ₃ or less, the load change rate ΔL increases. It is determined that the clogging of the nozzle hole 121 is eliminated, and the fuel injection amount is reduced to the normal fuel consumption set in the engine operating conditions such as the engine speed and engine load (or engine output). At least, return to normal operation.

  As described above, the load detection value (or output detection value) of the engine 100 is detected, and the occurrence of clogging of the nozzle hole is caused by the operation time based on the load change rate (or output change rate) ΔL calculated based on the load detection value. It is possible to determine whether or not the nozzle hole 121 is always clogged with a very simple method and during operation of the engine 100 with high accuracy, and a decrease in engine performance due to the nozzle hole being clogged. Can be prevented.

In the second embodiment shown in FIG. 4, the present invention is applied to an accumulator ignition fuel injection sub-chamber gas engine having a common rail. In the figure, 119 is a common rail, 120 is an accumulator pump, The high-pressure fuel pressurized to a high pressure by the pump 120 is pumped to the fuel injection valve 102 through the high-pressure injection pipe 221.
The fuel injection valve 102 is controlled in fuel injection amount and injection timing by the fuel injection valve controller 10. The engine speed is input from the engine speed detector 3 to the fuel injection valve controller 10, and usually the fuel injection amount and the injection timing are controlled by the engine speed (control by engine load may be used).

In the second embodiment, the nozzle clogging determination units 32 and 43 of the controller 1 determine the occurrence of clogging due to carbonization of the liquid fuel in the nozzle hole 121 as in the first embodiment, and increase the fuel injection amount. Is output from the injection amount increase amount calculation unit 33 of the controller 1 to the fuel injection valve controller 10.
Other configurations are the same as those of the first embodiment, and the same members are denoted by the same reference numerals.

  According to the present invention, it is possible to determine whether or not the nozzle hole is always clogged with high accuracy during operation of the engine without stopping the engine by an extremely simple and highly efficient method. In addition, it is possible to provide a method and apparatus for detecting and correcting the state of a fuel injection valve in an internal combustion engine that can prevent the engine performance from being deteriorated due to the above and can extend the life of the fuel injection valve.

1 is an overall configuration diagram of a sub-chamber gas engine including a fuel injection valve state detection and correction device according to a first embodiment of the present invention. FIG. 3 is a control block diagram (part 1) in the first embodiment. FIG. 3 is a control block diagram (part 2) in the first embodiment. It is a figure corresponding to FIG. 1 which shows 2nd Example. It is sectional drawing of the fuel injection valve to which this invention is applied.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Engine 102 Fuel injection valve 103 Sub chamber 103a Communication hole 104 Main combustion chamber 106 Exhaust passage 110 Fuel injection pump 113 Governor 119 Common rail 120 Accumulation pump 121 Injection hole 125 Nozzle tip 1 Controller 2 Governor controller 3 Engine speed detector 4 Load detection 5 Timer 6 Exhaust temperature sensor 7 Fuel consumption detector 12 Nozzle tip temperature sensor

Claims (14)

