Cylinder block having different amount of oil supply for each journal

Abstract

A cylinder block has a different amount of oil supply for each journal, in which a plurality of bearing saddles are arranged at intervals and main bearings, which support main journals of a crank shaft, are respectively mounted to the plurality of bearing saddles. The bearing saddles comprise oil galleries formed in the cylinder block. Oil chambers are recessed from surfaces of the plurality of bearing saddles, to which an oil is supplied through the oil galleries, and communicate with end portions of the oil galleries to store the oil supplied from the oil galleries. The main bearings have oil holes through which the oil introduced into the oil chambers flow to the main journals. The amount of oil supplied to the main journals is determined according to an overlapped amount between the oil chambers and the oil holes.

Claims

1. A cylinder block applied to a four-cylinder internal combustion engine and having a different amount of oil supply for each journal, in which a plurality of bearing saddles are arranged at intervals and main bearings, which support main journals of a crank shaft, are respectively mounted to the plurality of bearing saddles, wherein the plurality of bearing saddles comprise: oil galleries formed in the cylinder block; and oil chambers recessed from surfaces of the plurality of bearing saddles, to which an oil is supplied through the oil galleries, and communicating with end portions of the oil galleries to store the oil supplied from the oil galleries, wherein the main bearings have oil holes through which the oil introduced into the oil chambers flow to the main journals, an amount of the oil flowed and supplied to the main journals increases in proportion to the overlapped amount between the oil chambers and the oil holes in alternating manner for the respective different main bearings across the crankshaft starting from one side of the cylinder block, and the oil holes formed in the main bearings have the same position, and the oil chambers differently overlap with the oil holes according to lengths of the oil chambers in the plurality of bearing saddles, and the oil chambers formed in second and fourth bearing saddles from the one side of the cylinder block have longer lengths than the oil chambers formed in first, third, and fifth bearing saddles.

2. The cylinder block of claim 1, wherein the oil holes formed in the main bearings have the same position, and the oil chambers differently overlap with the oil holes according to positions of the oil chambers formed in the plurality of bearing saddles.

3. The cylinder block of claim 1, wherein the main bearings, which are assembled to the respective bearing saddles, have the same shape.

4. The cylinder block of claim 1, wherein each of the oil holes formed in the main bearings has a slot shape in a circumferential direction of the main bearings.

5. The cylinder block of claim 1, wherein each of the main bearings has a groove formed in a circumferential direction of the main bearings such that the oil, which passes through the oil holes, is evenly supplied to the main bearings.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a bottom view illustrating a portion of a cylinder block according to the related art.

(2) FIG. 2 is a top view illustrating an oil supply structure in a crank shaft according to an example of the related art.

(3) FIG. 3 is a perspective view illustrating a main bearing applied to each main journal of the crank shaft in FIG. 2.

(4) FIG. 4 is a top view illustrating an oil supply structure in a crank shaft according to another example of the related art.

(5) FIG. 5 is a perspective view illustrating different main bearings applied to main journals of the crank shaft in FIG. 4.

(6) FIG. 6 is a perspective view illustrating an example of a main bearing for reducing an oil leak between a cylinder block and a crank shaft according to the related art.

(7) FIG. 7 is a perspective view illustrating another example of a main bearing for reducing an oil leak between a cylinder block and a crank shaft according to the related art.

(8) FIG. 8 is an exploded perspective view illustrating a short overlapping portion between an oil chamber of each bearing saddle and an oil groove of each main bearing in a cylinder block having a different amount of oil supply for each journal according to an embodiment of the present inventive concept.

(9) FIG. 9 is a perspective view illustrating the short overlapping portion between the oil chamber of each bearing saddle and the oil groove of each main bearing in the cylinder block having a different amount oil supply for each journal according to the embodiment of the present inventive concept.

(10) FIG. 10 is a cross-sectional view of FIG. 9.

(11) FIG. 11 is an exploded perspective view illustrating a long overlapping portion between an oil chamber of each bearing saddle and an oil groove of each main bearing in the cylinder block having a different amount of oil supply for each journal according to the embodiment of the present inventive concept.

