KR19980067476U - Cooling structure of cylinder block - Google Patents

Abstract

It relates to a cooling structure of the cylinder block to direct the flow of the coolant flowing through the water jacket of the cylinder block to the cross flow around the bore to greatly improve the cooling efficiency of the cylinder block, the water jacket formed in the cylinder block (10) of the engine ( In the cooling structure in which the coolant flows through the water pump 14 to 12, the core print support holes 11A on both sides for forming a water jacket surrounding the plurality of bores 10A to 10D in the cylinder block 10. Water supply distribution pipes connected to the support holes 11A to 11D on one side of ˜11D and 13A to 13D are connected to the support holes 11A to 11D in the longitudinal direction and connected to the outlet of the water pump 14 ( 20 is provided, and the discharge collecting conduits 30 are connected to the other core print support holes 13A to 13D in the longitudinal direction, respectively, to cross flow the coolant flow around the bores 10A to 10D. Induced by Characterized in that configured ever cooling the block 10.

Description

Cooling structure of cylinder block

The present invention relates to a cooling structure of the cylinder block, and more particularly, to a cooling structure of the cylinder block to direct the flow of the coolant flowing through the water jacket of the cylinder block to the cross flow around the bore to greatly improve the cooling efficiency of the cylinder block. .

The cylinder block of the engine is the base of the engine body and determines the life of the engine body. In the cooling apparatus for cooling the cylinder block to prevent overheating and keeping it at an appropriate temperature, the inlet port A is disposed on one side of the cylinder block 10 around the bores 10A to 10B as shown in FIG. 1. On the other side, a water jacket 12 is formed which communicates with the discharge port B and forms a cooling water passage. The water pump driven by the driving force of the engine is provided on the inlet port A side of the water jacket 12. (14) is provided.

Therefore, when the engine is driven, the water pump 14 sucks the coolant from the discharge port C of the cylinder block 10 connected to the radiator (not shown) side and extrudes the coolant into the inlet port A of the water jacket 12. The coolant passing through the inflow port (A) flows sequentially along the passage of the water jacket (12) formed around the bore (10A ~ 10B) of the cylinder block 10 to cool the cylinder block 10 and discharge port Discharged to (B).

In this case, between the plurality of bores (10A ~ 10D) (aka siamese site) formed in the cylinder block 10, a high heat is concentrated, the water jacket 12 is formed in the seames site to solve this.

However, even in the case where a water jacket (cooling passage) is formed in the siamese area, the coolant flow not only proceeds through each bore (10A-10D) circumference sequentially but also stagnates in the bore (10A-10D). The cooling efficiency is inferior, and there is a drawback of inefficiency in cooling the cimes part.

The present invention is to solve the problems of the prior art as described above, by allowing the cooling water flowing along the water jacket in the cylinder block to flow at the same time by selecting the periphery of each bore at the same time to achieve an equal cooling efficiency and at the same time the cooling effect The purpose is to provide a cooling structure of the cylinder block to maximize the.

Specific means of the present invention for achieving the above object, in the cooling structure for flowing the coolant with a water pump to the water jacket formed on the cylinder block of the engine, to form a water jacket surrounding a plurality of bores in the cylinder block A water supply distribution line connected to each of the support holes on either side of the core print support holes on both sides for connection with the support holes and connected to the outlet of the water pump, and connected to the core print support holes on the other side, respectively. By installing a collecting pipe to guide the coolant flow around the bore to the cross flow characterized in that the cylinder block is configured to cool.

1 is a plan sectional view of a cylinder block for showing the cooling structure and the cooling water flow of the conventional cylinder block.

2 is a side view of a cylinder block according to an embodiment of the present invention.

3 is a plan sectional view of FIG.

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

Explanation of symbols for the main parts of the drawings

10: cylinder block 11A-11D: core print support hole

12: water jacket 13A-13D: core print support hole

14: water pump 20: water distribution pipe

30: discharge collection pipe

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

2, 3 and 4 will be described with the same reference numerals the same parts as in the prior art Figure

As shown in FIGS. 2, 3, and 4, a plurality of bores are provided in the cylinder block 10 in cooling the liquid by flowing the coolant with the water pump 14 in the water jacket 12 formed in the cylinder block 10 of the engine. The support holes 11A to 11D on one side of the core print support holes 11A to 11D and 13A to 13D on both sides for forming the water jacket surrounding the 10A to 10D are provided with these support holes 11A to 11D. A water distribution pipe line 20 connected to the outlet of the water pump 14 and connected to each other in the longitudinal direction is installed, and discharged to the core print support holes 13A to 13D of the other, respectively. It is a configuration by installing a collecting pipe (30).

At this time, the water pump 14 is located in front of the cylinder block 10, but may be configured by changing the installation position if the power transmission method is different.

On the other hand, the core print support holes (11A to 11D and 13A to 13D) are necessary holes when the bore of the cylinder block (10) is cast, and conventionally, after forming the holes (11A to 11D and 13A to 13D) Closed.

However, in the present invention, these core fringe support holes (11A to 11D and 13A to 13D) are used as inlets and outlets of the cooling water, so it is easy to achieve the object of the present invention by using them without the need for additional hole processing. There is an advantage.

The operating state of this embodiment configured as described above will be described.

First, when the water pump 14 is operated by the driving of the engine, the cooling water is discharged from the discharge port of the water pump 14 flows into the water distribution pipe line 20, and then each core print support hole (11A ~ 11D) Passing through the water jacket 12 around each of the bores 10A to 10D, the water is discharged through the core print support holes 13A to 13D and collected in the discharge collection pipe line 30.

At this time, the cooling water collected by the discharge collection pipe 30 may be configured to be introduced into the passage of the cylinder head, for example, other parts not shown.

Thus, according to this embodiment, not only the water jacket 12 around each bore 10A-10D flows out sequentially, but also the coolant flows around each bore 10A-10D simultaneously. The cooling water passage path in the water jacket 12 formed around the bores 10A to 10B is shorter than before, so that effective cooling can be expected.

In particular, the cooling effect of the seames site is greatly improved by allowing the coolant to pass smoothly even without the water remaining in the water jacket 12 formed between the seams site, that is, each of the bores 10A to 10B.

As described above, according to the present invention, the flow of the water jacket formed around the bore of the cylinder block is guided to each bore at the same time as cross flow to configure the cylinder block to be cooled so that the cooling efficiency is uniform, thereby improving the overall cooling efficiency. Of course, there is an excellent effect in cooling the simes.

Claims (1)

In a cooling structure in which cooling water flows to a water jacket (12) formed in a cylinder block (10) of an engine, a water jacket surrounding a plurality of bores (10A to 10D) in the cylinder block (10). The water pumps are connected to the support holes 11A to 11D on one side of the core print support holes 11A to 11D and 13A to 13D on both sides to form a recess and are respectively connected to the support holes 11A to 11D in the longitudinal direction. A water distribution pipe line 20 connected to the discharge port of 14 is provided, and each of the core print support holes 13A to 13D is provided with discharge water collection pipe paths 30 connected to each other in the longitudinal direction. Cooling structure of a cylinder block, characterized in that the cylinder block 10 is configured to cool by inducing the cooling water flow around the (10A ~ 10D) cross flow.