JP3871196B2 - Cooling device for internal combustion engine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is applied to an internal combustion engine for a vehicle and the like, and guides cooling water from a water pump directly to a cooling water passage of a cylinder head and guides a part of the cooling water from the cylinder cooling water passage to a cylinder block through a communication passage. The present invention relates to a cooling device for an internal combustion engine configured to send water from a cylinder head and a cylinder block to the outside.
[0002]
[Prior art]
FIG. 3 shows a cooling device used in a vehicular internal combustion engine cooling device, in which cooling water from a water pump is directly guided to a cylinder head cooling water passage to cool the cylinder head, and cooling in the cylinder head cooling water passage is performed. FIG. 4 is a system diagram of a cooling device configured to guide a part of water to a cylinder block cooling water passage through a communication passage 9 to cool the cylinder block and to send the cooling water from the cylinder head and the cylinder block to the outside of the engine.
[0003]
In FIG. 3, 2 is a cylinder block and 1 is a cylinder head fixed on the cylinder block. Reference numeral 4 denotes a cylinder block cooling water channel formed in the cylinder block 2, and 3 denotes a cylinder head cooling water channel formed in the cylinder head 1. A communication passage 9 connects the cylinder head cooling water passage 3 and the cylinder block cooling water passage 4 and is provided for each cylinder.
[0004]
7 is a water pump, 18 is a cooling water inlet pipe connecting the outlet of the water pump 7 and the cylinder head cooling water channel 3, 5 is a radiator, 6 is a thermostat, 8 is a heater, and 13 is from the cylinder head cooling water channel 3. A cooling water pipe for sending cooling water to the outside of the engine, 14 is a cooling water pipe for sending cooling water from the cylinder block cooling water passage 4 to the outside of the engine, and 15 is a cooling water pipe for connecting the outlet of the radiator 5 and the thermostat 6. , 16 is a cooling water pipe connecting the outlet of the thermostat 6 and the inlet of the water pump 7.
[0005]
During the operation of the internal combustion engine provided with such a cooling device, the cooling water discharged from the water pump 7 enters the cylinder head cooling water passage 3 through the cooling water inlet pipe 18 and passes through the cylinder head cooling water passage 3 in the longitudinal direction. After flowing and cooling the cylinder head 1, it flows out of the engine through the cooling water pipe 13.
A part of the cooling water supplied to the cylinder head cooling water passage 3 flows into the cylinder block cooling water passage 4 through the communication passage 9 for each cylinder, cools the cylinder block, and passes through the cooling water pipe 14. It flows out of the engine.
The cooling water that has flowed out of the engine through the cooling water pipes 13 and 14 can be supplied to the radiator 5 and the thermostat 6 respectively. However, the operation of the thermostat 6 according to the cooling water temperature causes the cooling water to flow. When the temperature of the cooling water is low, the refrigerant flows directly from the thermostat 6 to the cooling water pipe 16 without passing through the radiator 5. When the cooling water temperature is high, the refrigerant flows out of the thermostat 6 from the thermostat 6 to the cooling water pipe 16.
[0006]
[Problems to be solved by the invention]
As described above, the cooling water from the water pump 7 is directly guided to the cylinder head cooling water channel 3 to cool the cylinder head 1, and a part of the cooling water supplied to the cylinder head cooling water channel 3 is part of the cylinder head cooling water channel. 3 is connected to the cylinder block cooling water passage 4 from the communication passage 9 to cool the cylinder block 2, and the cooling device configured to send the cooling water from the cylinder head 1 and the cylinder block 2 to the outside of the engine. In order to cool the cylinder head 1 by supplying relatively low-temperature cooling water from the water pump 7 to the high-temperature cylinder head 1 in advance, cooling around the intake port is effectively performed, and the volumetric efficiency of intake air is increased. As a result, the engine performance is improved.
[0007]
However, in such a conventional technique, the cooling water descends from the cylinder head 1 side on the upper side toward the cylinder block 2 side on the lower side, so that the communication passage 9 or the cylinder block cooling water passage 4 in the cylinder block 2 There is a possibility that an air reservoir 020 in which air in the cooling water channel accumulates in the upper part, which hinders cooling of the cylinder block 2 and promotes thermal degradation in the vicinity of the air reservoir 020 generating portion.
