JPS6183450A - Cooling water intake device for v-type engine - Google Patents

Abstract

PURPOSE:To simplify a cooling water passage, by making an inlet leading to a water jacket and another inlet of a through hole piercing through a cylinder side both open to a setting seat of one cylinder of a V-type engine, while covering the seat with an inlet chamber. CONSTITUTION:An inlet 19 leading to a water jacket 15 and an inlet end 17a of a through hole 17 piercing through a cylinder block longitudinally both are opened to a setting seat 18 of one cylinder 2 of a V-type engine. In addition, an inlet chamber 22, whose backside is opened free and has a cooling water intake hole 23 on the surface, is put on the seat as a cover, and a discharge port of a water pump 24 is connected to the cooling water intake hole 23, then an outlet end of the through hole 17 is connected to a water jacket 14 of the other cylinder 1. With this constitution, the whole cooling water passage is simplifiable.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a cooling water introduction device for a V-type engine developed using a water-cooled engine.

[Technical background of the invention and its problems] In water-cooled V-type engines installed in motorcycles, etc., cooling water is supplied to the front cylinder and rear cylinder from one water pump in series or in parallel. However, if the introduction waterway is constructed by relying on external piping, damage may easily occur due to collision with other objects, which is undesirable in terms of appearance.

For this reason, many conventional J5 models have devised cooling channels to make the external piping as short as possible, but the installation position of the water pump has been changed, making the structure inside the mission case more complicated, and reducing the cooling water performance. Problems such as deterioration may occur.

[Purpose of the invention]

The present invention provides a cooling water introduction device for a V-type engine, which aims to simplify the cold water waterway and minimize external piping.

(Summary of the Invention'g5) In accordance with the above object, the present invention provides for one cylinder of a V-type engine to have an inlet that communicates with its water jacket and a through hole that passes through one side of the cylinder after t111. A 60mm J8 seat is provided with the inlet end lined up, and an inlet chamber with an open surface and a cold water introduction hole is attached to the seat, and the outlet of the A-tube is connected to the cooling chamber. It is characterized in that it is connected to the water inlet, and the outlet end of the through hole is connected to the water gauge 17 of the other cylinder.

[Examples of fruitful inventions]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the drawings without showing embodiments. , the figure shows 5O) IC (single overhead cam) 4
Shows the Nykle water-cooled V-type engine.

The front cylinder 1 and the rear cylinder 2 are arranged in a V-shape, slightly offset in the axial direction around a common crank @3. Cylinder heads 4 and 5 are placed on both cylinders 1.2, and valve operating camshafts 6.7 are supported on the upper portions thereof.

The camshafts 6 and 7 have driven sprocket gears 8 and 9 fixed thereto, and a cam chain 10 between the drive sprocket gears 12 and 13 arranged on the crank rack 11113.
．． 11 is suspended and given rotation from the crankshaft 3,
Control the intake valve J> and exhaust J/valve b
＋＋vru. Reference numerals 14 and 15 indicate water damage and kerato on the front cylinder 7 and rear cylinder 2.

Next, FIG. 2 is a plan view of the rear cylinder 2 alone, FIG. 3 is a longitudinal sectional front view taken along arrow A-A in FIG. 2, and FIG.
It is a longitudinal side view taken in the direction of arrow B.

The cam chain 11 is suspended within a cam chain 16 formed on one side of the cylinder 2 and moves in a fixed direction.

Between this cam chain chamber 16 and cylinder bore 2a,
A through hole 17 in the front-rear direction is provided. The cylinder 2t around the rear end 17a of this through hole 17! Seat surfaces 18 as shown in FIG. 5 are formed on the two sides. One rear cylinder cooling water inlet is opened in the seat surface 18 along with the rear end 17a of the zero through hole, and communicates with an approach hole 20 extending downward from the bottom of the A-tajitoket 15. A seat surface 21 as shown in FIG. 6 is also formed on the protruding surface of the cylinder 2 around the front end 17b of the through hole.

As shown in FIGS. 7, 8, and 9, a cooling water inlet chamber 22 with an open back surface is attached to the seat surface 18. As shown in FIGS.

