JPH06323118A - Lubricating device for vertical shaft type engine - Google Patents

Abstract

PURPOSE:To facilitate management of an oil level, facilitate oil exchange, and simplify piping for oil in a lubricating device for a vertical shaft type engine. CONSTITUTION:An oil pan 3 ms arranged on a lower portion of a crank case, while an oil tank 11 is formed independently on a crank case 1 and the oil pan 3. An intake connection port 75 and a discharge side connection port 46a are formed respectively on the same side surfaces of the crank case 1 and the oil pan 3, vertically with a distance. An outlet 16 and an inlet 15 of the oil tank 11 are formed to be cylinders extending in the same direction, and arranged correspondingly to the connection ports 75, 46a. Oil circulation passages are connected by fitting and connecting the outlet 16 and the inlet 15 of the oil tank 11 to the connection ports 75, 46a of the crank case 1 and the oil pan 3. In addition, the oil tank 11 is detachably supported to the side surfaces of the crank case 1, etc.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lubricating system for a vertical shaft type engine.

[0002]

2. Description of the Related Art In a vertical shaft type engine that vertically supports a crankshaft, as shown in FIG. 3, the space for accommodating lubricating oil is usually only an oil pan 3 provided at the lower end of the crankcase. Moreover, the mounting structure of each member in the crankcase 1 is such that the output shaft portion 6a of the crankshaft 6 projects downward from the engine mounting surface A, the flywheel (not shown) is arranged above the crankcase 1, and the camshaft The drive gears such as 37, the governor, and the oil pump (or oil slinger) 31 are arranged on the lower side of the crank web 6b, and are formed between the crank gear 6 and the crankshaft bearing portion 51. Therefore, the above oil pan 3 for engine lubrication
Will eventually be provided in the space surrounded by the lower side of the camshaft gear 41 and the like and the engine mounting surface A.

[0003]

The above-mentioned prior art has the following problems. (1) Since the area of the oil pan 3 is increased due to the size of the gear train and the balancer 82, the volume change with respect to the oil level change becomes large, and it is difficult to manage the oil level. (2) Since the oil pan 3 is wide, there is a large amount of oil that cannot be used when the engine is tilted. (3) The inclination angle before flowing into the cylinder cannot be large, and the so-called inclination performance is weak. (4) The oil radiating area is limited only by the oil pan 3, and the oil temperature easily rises. (5) There are many parts that move in the oil during tilting, which causes an increase in oil temperature and complicates the breather structure. (6) The oil consumption tends to be unstable due to the increase in the oil temperature.

On the other hand, Japanese Laid-Open Patent Publication No. 62-23514 discloses a lubrication device, which is a horizontal shaft type engine, in which a lubricating oil tank is provided separately from the engine body. However, the mounting of the tank and the oil path connecting structure are such that the lower end of the tank is fixed to the lower end of the side surface of the crankcase with bolts, and the upper oil return opening is connected to the plurality of discharge ports of the pump casing having the pump row. The pump casings are connected to each other via connecting sleeves, and the pump casing is fixed to the side wall of the crankcase. That is, in the support structure of the oil tank, the lower end is fixed by the bolt,
The upper end is supported by the crankcase via the sleeve and the pump casing. Therefore, with this structure, it takes time to attach and detach the tank.

[0005]

SUMMARY OF THE INVENTION It is an object of the present invention to make it easier to manage the oil level and maintain the oiling performance when the engine is tilted in a vertical shaft type engine, facilitate oil exchange, and save oil piping. That is.