[0008]
Japanese Patent Laid-Open No. 5-256131 discloses an invention that can prevent the occurrence of such air accumulation. In such an invention, the cooling water is introduced from the water pump in parallel to the cylinder head cooling water channel and the cylinder block cooling water channel, and the cooling water is sent in parallel from the cylinder head cooling water channel and the cylinder block cooling water channel. In a cooling device for an internal combustion engine, a cooling water passage for flowing cooling water from the cylinder block to the cylinder head is provided in a place where an air pocket or heat spot of the cylinder block is likely to be generated, and a jiggle pin assembly is installed at the position of the cooling water passage. When the air pool or heat spot is generated and this part becomes abnormally hot, the jiggle pin assembly is opened, and a part of the cooling water flows from the cylinder block to the cylinder head, and the air pool or heat spot disappears.
[0009]
However, in such an invention, the cooling water is originally introduced from the water pump in parallel to the cylinder head cooling water passage and the cylinder block cooling water passage, and the cooling water is supplied in parallel from the cylinder head cooling water passage and the cylinder block cooling water passage. A parallel flow type cooling device that is to be delivered is a cylinder block through which a part of the cooling water directly supplied from the water pump to the cylinder head cooling water passage, which is the subject of the present invention, is connected from the cylinder head cooling water passage to the communication passage. It is difficult to apply to the cooling system that leads to the cooling water channel, and a cooling water flow passage for flowing cooling water from the cylinder block to the cylinder head is provided in a place where air accumulation or a heat spot is likely to occur, and a jiggle pin assembly is provided at the cooling water flow channel position. In the cylinder block, the air pool or heat spot disappears To be required to provide a special device, together with the cylinder block cooling structure becomes complicated, the apparatus cost becomes high.
And so on.
[0010]
SUMMARY OF THE INVENTION In view of the problems of the prior art, the present invention is a cooling internal combustion engine in which a part of the cooling water directly supplied from the water pump to the cylinder head cooling water channel is led from the cylinder head cooling water channel to the cylinder block cooling water channel through the communication channel. In an engine, an internal combustion engine capable of preventing the occurrence of air accumulation in the cooling water passage above the cylinder block and preventing the temperature increase in the minimum portion of the cylinder block due to the air accumulation without providing a special device for the cylinder block and the cylinder head. It aims at providing the cooling device of an engine.
[0011]
[Means for Solving the Problems]
In order to solve such a problem, the present invention provides a cooling water discharged from a water pump directly to a cylinder head cooling water passage through a cylinder head cooling water inlet passage , and the cooling water is supplied to the cylinder head. The cylinder head is cooled by flowing through the cooling water channel and flowing out of the engine from the cylinder head,
A portion of the cooling water supplied to the cylinder head cooling water passage flows out from the cylinder block outside the engine being supplied to the cylinder block cooling water passage while being flowable to the cylinder block cooling water channel through the communication passage In the cooling apparatus for an internal combustion engine configured to cool the cylinder block by:
A cooling water supply passage for directly supplying the cooling water discharged from the water pump to the cylinder block cooling water passage, and the cylinder head cooling water inlet passage;
An electromagnetic valve for adjusting the outflow of cooling water from the cooling water the cylinder block the cooling water outflow passage by opening and closing the cylinder block cooling water channel provided from the cooling water passage to the cooling water outflow passage letting flowing out of the engine to the engine outside ,
The solenoid valve is opened and closed according to the operating conditions of the engine, and the solenoid valve is opened to allow the cooling water in the cylinder block cooling water passage to flow out to the radiator and the thermostat provided in the cooling water passage at the cylinder head outlet through the cooling water outflow passage. At the same time, when the coolant temperature including when the engine is started is below a certain temperature, the solenoid valve is closed and the coolant introduced from the water pump into the cylinder block coolant channel is caused to flow to the cylinder head coolant channel through the communication channel. And a valve controller for controlling the opening and closing of the electromagnetic valve so as to release air from the cylinder block cooling water passage .
[0014]
A fourth aspect of the present invention is characterized in that, in the first aspect, the outflow adjusting means is a thermostat that opens and closes the cooling water outflow passage in accordance with an engine cooling water temperature.