  An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. Ignition fuel for an internal combustion engine comprising a sub-chamber type gas engine comprising a fuel injection valve for ignition and configured to inject the ignition flame into a main combustion chamber and combust gas fuel in the main combustion chamber In a fuel injection valve state detection and correction method for injecting fuel (hereinafter referred to as fuel), a consumption amount of fuel injected from the fuel injection valve is detected, and the fuel consumption detection value and the engine operating condition are detected. Comparing with the set allowable fuel consumption of the injection hole clogging in the fuel injection valve, the occurrence of the injection hole clogging is determined when the detected fuel consumption value is less than or equal to the allowable fuel consumption. Sub chamber fuel injection valve state detection of an internal combustion engine comprising a gas-engine, correction method, characterized in that allowed to increase the amount of fuel injection amount of the fuel injection valve.   An injection hole clogging time in which the fuel consumption detection value is equal to or less than the allowable fuel consumption is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time. Item 6. A fuel injection valve state detection and correction method for an internal combustion engine according to Item 1.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. Ignition fuel for an internal combustion engine comprising a sub-chamber type gas engine comprising a fuel injection valve for ignition and configured to inject the ignition flame into a main combustion chamber and combust gas fuel in the main combustion chamber In a fuel injection valve state detection and correction method for injecting (hereinafter referred to as fuel), a nozzle tip temperature in the fuel injection valve is detected, and the nozzle tip temperature detection value and a set nozzle nozzle temperature at which nozzle holes are clogged are set. In comparison, when the detected nozzle tip temperature is equal to or higher than the allowable nozzle tip temperature, it is determined that the nozzle hole is clogged, and the fuel injection amount of the fuel injection valve is increased. Sub chamber fuel injection valve state detection of an internal combustion engine comprising a gas-engine, modifications wherein the caulking.   An injection hole clogging time in which the nozzle tip temperature detection value is equal to or higher than the allowable nozzle tip temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time. Item 6. A method for detecting and correcting a state of a fuel injection valve of an internal combustion engine according to Item 3.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. Ignition fuel for an internal combustion engine comprising a sub-chamber type gas engine comprising a fuel injection valve for ignition and configured to inject the ignition flame into a main combustion chamber and combust gas fuel in the main combustion chamber In the fuel injection valve state detection and correction method for injecting (hereinafter referred to as fuel), the exhaust temperature of the engine is detected, the detected exhaust temperature is compared with the set allowable exhaust temperature of the nozzle hole clogging, The sub-chamber type gas engine is characterized in that when the detected exhaust gas temperature becomes equal to or lower than the allowable exhaust gas temperature, occurrence of clogging of the nozzle hole is determined and the fuel injection amount of the fuel injection valve is increased. Fuel injection valve state detection of institutions, how to fix.   6. The injection hole clogging time in which the exhaust temperature detection value is equal to or lower than the allowable exhaust temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time. A fuel injection valve state detection and correction method for an internal combustion engine as described.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. Ignition fuel for an internal combustion engine comprising a sub-chamber type gas engine comprising a fuel injection valve for ignition and configured to inject the ignition flame into a main combustion chamber and combust gas fuel in the main combustion chamber In a fuel injection valve state detection and correction method for injecting (hereinafter referred to as fuel), a load (or output) of the engine and an operation time of the engine are detected, and the load is determined based on the engine load (or output) and the operation time. The load change rate (or output change rate) that is the time change of (or output) is calculated, and the allowable load in which the calculated value of the load change rate (or output change rate) is set When the operation time that is equal to or greater than the fuel conversion rate (or output change rate) exceeds the set allowable operation time, the occurrence of clogging of the nozzle hole is determined, and the fuel injection amount of the fuel injection valve is increased. A fuel injection valve state detection and correction method for an internal combustion engine comprising a sub-chamber type gas engine.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. An internal combustion engine comprising a sub-chamber type gas engine having a fuel injection valve for ignition and configured to inject gaseous fuel in the main combustion chamber by injecting the ignition flame into the main combustion chamber. A fuel consumption detector for detecting a consumption amount of fuel injected from the fuel injection valve, a fuel consumption detection value, and an allowable fuel consumption amount for nozzle clogging set according to the operating conditions of the engine; And a controller for determining the occurrence of clogging of the nozzle hole and increasing the fuel injection amount of the fuel injection valve when the detected fuel consumption value is less than or equal to the allowable fuel consumption amount. Internal combustion engine comprising a sub-chamber type gas engine having a fuel injection valve state detection, adjustment device also.   A timer for measuring the operation time of the engine and inputting it to the controller is provided, and the controller determines whether the detected fuel consumption value is the allowable fuel consumption based on the detected fuel consumption value and the measured operation time value from the timer. 9. The internal combustion engine according to claim 8, wherein the injection hole clogging time in a state equal to or less than an amount is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time. An internal combustion engine comprising a sub-chamber gas engine provided with a fuel injection valve state detection and correction device for the engine.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. An internal combustion engine comprising a sub-chamber type gas engine comprising a fuel injection valve for ignition and configured to inject gaseous fuel in the main combustion chamber by injecting the ignition flame into the main combustion chamber. The nozzle tip temperature detector for detecting the temperature of the nozzle tip in the valve, the nozzle tip temperature detection value input from the nozzle tip temperature detector, and a set allowable nozzle tip temperature for nozzle hole clogging are compared, and the nozzle When the detected tip temperature is equal to or higher than the allowable nozzle tip temperature, it is determined that the nozzle hole is clogged, and the fuel injection amount of the fuel injection valve is increased. Fuel injection valve state detection, characterized in that a controller, an internal combustion engine comprising a sub-chamber type gas engine having a correction device.   A timer for measuring the operation time of the engine and inputting the measured value to the controller is provided, and the controller detects the detected value of the nozzle tip temperature based on the detected value of the nozzle tip temperature and the measured value of the operating time from the timer. The injection hole clogging time in a state equal to or higher than the allowable nozzle tip temperature is detected, and the fuel injection amount of the fuel injection valve is increased during the injection hole clogging time. An internal combustion engine comprising a sub-chamber type gas engine provided with a fuel injection valve state detection and correction device for an internal combustion engine.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. An internal combustion engine comprising a sub-chamber gas engine comprising a fuel injection valve for ignition and configured to inject gaseous fuel in the main combustion chamber by injecting the ignition flame into the main combustion chamber. An exhaust gas temperature detector for detecting an exhaust gas temperature is compared with an exhaust gas temperature detection value input from the exhaust gas temperature detector and a set allowable exhaust gas temperature for clogging of nozzle holes, and the exhaust gas temperature detection value is determined as the allowable exhaust gas temperature. A fuel injection valve state detection and correction device comprising: a controller that determines occurrence of clogging of the injection hole when the following condition occurs and increases the fuel injection amount of the fuel injection valve: Internal combustion engine comprising a sub-chamber type gas engine equipped.   A timer for measuring the operation time of the engine and inputting it to the controller is provided, and the controller is configured such that the exhaust temperature detection value is less than or equal to the allowable exhaust temperature based on the exhaust temperature detection value and the operation time measurement value from the timer. 13. The fuel for an internal combustion engine according to claim 12, wherein a fuel injection amount of the fuel injection valve is increased during the injection hole clogging time detected during the injection hole clogging time. An internal combustion engine comprising a sub-chamber gas engine equipped with an injection valve state detection and correction device.   An ignition flame is generated by igniting and burning gaseous fuel in an auxiliary chamber formed inside an auxiliary chamber base fixed to a cylinder head of an engine (internal combustion engine) by an ignition fuel spray injected from a fuel injection valve. An internal combustion engine comprising a sub-chamber gas engine comprising a fuel injection valve for ignition and configured to inject gaseous fuel in the main combustion chamber by injecting the ignition flame into the main combustion chamber. A load (or output) detector for detecting a load (or output), a timer for measuring the operating time of the engine, a load (or output) detection value input from the load (or output) detector, and the timer The load change rate (or output change rate), which is the time change of the load (or output), is calculated based on the operation time input from, and the load change rate (or When the operation time when the calculated value of (output change rate) exceeds the set allowable load change rate (or output change rate) exceeds the set allowable operation time, the occurrence of clogging of the nozzle hole is determined. An internal combustion engine comprising a sub-chamber type gas engine having a fuel injection valve state detection and correction device, comprising a controller for increasing the fuel injection amount of the fuel injection valve.

Images