JPH0650147A - Engine cylinder head cooling structure - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To provide a cylinder head cooling structure for an engine that makes it possible to adjust the flow of cooling water according to the operating state of the engine. [Structure] The engine uses the auxiliary combustion chamber 3 and the cylinder head 1
It is assumed that the sub-chamber diesel engine is provided on one side in the width direction and the exhaust port 4 is provided on the other side in the width direction of the cylinder head 1. Under this premise, the cylinder head 1 is provided with the cooling water inlet 6 at one end side in the cylinder arrangement direction, while the other side of the cylinder head 1 in the cylinder arrangement direction is provided with the first cooling water at one side in the width direction of the cylinder head 1. An outlet 8 is provided, and a second cooling water outlet 9 is provided on the other side in the width direction of the cylinder head 1, and a thermostat valve 13 allows cooling water to flow from the second cooling water outlet when the temperature of the cooling water is low. Let only spill
The flow of the cooling water in the cylinder head is directed to the other side in the width direction of the cylinder head, thereby enhancing the ignitability.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an engine cylinder head cooling structure.

[0002]

2. Description of the Related Art As a cylinder head cooling structure for an engine, as shown in Japanese Utility Model Laid-Open No. 2-46046, cooling water is introduced into a water jacket of the cylinder head to cool the cylinder head with the cooling water. Is
Already known.

[0003]

However, in the cylinder head cooling structure as described above, the flow of the cooling water in the water jacket of the cylinder head is uniformly determined, and the flow of the cooling water does not change. Absent. Therefore, depending on the operating condition of the engine, the cooling water may impose a burden on the combustibility of the engine. The present invention has been made in view of the above circumstances, and an object thereof is to provide a cylinder head cooling structure for an engine capable of adjusting the flow of cooling water in accordance with the operating state of the engine. .

[0004]

In order to achieve the above object, according to the present invention, a cylinder head is provided with a cooling water inlet provided at one end side in the cylinder arrangement direction and at the other end side of the cylinder head in the cylinder arrangement direction. A first cooling water outlet provided at one side in the width direction of the cylinder head, and a second cooling water outlet provided at the other side in the cylinder arrangement direction of the cylinder head at the other side in the width direction of the cylinder head, Outflow adjustment for adjusting the cooling water to flow out from the second cooling water outlet when the water temperature is lower than a predetermined temperature, and to flow the cooling water from the first cooling water outlet when the cooling water temperature is higher than the predetermined temperature. And a means for cooling the cylinder head of the engine. With the above-described configuration, the operating state of the engine is grasped by the cooling water temperature and the outflow of the cooling water from the first and second cooling water outlets is adjusted. Can be changed. Therefore, the flow of the cooling water can be set to a desired value according to the operating state of the engine.

In order to achieve the above-mentioned object, according to the present invention, in claim 1, the engine is provided with an auxiliary combustion chamber on one side in the width direction of the cylinder head, and an exhaust port is provided in the width of the cylinder head. It is a sub-chamber type diesel engine provided on the other side in the direction, and the outflow adjusting means causes the cooling water to flow out only from the second cooling water outlet at a low temperature lower than a predetermined temperature and is higher than the predetermined temperature. It is configured so as to flow out from the first cooling water outlet at a high temperature. With the above configuration, the flow of cooling water on the side of the auxiliary combustion chamber is suppressed and the cooling of the auxiliary combustion chamber is suppressed at low temperatures. Therefore, it is possible to improve the ignitability (startability) at low temperatures, and it is possible to adjust the flow of the cooling water as desired according to the operating state of the engine.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. 1 to 3, reference numeral 1 denotes a cylinder head of a sub-chamber type diesel engine, and the cylinder head 1 is elongated in one direction (left and right direction in FIG. 1). Below the cylinder head 1, a plurality of (four in the present embodiment) cylinders (in FIGS. 1 and 2 are shown by solid lines in FIGS. 1 and 2) 2 are arranged in a cylinder block (not shown). The cylinders 2 are sequentially provided in the extending direction of the cylinder head 1, and each cylinder 2 faces the cylinder head 1.

In the cylinder head 1, there are shown in FIGS.
As shown in, the auxiliary combustion chamber 3 and the auxiliary combustion chamber 3 are provided for each cylinder 2.
One exhaust port 4 and two intake ports 5 are formed (in FIGS. 1 and 2, for the sake of convenience as conceptual diagrams, both are shown by solid lines). Each sub-combustion chamber 3 is provided so as to face each cylinder 2.
Is located on one side (lower side) of the cylinder head 1 in the width direction (vertical direction in FIG. 1). Each exhaust port 4 is also provided so as to face each cylinder 2, and each exhaust port 4
Is located on the other side in the width direction of the cylinder head 1.
Each of the two intake ports 5 is also provided so as to face each cylinder 2, and each of the two intake ports 5 is located between the auxiliary combustion chamber 3 and the exhaust port 4 for each cylinder 2.

As shown in FIGS. 1 to 3, the cylinder head 1 is provided with a cooling water inlet 6 at one end side in the cylinder arrangement direction (left end side in FIG. 1). In this embodiment, the number of the cooling water inlets 6 is one, and one of the cooling water inlets 6 is located on one end side in the cylinder arrangement direction from the center of the cylinder head 1 in the width direction to the wall of the cylinder head 1.
In the water jacket 7 (in FIGS. 1 to 3, the partition wall forming the passage of the water jacket 7 is omitted for convenience, and the specific content thereof is shown in FIGS. 4 and 5 which are sectional views of FIG. 3). To face.