[0015]
According to this invention, even if the cooling water temperature including when the engine is started is equal to or lower than a certain temperature, or even if air accumulation occurs in the cylinder block cooling water path due to the replacement of the cooling water, the cooling water outflow path of the cylinder block By closing a solenoid valve that is provided on the valve controller and opened and closed by a valve controller , the cylinder block is prevented from flowing out of the cooling water from the cylinder block to the radiator and the thermostat side provided in the cooling water passage of the cylinder head outlet. The flow of cooling water from the head cooling water passage to the cylinder block cooling water passage through the communication passage is stopped, and a part of the cooling water from the water pump is directly supplied to the cylinder block cooling water passage through the cooling water supply passage. From the block cooling water channel to the cylinder head cooling water channel with the communication channel facing upward Flow, merges with the cooling water which has been supplied from the water pump in the cylinder head cooling water passage, are delivered to the outside of the engine.
As described above, the cooling water flows upward from the cylinder block cooling water passage through the communication passage, so that the air accumulated in the communication passage in the cylinder block or the upper portion of the cylinder block cooling water passage together with the cooling water is an upper cylinder head cooling water passage. Then, the air is vented by being sent out of the engine, and the air pocket can be eliminated.
[0016]
In the normal operation state of the engine, the solenoid valve is opened to allow cooling water to flow from the cylinder block to the outside, and most of the cooling water from the water pump is directly introduced into the cylinder head cooling water passage. after cooling, while being sent to the outside through the coolant outlet passage, a portion of the cooling water in the sheet cylinder head cooling water passage flows to the cylinder block cooling water passage toward the communication passage downwards in the cylinder block cooling water passage After cooling the cylinder block by joining a small amount of cooling water supplied directly to the cylinder block cooling water passage through the cooling water supply passage, the thermostat side provided in the cooling water passage of the radiator and the cylinder head outlet by being delivered to the cylinder head and cylinder block are cooled effectively
[0017]
In addition, as in claim 2, the amount of cooling water supplied directly from the water pump to the cylinder head cooling water passage is larger than the amount of cooling water supplied directly from the water pump to the cylinder block cooling water passage via the cooling water supply passage. Therefore, by passing a part of the cooling water from the water pump through the cooling water supply path, the amount of cooling water supplied to the cylinder head cooling water path will not be insufficient. Good cooling efficiency can be maintained.
[0018]
Therefore, according to this invention, the cooling water supply path for directly supplying the cooling water discharged from the water pump to the cylinder block cooling water path, and the thermostat provided in the cooling water path from the cylinder block to the radiator and the outlet of the cylinder head And a solenoid valve capable of adjusting the outflow of cooling water from the cylinder block to the radiator and the thermostat . Without changing the cooling structure from the normal one, the solenoid valve that is opened and closed by the valve controller during normal operation of the engine opens the cylinder head so that a part of the cooling water after cooling the cylinder head faces the communication passage downward. It flows to the block cooling water channel and is directly supplied to the cylinder block cooling water channel. After cooling the cylinder block by merging with the cooling water that has been sent, the cylinder head and the cylinder block can be effectively cooled by being sent to the thermostat side provided in the cooling water passage of the radiator and the cylinder head outlet. In addition, when the cooling water temperature, including when the engine is started, is below a certain temperature, or when air easily accumulates in the cylinder block cooling water passage due to replacement of the cooling water, etc., the solenoid valve is closed to supply the cooling water to the cylinder. by extracting the air in the air reservoir in the communication passage or the cylinder block cooling water passage upper part of the cylinder block by passing from the block side to the cylinder head side above the cylinder head side, it is avoided the occurrence of air reservoir in the cylinder block, air Cylinder block temperature rise due to accumulation It can be prevented.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the 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.
[0020]
FIG. 1 is a configuration diagram of a cooling apparatus for an internal combustion engine for a vehicle according to an embodiment of the present invention, showing a normal operation time, and FIG. 2 is a drawing showing an air release time of a cylinder block cooling water channel.
[0021]
1-2, 2 is a cylinder block, 1 is a cylinder head fixed on the cylinder block. Reference numeral 4 denotes a cylinder block cooling water channel formed in the cylinder block 2, and 3 denotes a cylinder head cooling water channel formed in the cylinder head 1. A communication passage 9 connects the cylinder head cooling water passage 3 and the cylinder block cooling water passage 4 and is provided for each cylinder.