(12) FIG. 12 is a perspective view illustrating the long overlapping portion between the oil chamber of each bearing saddle and the oil groove of each main bearing in the cylinder block having a different amount of oil supply for each journal according to the embodiment of the present inventive concept.

(13) FIG. 13 is a cross-sectional view of FIG. 12.

DETAILED DESCRIPTION

(14) A cylinder block having a different oil supply for each journal according to exemplary embodiments of the present inventive concept will be described below in more detail with reference to the accompanying drawings. The present disclosure may, however, be embodied in different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the present disclosure to those skilled in the art. Throughout the disclosure, like reference numerals refer to like parts throughout the various figures and embodiments of the present inventive concept.

(15) In a cylinder block having a different oil supply amount for each journal according to the embodiment of the present inventive concept, bearing saddles 11 of a cylinder block 10, to which a crank shaft is mounted, are formed with oil galleries 12 for supplying oil to the bearing saddles 11. Oil chambers 13 temporarily store the oil and have a different length. In order to lubricate main journals or pin journals of the crank shaft according to the overlapped amount between the oil chambers 13 and oil holes 31a formed in main bearings 31 mounted to the bearing saddles 11, the amount of oil supplied to the main journals or the pin journals is adjusted. The overlapped amount is the amount of a portion through which the oil chambers 13 and the oil holes 31a communicate.

(16) The cylinder block 10 has the bearing saddles 11 to which the main bearings 31 for respectively supporting the main journals of crank shaft at both sides of each cylinder are mounted. Since the adjacent cylinders share one bearing saddle 11, the cylinder block 10 typically has the number of bearing saddles which is one more than the number of cylinders.

(17) For example, in a four-cylinder engine, the cylinder block 10 has five bearing saddles.

(18) In this case, it is necessary to supply oil to the bearing saddles 11, and supply the oil to portions at which the main bearings 31 come into contact with the main journals of the crank shaft.

(19) The oil chambers 13, which communicate with the oil galleries 12 and temporarily store the oil, are formed in the bearing saddles 11 and each of which has a different length adjusts the amount of oil supply.

(20) The oil galleries 12 supply oil which is pressed by an oil pump or the like to the bearing saddles 11 and supply the lubricant oil to contact portions between the cylinder block 10 and the crank shaft. The oil galleries 12 may be formed in the cylinder block 10 when the cylinder block 10 is manufactured.

(21) Each oil chamber 13 is connected to an end portion of the associated oil gallery 12, and is recessed along the circumference of the associated bearing saddle 11 from the surface of the bearing saddle 11. The oil supplied from the oil gallery 12 is temporarily stored in the oil chamber 13.

(22) The oil chambers 13 have a different length according to the bearing saddles 11 in which the oil chambers 13 are formed.

(23) For example, the crank shaft is supported by five bearing saddles 11 in the cylinder block 10 in the four-cylinder engine. Therefore, the five bearing saddles 11 are divided into two groups, so that the oil chambers 13 formed in one group have a short length, and the oil chambers 13 formed in the other group have a relatively short length.

(24) As illustrated in FIGS. 8 and 11, the oil chamber 13 illustrated in FIG. 8 has a longer length than that of the oil chamber 13 illustrated in FIG. 11.

(25) Since the main bearings 31 mounted to the bearing saddles 11 have the same specification, the oil holes 31 having a slot shape are formed at the same position in the main bearings 31 mounted to the respective bearing saddles 11. In addition, each main bearing 31 has a groove 31b formed in the circumferential direction thereof such that the oil passing through an associated oil hole 31a is evenly supplied to the entirety of the main bearing 31.

(26) Accordingly, an overlapping length between the oil chamber 13 and the oil hole 31a in FIG. 10 differs from an overlapping length between the oil chamber 13 and the oil hole 31a in FIG. 13, as indicated by respective reference numerals G1 and G2 in FIGS. 10 and 13, and the amount of oil supply increases as the overlapping length increases. If the bearing saddle 11 requires a relatively large amount of oil, the oil chamber 13 has a longer length, compared to the bearing saddle 11. Thereby, the overlapping portion between the oil chamber 13 and the oil hole 31a of the main bearing 31 increases, and thus, the amount of oil supply of increases. On the other hand, in bearing saddle 11 which requires a relatively less oil, the overlapping portion between the oil chamber 13 and the oil hole 31a of the main bearing 31 is decreased so that the amount of oil supply decreases.