The cylinder head 1 is provided with first and second cooling water outlets 8 and 9 on the other end side in the cylinder arrangement direction (right end side in FIG. 1). The first cooling water outlet 8 is provided on one side in the width direction of the cylinder head 1, and the second cooling water outlet 9 is provided on the other side in the width direction of the cylinder head 1. In the present embodiment, the second cooling water is provided. The water outlet 9 is slightly closer to the one end side in the cylinder arrangement direction than the first cooling water outlet 8.

The cooling water inlet 6 and the first cooling water outlet 8
Are connected via a first return passage 10 as a main passage, as shown in FIG. The first return passage 10 includes a first return passage 11 extending from the first cooling water outlet 8 and a common passage 12 connected to the cooling water inlet 6.
Are connected via a thermostat valve 13 as an outflow adjusting means, a pump 14 is provided in the common passage 12, and a radiator 15 is provided in the first return-constituting passage 11. Is installed.

The cooling water inlet 6 and the second cooling water outlet 9
Are connected via a second return passage 16 as shown in FIG. The second return passage 16 comprises a second return-constituting passage 17 extending from the second cooling water outlet 9 and the common passage 12, both passages 17 and 12 of which are connected via the thermostat valve 13. Connected.

The thermostat valve 13 has first and second thermostat valves.
It operates according to the temperature of the cooling water in the return passages 10 and 16. In the present embodiment, the thermostat valve 13 has a cooling water temperature of a predetermined temperature (for example, 80 ° C).
When the temperature is lower than (.degree. C.), only the second return passage 17 and the common passage 12 are communicated with each other, and when the cooling water temperature is higher than a predetermined temperature, the first return passage is formed. It has a function of communicating only both 11 and the common passage 12.

Therefore, in the above structure, when the cooling water has a low temperature, as shown by the arrow in FIG.
It is returned only by the return passage 16, and the cooling water does not flow through the first return passage 10. As a result, the cooling water flows in the cylinder head 1 (in the water jacket 7) as shown by the arrow in FIG.
The flow toward the other side in the width direction and the flow on the side of the auxiliary combustion chambers 3 are suppressed, and the cooling of the auxiliary combustion chambers 3 by the cooling water is suppressed. As a result, the ignitability is improved, and accordingly, the startability is also improved.

On the other hand, when the cooling water is at a high temperature, as shown by the arrow in FIG. 2, the cooling water is returned only by the first return passage 10, and the cooling water flows through the second return passage 16. Absent. As a result, the cooling water flows in the cylinder head 1 toward the one side in the width direction of the cylinder head 1 and flows in the side of the auxiliary combustion chamber 3 as shown by the arrow in FIG. As a result, the sub-combustion chamber 3 side, which tends to become hot, is mainly cooled.

Although the embodiments have been described above, the present invention includes the following. Plural cooling water inlets 6, first and second cooling water outlets 8 and 9 may be provided. The adjustment contents of the outflow adjusting means are set to the first and second cooling water outlets 8,
The amount discharged from 9 The cooling water inlet 6 is formed so as to reach the cylinder head 1 via the water jacket 7 in the cylinder block.

[0016]

As described above, according to the present invention,
The flow adjustment of the cooling water can be made desired depending on the operating state of the engine.

[Brief description of drawings]

FIG. 1 is an explanatory view conceptually illustrating a cooling structure according to an embodiment (when the temperature is low).

FIG. 2 is an explanatory diagram illustrating an operating state when the cooling water temperature is high.

FIG. 3 is a cross-sectional view specifically showing the cylinder head used in FIG.

4 is a cross-sectional view taken along the line AA of FIG.

5 is a sectional view taken along line BB of FIG.

[Explanation of symbols]

 1 Cylinder Head 3 Secondary Combustion Chamber 4 Exhaust Port 6 Cooling Water Inlet 8 First Cooling Water Outlet 9 Second Cooling Water Outlet 13 Thermostat Valve

Claims (5)

[Claims] 1. A cooling water inlet provided on one end of a cylinder head in the cylinder arrangement direction, and a first cooling water outlet provided on one end of the cylinder head in the cylinder arrangement direction on one side in the width direction of the cylinder head. A second cooling water outlet provided on the other side of the cylinder head in the cylinder arrangement direction on the other side in the width direction of the cylinder head; and cooling from the second cooling water outlet when the cooling water temperature is lower than a predetermined temperature. Cylinder head cooling structure for an engine, comprising: an outflow adjusting unit that causes water to flow out and adjusts so that the cooling water flows out from the first cooling water outlet when the cooling water temperature is higher than a predetermined temperature. . 2. The exhaust port according to claim 1, further comprising an exhaust port on the other side in the width direction of the cylinder head, wherein the outflow adjusting means is configured to cool water from the second cooling water outlet at a low temperature lower than a predetermined temperature. A cylinder head cooling structure for an engine, characterized in that it is set to flow out. 3. The sub-chamber diesel engine according to claim 1, wherein the engine is a sub-chamber diesel engine provided with a sub-combustion chamber on one side in the width direction of the cylinder head, and the outflow adjusting means keeps the cooling water above a predetermined temperature. It is set so as to flow out from the second cooling water outlet at a low temperature which is also low, and to flow out from the first cooling water outlet at a high temperature higher than the predetermined temperature. Construction. 4. The sub-chamber diesel engine according to claim 1, wherein the engine includes a sub combustion chamber on one side in the width direction of the cylinder head and an exhaust port on the other side in the width direction of the cylinder head. The outflow adjusting means causes the cooling water to flow out only from the second cooling water outlet when the temperature is lower than a predetermined temperature and from the first cooling water outlet when the temperature is higher than the predetermined temperature. A cylinder head cooling structure for an engine, which is set. 5. The first cooling water outlet according to claim 1, wherein the first cooling water outlet is connected to a first circulation path provided with a heat exchanger, and the second cooling water outlet has a heat exchanger. A cylinder head cooling structure for an engine, characterized in that it is connected to a second circulation path.