[0022]
7 is a water pump, 18 is a cooling water inlet pipe connecting the outlet of the water pump 7 and the cylinder head cooling water channel 3, 5 is a radiator, 6 is a thermostat, 8 is a heater, and 13 is from the cylinder head cooling water channel 3. A cooling water pipe for sending cooling water to the outside of the engine, 14 is a cooling water pipe (cooling water outflow path) for sending cooling water from the cylinder block cooling water passage 4 to the outside of the engine, and 15 is an outlet of the radiator 5 and a thermostat 6. The cooling water pipe 16 connects the outlet of the thermostat 6 and the inlet of the water pump 7.
The above configuration is the same as the conventional one shown in FIG.
[0023]
A cooling water supply path 20 is branched from the cooling water inlet pipe 18 from the water pump 7 and directly connected to the cylinder block cooling water path 4. The passage area of the cooling water inlet pipe 18 is sufficiently larger than the passage area of the cooling water supply path 20, and even if the cooling water supply path 20 is provided, more cooling water is supplied to the cylinder head cooling water path 3. To be.
[0024]
A control valve 10 is provided in the cooling water pipe 14 and opens and closes the cooling water pipe, and is constituted by an electromagnetic valve. Reference numeral 11 denotes a valve controller for controlling the opening and closing of the control valve 10. The engine operating state such as the engine speed, the cooling water temperature, the intake air temperature (substantially the atmospheric temperature) and the like are input. The valve 10 is controlled to open and close.
As described above, the outflow adjusting means including the control valve 10 and the valve controller 11 can adjust the outflow amount of the cooling water flowing out of the engine through the cooling water pipe 14 from the cylinder block cooling water passage 4. Yes.
[0025]
In the cooling apparatus for an internal combustion engine for a vehicle having such a configuration, during normal operation of the engine, the valve controller 11 opens the control valve 10 in response to an input signal of the engine operating state such as a detection signal of the engine speed.
Thereby, as shown in FIG. 1, most of the cooling water sent from the water pump 7 is introduced into the cylinder head cooling water passage 3 through the cooling water inlet pipe 18 and the cooling water sent from the water pump 7. A part of the water is introduced into the cylinder block cooling water passage 4 through the cooling water supply passage 20.
That is, the flow rate of the cooling water directly supplied from the water pump 7 to the cylinder head cooling water channel 3 is configured to be larger than the flow rate of the cooling water supplied directly from the water pump 7 to the cylinder block cooling water channel 4. .
The cooling water introduced into the cylinder head cooling water passage 3 flows through the cylinder head cooling water passage 3 to cool the cylinder head 1, and then flows out from the cooling water pipe 13 and is sent to the thermostat 6 or the radiator 5.
[0026]
A part of the cooling water supplied to the cylinder head cooling water passage 3 flows to the cylinder block cooling water passage 4 with the communication passage 9 for each cylinder directed downward as shown by the arrow in FIG. The cylinder block 2 is cooled by flowing through the cooling water channel 4.
A part of the cooling water sent from the water pump 7 flows into the cylinder block cooling water passage 4 through the cooling water supply passage 20 and merges with the cooling water from the communication passage 9. Then, the combined cooling water flows through the cylinder block cooling water passage 4, flows out of the engine through the cooling water pipe 14, and is sent to the radiator 5 or the thermostat 6 through the control valve 10. Since the operation of the thermostat 6 is the same as the conventional one, a detailed description of the operation is omitted. The cooling water that has passed through the thermostat 6 is returned to the water pump 7 through the cooling water pipe 16.
[0027]
In the normal operation, the amount of cooling water introduced directly from the water pump 7 into the cylinder head cooling water passage 3 is sufficiently larger than the amount of cooling water sent from the water pump 7 and flowing through the cooling water supply passage 20. Therefore, by passing a part of the cooling water through the cooling water supply path 20, the amount of cooling water sent to the cylinder head cooling water path 3 is not short.
[0028]
Next, the valve controller 11 closes the control valve 10 and shuts off the cooling water pipe 14 when the engine is started or when the cooling water temperature is low.