(27) Here, the oil chambers 13 have different lengths and the oil holes 31a of the main bearings 31 are formed at the same position so as to provide a different amount of oil supply. That is, since the cylinder block 10 having the bearing saddles 11 is previously manufactured by casting or the like and the main bearings 31 are then assembled to the respective bearing saddles 11, the error assembly therebetween may be prevented by providing the main bearings 31 with the same specification. If the main bearings have a plurality of specifications, error assembly may occur since an operator assembles the main bearings suitable for the respective bearing saddles. However, when the main bearings have the same specification, error assembly may be previously prevented.

(28) In the bearing saddle 11 formed at the far end of the cylinder block 10, the oil chamber 13 is set to have a relatively short length such that the overlapping region between the oil chamber 13 of the bearing saddle 11 and the oil hole 31a of the main bearing 31 is small. In addition, in the bearing saddle 11 formed inward from a far end of the cylinder block 10, the oil chamber 13 has a long length such that the overlapping region between the oil chamber 13 of the bearing saddle 11 and the oil hole 31a of the main bearing 31 is large. Moreover, this structure may be alternated.

(29) When this structure is applied to the four-cylinder engine, oil chambers 13 of first, third, and fifth bearing saddles 11 have a short length, and oil chambers 13 of second and fourth bearing saddles 11 have a longer length that the oil chambers 13 of the first, third, and fifth bearing saddles 11.

(30) Thus, a leakage of oil in the crank shaft illustrated in FIG. 4 is reduced compared to that in the crank shaft illustrated in FIG. 2. Therefore, the amount of oil supplied to the first, third, and fifth bearing saddles 11 is reduced and the amount of oil supplied to the second and fourth bearing saddles 11 is sufficiently maintained. Consequently, a leakage of oil is reduced and power loss due to the supply of oil is decreased, thus improving fuel efficiency.

(31) According to another embodiment of the present inventive concept, an overlapping length between an oil chamber 13 of each bearing saddle 11 and an oil hole 31a of each main bearing 31 may vary according to the position of the oil chamber 13 formed in the bearing saddle 11.

(32) That is, the oil chamber 13 of the bearing saddle 11 communicating with an oil gallery 12 have a determined length, and the oil chamber 13 may be formed at a different position along the circumference of the bearing saddle 11. Since the oil hole 31a is formed at the fixed position of the main bearing 31, the overlapping length between the oil hole 31a and the oil chamber 13 may vary when the main bearing 31 is mounted to the bearing saddle 11. Thereby, the amount of oil supplied to a main journal may be controlled.

(33) In the present disclosure, when the cylinder block is applied the four-cylinder engine, the oil holes 31a overlaps with the oil chamber 13 such that a large amount of oil is supplied to the second and fourth bearding saddles compared to the first, third, and fifth bearing saddles 11.

(34) In accordance with the cylinder block having a different oil supply for each journal according to the exemplary embodiments of the present inventive concept, oil chambers for temporarily storing oil are set to have a different length according to the overlapped amount between the oil chambers and oil holes of main bearings, so that the amount of oil supplied to main journals of a crank shaft can be controlled even though the main bearings having the same specification are applied.

(35) In addition, since the main bearings having the same specification are installed to bearing saddles of the cylinder block in the state in which the oil chamber have a different length when the cylinder block is cast, error assembly can be prevented when an engine is assembled.

(36) Since oil is sufficiently supplied to a portion of the main journals of the crank shaft and unnecessary supply of oil to the other of the main journals is reduced, an oil leak is decreased and power loss due to the unnecessary supply of oil is reduced, thus improving fuel efficiency.

(37) While the present disclosure has been described with respect to the specific embodiments, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims.