V-type block of a crank circular slider mechanism and a cylinder liner, a group of the cylinder liner, mechanical equipment thereof

What is claimed is: 1. A cylinder sleeve used in a V-type block of a crank circular slider mechanism, the V-type block including a piston, which has a receiving hole for receiving a circular slider therein, a block having a main journal hole, and a group of adjacent cylinders arranged in a V form intersecting at an intersection portion of the main journal hole, each of the cylinders in the group of adjacent cylinders extending through the main journal hole respectively, wherein the cylinders each extend through the main journal hole with an axial length beyond the main journal hole, the axial length being long enough for providing a reciprocating range required for reciprocating motion of a part of the piston located beneath the receiving hole, the cylinder sleeve comprising: a thin wall cylinder body whose axial length is sized so as to receive the piston of the crank circular slider mechanism and to accommodate an entirety of the reciprocating motion, the thin wall cylinder body of the cylinder sleeve being provided with a through hole having an axis intersecting perpendicularly a central axis of the thin wall cylinder body, wherein the through hole is located in the cylinder sleeve in an axial direction such that the through hole faces the main journal hole and is coaxial with the through hole after the cylinder sleeve is fitted with a corresponding cylinder, the through hole being structured for passage of a crank pin of a crankshaft and is also referred to as a crankshaft passage hole, and wherein a part of a side wall of the cylinder sleeve is cut out to form an avoidance opening, which is located so that a circle corresponding to a perimeter of the crankshaft passage hole faces the avoidance opening, and so that the avoidance opening is structured to accommodate a second cylinder sleeve that intersects the cylinder sleeve, and wherein the cylinder sleeve having the avoidance opening and the crankshaft passage hole includes two sides with a width sufficient for providing a guiding plan for a guiding portion of the piston fitted in the cylinder sleeve. 2. The cylinder sleeve of claim 1 , wherein the avoidance opening is obtained by the cutting through with a plan that is parallel to the central axis the thin wall cylinder body of the cylinder sleeve and perpendicular to the axis of the crankshaft passage hole. 3. The cylinder sleeve of claim 2 , wherein the avoidance opening has a form of a concave part on a middle section of the cylinder sleeve along an axial direction of the cylinder sleeve, without reaching an extreme end of the cylinder sleeve. 4. The cylinder sleeve of claim 3 , wherein the avoidance opening is located in the axial direction of the cylinder sleeve such that the cylinder sleeve is divided into three parts: a first part extending from a first end face of the cylinder sleeve to a plan where a first lateral side of the avoidance opening lies, the first part having a length meeting a requirement for axial movement of a crown of the piston; a second part spanning the avoidance opening in the axial direction of the cylinder sleeve; and a third part extending from a plan of that includes a second lateral side of the avoidance opening to a second end face of the cylinder sleeve, wherein the third part of the cylinder sleeve along the axial direction of the cylinder sleeve is partly cut into an independent arc portion, the independent arc portion beginning from an interface line where the second lateral side of the avoidance opening intersects a bottom line of the avoidance opening and extending along a naturally extending line of the bottom line of the avoidance opening. 5. The cylinder sleeve of claim 3 , wherein an extent to which the avoidance opening lies in the cylinder sleeve along the axial direction of the cylinder sleeve divides the cylinder sleeve along its axial direction into three parts: a first part extending from a first end face of the cylinder sleeve to a plan where a first lateral side of the avoidance opening lies, the first part having a length meeting a requirement for axial movement of a crown of the piston; a second part spanning the avoidance opening along the axial direction of the cylinder sleeve; and a third part extending from a plan in which a second lateral side of the avoidance opening lies to a second end face of the cylinder sleeve, wherein the third part in the axial direction of the cylinder sleeve is partly cut into an independent arc part, such that the independent arc part begins at an interface line of the second lateral side of the avoidance opening, intersects a bottom line of the avoidance opening to a bottom end face of the cylinder sleeve in an angled direction approaching the central axis of the thin wall cylinder body of the cylinder sleeve. 6. A cylinder sleeve group comprising: a first cylinder sleeve; and a second cylinder sleeve, wherein the first cylinder sleeve is a cylinder sleeve used in a V-type block of a crank circular slider mechanism that includes: a piston with a receiving hole for receiving a circular slider therein, a main journal hole, and a group of adjacent cylinders arranged in a V form intersecting in a position of the main journal hole, each of the cylinders in the group of adjacent cylinders extending through the main journal hole respectively, wherein the cylinders each extend through the main journal hole with an axial length beyond the main journal hole, the axial length being long enough for providing a reciprocating range required for reciprocating motion of a part of the piston located beneath the receiving hole, wherein the first cylinder sleeve includes: a thin wall cylinder body whose axial length is sized so as to receive an entirety of the reciprocating motion of the piston of the crank circular slider mechanism, a through hole having an axis intersecting vertically with a central axis of the thin wall cylinder block, the through hole being located in the first cylinder sleeve in an axial direction in such a way that the through hole is permitted just to face the main journal hole after the first cylinder sleeve fits into a cylinder, the through hole being used for passage of a crank pin of the crankshaft and also is referred to as a crankshaft passage hole, a part of a side wall of the cylinder sleeve is cut out to form an avoidance opening, which is located so that a first of two circles where the crankshaft passage hole intersects the first cylinder sleeve coincides with the avoidance opening, and a second of the two circles corresponds to the through hole and faces the avoidance opening, and in an axial part of the cylinder sleeve in which the avoidance opening lies, the first cylinder sleeve, having the avoidance opening and the through hole, is left on two sides with a width enough for providing a guiding plan for a guiding portion of the piston when fitted in the first cylinder sleeve; wherein the second cylinder sleeve is that as recited in accordance with claim 4 ; wherein the third part of the first cylinder is not cut; and wherein, when assembling, first the first cylinder sleeve is mounted with its avoidance opening facing toward a mounting position of the second cylinder sleeve, then a cut arc part of the second cylinder sleeve is mounted to its place, then a block of the second cylinder sleeve is mounted partly, and, when the assembling is completed, bottom lines of the avoidance openings of the first and second cylinder sleeves are against each other. 7. The mechanical equipment comprising a V-type block of a crank circular slider mechanism that includes: a piston with a receiving hole for receiving a circular slider therein, a main journal hole, and a group of adjacent cylinders arranged in a V form intersecting in a position of the main