This inlet chamber 22 is located at the rear end 17a of the through hole.
and one rear cylinder cooling water inlet,
A mounting seat surface 22a corresponding to the seat surface 18 is formed, and a cooling water inlet 23 is opened on the surface. A pipe 25 led out from a discharge port of a water pump 24 is connected to the cooling water inlet 23 . A connector 26 is attached to one seat surface 21,
Connect piping 27. Distribution? The tip of 227 is connected to the water jacket 1-14 by a connector 28 attached to the rear surface of the front cylinder located immediately ahead. A piping 29 communicates the water jacket around the combustion chamber of the rear cylinder head 5 with the water jacket around the combustion chamber of the front cylinder head 4.

With the above configuration, the cooling water that has been cooled by the radiator is pumped to the water pump 24, and the cooling water that has entered the inlet chamber 22 via the piping 25 flows through the through hole 17 that opens into the chamber. Rear cylinder cooling water inlet 1
Divided into. The cooling water that has passed through the through hole 17 is introduced into the water jacket 14 via the connector 26, piping 27, and connector 28, cooling the front cylinder 1! After that, it is sent to the cylinder head 4. A cooling water beam introduced from one rear cylinder cooling water inlet through an approach hole 20 to the A-taper jacket 15 cools the cylinder 2.
After cooling, the water is sent to the cylinder head 5 to cool the area around the combustion chamber, and then sent to the cylinder head 4 via the pipe 29, where it joins with the cooling water from the front cylinder 1 to cool the area around the combustion chamber. , sent to Raji Kota. The cooling water circulates as described above, effectively cooling the front and rear cylinders of the V-type device.

(Effects of the Invention) As described above, the cold W* introduction device for a V-type engine according to the present invention has an inlet communicating with the water jacket 1 of the cylinder in one seat formed on one cylinder; Pass the side of the cylinder back and forth through this hole, and connect it to the water jacket of the other cylinder. The cooling water is distributed to both cylinders by attaching an inlet pipe, which simplifies the overall configuration of the cold IJ water flow path, eliminates the need for complicated external piping, and reduces the risk of damage. This inlet chamber improves the appearance as it is made smaller.This inlet chamber improves the ease of assembling the cooling water system, reduces costs, and facilitates functional management, which has the effect of improving cooling performance.

[Brief explanation of drawings]

Fig. 1 is a side view of a four-stroke water-cooled V-type engine showing an embodiment of the present invention, Fig. 2 is a plan view of the chassis linter alone, and Fig. 3 is a longitudinal sectional front view taken along the line A-A in Fig. 2. , Fig. 4 is a cross-sectional side view taken from the 13-8 arrow lfL in Fig. 2, and Fig. 5 is a sectional side view of Fig. 4.
Fig. 6 is a drawing of the seating surface shape as seen from arrow C in Fig. 4, Fig. 7 is a rear view of the inlet chamber viewed from the surface, and Fig. 8 is Fig. 7 of the same figure. EE arrow sectional view of
FIG. 9 is a front view seen from the apical surface. 1...Freon 1~Cylinder, 2...! Jt cylinder, 3... Crankshaft, 4... Front cylinder head, 5... Rear cylinder head, 6, 7... Camshaft, 8.9... Driven sprocket gear, 10.1
DESCRIPTION OF SYMBOLS 1...Cam chain, 14.15...Water jacket, 16...Cam chain chamber, 17...Through hole, 18.21...Seat surface, 22...Inlet chamber, 23...・Cooling water inlet, 24...Water pump, 25.27...Piping, 26.28...Connector. Applicant's agent Hisa Hatano 3 Figure 4 Figure 5 Kaya 6 Condolence"' 4..67 Tei Figure 9

Claims (1)

[Claims] One cylinder of a V-type engine is provided with a seating surface in which the inlet that leads to the water jacket and the inlet end of the through hole that penetrates the cylinder block in the front and back are lined up and open, and the surface is open to cool the surface. An inlet chamber with a water introduction hole is attached to the seat surface, the discharge port of the water pump is connected to the cooling water introduction hole, and the outlet end of the through hole is connected to the water jacket of the other cylinder. A characteristic cooling water introduction device for V-type engines.