[0029]
By closing the cooling water pipe 14, the flow of the cooling water from the cylinder head cooling water passage 3 to the cylinder block cooling water passage 4 through the communication passage 9 is stopped as shown by the arrow in FIG. Is directly supplied to the cylinder block cooling water passage 4 through the cooling water supply passage 20. The cooling water flows from the cylinder block cooling water channel 4 to the cylinder head cooling water channel 3 with the connecting passage 9 facing upward, and the cooling water directly sent from the water pump 7 in the cylinder head cooling water channel 3 The water flows through the cylinder head cooling water passage 3 and is sent to the thermostat 6 through the cooling water pipe 13 or to the radiator 5.
[0030]
In the operation state in which the control valve 10 is closed, as described above, a part of the cooling water sent from the water pump 7 flows upward from the cylinder block cooling water passage 4 through the communication passage 9, so that the cylinder After the air accumulated in the upper part of the communication passage 9 in the block or the cylinder block cooling water passage 4 (air sump 020 in FIG. 3) flows into the upper cylinder head cooling water passage 3 together with the cooling water, the cooling water pipe 13 as described above. It is discharged to the outside of the cylinder head cooling water channel 3 through.
[0031]
Therefore, according to this embodiment, the cooling water supply passage 20 that directly connects the outlet side of the water pump 7 and the cylinder block cooling water passage 4, and the cooling water pipe 14 that is connected to the cooling water outlet of the cylinder block cooling water passage 4. And a control valve 10 that opens and closes the cylinder block 2, and without changing the cooling structure of the cylinder block 2 and the cylinder head 1 from a normal one, the cooling water is supplied to the cylinder block 2 by operating the control valve 10. From the side, the air in the communication passage 9 in the cylinder block 2 or the air reservoir 020 (see FIG. 3) in the upper part of the cylinder block cooling water passage 4 can be extracted to the upper cylinder head 1 side.
As a result, the air reservoir 020 (see FIG. 3) formed on the upper portion of the cylinder block 2 disappears, and the temperature rise in the minimum portion of the cylinder block 2 due to the air reservoir can be prevented, and the cooling effect of the cylinder block 2 is improved. To do.
[0032]
In the above-described embodiment, the control valve 10 is closed and the cooling water pipe 14 is shut off when the engine is started or when the cooling water temperature is low. However, the air venting is performed by operating the valve controller 11. Alternatively, the control valve 10 may be configured to be closed.
[0033]
Like the internal combustion engine cooling device in the present embodiment, the cooling water discharged from the water pump 7 is directly supplied to the cylinder head 1, and the cooling water is supplied from the cylinder head cooling water passage 3 to the cylinder block cooling passage 4 through the communication passage 9. When the cooling water is replaced, when the cooling water is exchanged, when the cooling water flows from the cylinder head cooling passage 3 to the cylinder block cooling passage 4 through the communication passage 9, the communication passage 9 or the cylinder block cooling passage 4 in the cylinder block 2 is used. There is a problem that an air pocket may be generated in the upper part of the air.
[0034]
Therefore, by operating the valve controller 11 and closing the control valve 10 in the engine operating state after the cooling water replacement, the air venting as described above is executed and the air pocket generated by the replacement of the cooling water is surely eliminated. I can do it.
[0035]
Further, the control valve 10 in the above-described embodiment may be configured such that the open / close state can be arbitrarily set and the flow rate of the cooling water flowing out of the engine through the cooling water pipe 14 from the cylinder block 2 can be adjusted. In this case, the flow rate of the cooling water flowing through the cylinder head cooling water passage 3 and the cylinder block cooling water passage 4 can be changed by adjusting the outflow flow rate from the cylinder block 2 according to the operating state of the engine, etc. The engine cooling effect by water can be further improved.
[0037]
As described above, when the engine is cold, that is, when the cooling water temperature is low, when the control valve 10 or the like is closed and the cooling water pipe 14 is shut off, the cooling water flowing through the cylinder block cooling water passage 4 becomes the water pump 7. Only when the cooling water is directly supplied from the cylinder block cooling water passage 4 to the outside of the engine via the cooling water pipe 14 by opening the control valve 10. And it becomes a small amount. Therefore, the flow of the cooling water in the cylinder head cooling water channel 3 is increased and the flow of the cooling water in the cylinder block cooling water channel 4 is reduced, so that the cylinder head 1 can be cooled more effectively and the engine output can be improved. The effect that the warm-up of can be promoted can be obtained.
[0039]
【The invention's effect】
As described above, according to the present invention, a cooling water supply passage that directly supplies cooling water discharged from the water pump to the cylinder block cooling water passage, and cooling water from the cylinder block to the radiator and the cooling water passage of the cylinder head outlet are provided. Provided in a cooling water outflow passage for delivering to the thermostat side, and having an extremely simple structure in which an electromagnetic valve capable of adjusting the outflow of cooling water from the cylinder block to the radiator and the thermostat side is provided in the cylinder block and Without changing the cooling structure of the cylinder head from the normal one, the opening of the solenoid valve that is opened and closed by the valve controller during normal operation of the engine causes part of the cooling water after cooling the cylinder head to move down the communication passage. To the cylinder block cooling water channel and directly into the cylinder block cooling water channel After cooling the cylinder block by joining with the supplied cooling water, the cylinder head and the cylinder block can be effectively cooled by being sent to the thermostat side provided in the cooling water passage of the radiator and the cylinder head outlet. When the cooling water temperature, including when the engine is started, is below a certain temperature, or when air is likely to accumulate in the cylinder block cooling water channel due to replacement of the cooling water, the cooling water is reduced by closing the solenoid valve. By flowing from the cylinder block side to the cylinder head side and extracting the air in the communication path in the cylinder block or the upper part of the cylinder block cooling water passage to the upper cylinder head side, the occurrence of air accumulation in the cylinder block is avoided. Cylinder block temperature due to air accumulation It is possible avoid the occurrence of overheating of the engine can prevent a temperature.
[0040]
In addition, as described in claim 2, the amount of cooling water supplied directly from the water pump to the cylinder head cooling water passage is sufficiently larger than the amount of cooling water sent from the water pump and flowing through the cooling water supply passage. Therefore, by passing a part of the cooling water from the water pump through the cooling water supply path, the amount of cooling water supplied to the cylinder head cooling water path is not short.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a cooling apparatus for an internal combustion engine for a vehicle according to an embodiment of the present invention, and shows a normal operation time.
FIG. 2 is a diagram illustrating air removal from a cylinder block cooling water channel.
FIG. 3 is a diagram corresponding to FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Cylinder head 2 Cylinder block 3 Cylinder head cooling water path 4 Cylinder block cooling water path 5 Radiator 6 Thermostat 7 Water pump 9 Connection path 10 Control valve 11 Valve controller 12, 13, 14, 15, 16 Cooling water pipe 18 Cooling water inlet pipe 20 Cooling Water supply

Claims (2)

The cooling water discharged from the water pump is directly supplied to the cylinder head cooling water passage through the cylinder head cooling water inlet passage , and the cooling water flows through the cylinder head cooling water passage and flows out of the engine from the cylinder head. Cool the cylinder head,
A portion of the cooling water supplied to the cylinder head cooling water passage flows out from the cylinder block outside the engine being supplied to the cylinder block cooling water passage while being flowable to the cylinder block cooling water channel through the communication passage In the cooling apparatus for an internal combustion engine configured to cool the cylinder block by:
A cooling water supply passage for directly supplying the cooling water discharged from the water pump to the cylinder block cooling water passage, and the cylinder head cooling water inlet passage;
An electromagnetic valve for adjusting the outflow of cooling water from the cooling water the cylinder block the cooling water outflow passage by opening and closing the cylinder block cooling water channel provided from the cooling water passage to the cooling water outflow passage letting flowing out of the engine to the engine outside ,
The solenoid valve is opened and closed according to the operating conditions of the engine, and the solenoid valve is opened to allow the cooling water in the cylinder block cooling water passage to flow out to the radiator and the thermostat provided in the cooling water passage at the cylinder head outlet through the cooling water outflow passage. At the same time, when the coolant temperature including when the engine is started is below a certain temperature, the solenoid valve is closed and the coolant introduced from the water pump into the cylinder block coolant channel is caused to flow to the cylinder head coolant channel through the communication channel. And a valve controller for controlling the opening and closing of the solenoid valve so that the cylinder block cooling water passage is vented .   The cooling water flow rate directly supplied from the water pump to the cylinder head cooling water channel is configured to be larger than the cooling water amount directly supplied from the water pump to the cylinder block cooling water channel. The internal combustion engine cooling device according to claim 1.

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