[0006]

According to the first aspect of the present invention, an oil pan 3 is provided below a crankcase that supports a vertical crankshaft 6, and an oil tank 11 is provided separately from the crankcase 1 and the oil pan 3. To prepare for the body, the outlet portion 16 of the oil tank 11 is connected to each lubrication point via an oil pump, the oil intake portion 15 of the oil tank 11 is connected to the oil pan 3, and the oil of the oil pan 3 is fed by the oil feeding mechanism. In a vertical axis engine lubrication device that is fed into the oil tank 11, the crankcase 1 and the oil pan 3
On the same side face of the oil tank 11, an intake connection port 75 and a discharge side connection port 46a, which are open in the same direction, are formed at a vertical interval, while the outlet part 16 and the intake part 15 of the oil tank 11 are formed. Is formed in a cylindrical shape protruding in the same direction,
The upper outlet 16 of the oil tank 11 and the lower oil intake 15 are arranged at vertical intervals corresponding to the intake connection port 75 and the discharge side connection port 46a, and are connected to the crankcase and oil pan connection ports 46a and 75, respectively. By connecting the crankcase 1 and the oil pan 3 to the oil flow path between the oil tank 11 and the oil tank 11, the oil tank 11 is detachably supported on the side surfaces of the crankcase 1 and the oil pan 3. ing.

According to a second aspect of the present invention, in the engine lubrication device according to the first aspect, the backflow of oil from the tank side to the oil pan side is prevented in the oil intake portion (15) of the oil tank (11). A check valve (78) is provided.

[0008]

The oil in the oil pan 3 is sent to the oil tank 11 mounted on the side wall of the crankcase by a low-pressure oil sending mechanism other than the oil pump, and is temporarily stored there, and the oil pump pumps each oil of the engine. It is sent to the lubrication point, used for lubrication, and returned to the oil pan again.

When changing the oil, the oil tank 1
By pulling 1 away from the crankcase etc. to the side,
The upper and lower cylindrical oil outlet parts 16 and the intake part 15 are removed at the same time, and after the oil is exchanged, the oil outlet part 16 and the intake part 15 are again simultaneously connected to the vertical connection ports 75, 4 such as a crankcase.
6a. As a result, the oil distribution path and the oil tank can be mounted and supported at the same time.

If the check valve 78 is provided in the lower oil intake portion, the oil in the oil tank will not leak when the oil tank is removed, and the oil replacement work will be easier.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a side view of a vertical shaft type engine mounted on the upper surface of a mower (lawn mower). In this FIG. Is fixed, and a crankshaft 6 perpendicular to the oil pan 3 and the crankcase 1 is supported. The crankshaft 6 projects downward from the lower end mounting surface of the engine and is interlocked with the rotary shaft of the mower. A flywheel 5 and a cooling fan 8 are provided on the upper end of the crankshaft 6, and these are covered by a fan cover.

A lubricating oil tank 11 formed separately from the oil pan 3 and the crankcase 1 is arranged on the side of the crankcase 1 and is detachably (so-called cartridge type) attached to the side wall of the crank chamber. ing.

On the upper end of the side surface of the crankcase and the side surface of the oil pan on the same side, an oil intake connection port 75 and a discharge side connection port 46a, which are opened in the same direction, are formed at intervals vertically. There is. Upper oil intake port 75
Is connected to a high pressure oil pump (not shown) via an oil passage 49 in the upper wall of the crankcase, and the lower connection port 46a
Is connected to the inside of the oil pan 3 via the oil passage 46 in the bottom wall of the oil pan 3 and the low-pressure oil pump 31.

On the other hand, in the oil tank 11, an upper outlet 16 and a lower intake 15 are formed in a cylindrical shape projecting toward the crankcase side, and the connection port 75 and the discharge side connection port are formed. The upper and lower portions are formed so as to correspond to 46a. The upper oil outlet portion 16 projects into the oil tank 11, extends downward in the tank, and opens in the vicinity of the oil tank lower intake portion. An oil inlet cap (fuel filler cap) 12 having a breather mechanism is detachably provided at the upper end of the oil tank 11.

By fitting and connecting the upper outlet 16 and the lower intake 15 of the oil tank 11 to the connection ports 75 and 46a of the crankcase 1 and the oil pan 3, the crankcase 1 and the oil pan 3 and the oil tank 11 are connected. The oil tank 11 is detachably supported on the side surfaces of the crankcase 1 and the oil pan 3 at the same time as the oil flow path between the oil tank 11 and the oil tank is connected.

Reference numeral 78 is a check valve which is provided in the intake portion 15 in the oil tank 11 and extends from the oil tank 11 to the oil passage 4.
Prevent backflow of oil to 6.

FIG. 2 is an enlarged view of the intake portion 15, which is connected to the connection port 46a via an O-ring 79. Similarly, the oil outlet portion 16 on the upper side of FIG. 1 is also connected to the upper end connection port 75 via an O-ring. When the oil tank 11 is detachably attached to the cartridge type in this way, the oil exchange becomes easy.

The operation will be described. Before using the institution,
A fixed amount of lubricating oil is supplied into the oil tank 11 and the oil pan 3 shown in FIG.

During operation of the engine, the lubricating oil in the oil pan 3 is supplied from the suction port 52 of the oil pan 3 to the low pressure oil pump 31.
It is sucked into and pressurized by and is supplied to the lower portion in the oil tank 11 via the oil passage 46, the intake portion 15 and the check valve 78.

The oil in the oil tank 11 is discharged from the outlet 1
6, through the oil passage 49 and a valve (not shown) into the high-pressure oil pump, and after being pressurized, the crankcase 1
Is supplied to each lubrication point. The oil used for lubrication is returned to the oil pan 3.

When the oil is to be replaced, the tank 11 is removed laterally from the side surfaces of the crankcase 1 and the oil pan 3 and the oil is replaced.

[0022]

As described above, according to the first aspect of the present invention, the oil pan 3 is provided in the lower portion of the crankcase that supports the vertical crankshaft 6, and the oil tank 11 serves as the crankcase 1 and the oil pan 3. In preparation for a separate body, the outlet portion 16 of the oil tank 11 is connected to each lubrication point via an oil pump, the oil intake portion 15 of the oil tank 11 is connected to the oil pan 3, and the oil in the oil pan is fed by the oil feeding mechanism. In a vertical axis engine lubrication device that is fed into an oil tank, an intake connection port 75 and a discharge side connection port 46a are formed on the same side surface of the crankcase 1 and the oil pan 3 in the same direction. Are formed at intervals in the vertical direction, while the outlet portion 16 and the intake portion 1 of the oil tank 11 are formed.
5 are formed in a cylindrical shape protruding in the same direction, and are arranged at a vertical interval corresponding to the intake connection port 75 and the discharge side connection port 46a, and the crankcase 1 and the oil pan 3 are provided.
By fittingly connecting the upper outlet 16 and the lower oil intake 15 of the oil tank 11 to the respective connection ports 75 and 46a, the oil flow path between the crankcase 1 and the oil pan 3 and the oil tank 11 is formed. At the same time as the connection, the oil tank 11 is detachably supported on the side surfaces of the crankcase 1 and the oil pan 3, so that there are the following advantages.

(1) By filling the oil tank 11 with the required amount of oil in addition to the oil pan 3,
It is easy to manage the oil level and the oil pan 3
The engine height can be reduced by making the depth of the engine shallow.

(2) The vertical shaft type engine is provided with the oil tank 11 which is separate from the oil pan 3 having a large area, and the oil is stored in the oil tank, so that it does not depend on the inclination of the engine. A sufficient oil supply can always be provided. That is, it is possible to provide a vertical axis engine having a strong inclination performance.

(3) Since the oil tank 11 which is separate from the oil pan 3 is provided, it is possible to increase the heat radiation area of the oil and prevent the oil temperature from rising. It also stabilizes oil consumption.

(4) The oil tank 11 is removable,
By pulling the oil tank 11 laterally from the crankcase 1, the entire oil tank can be removed and the upper outlet 16 and the lower intake 15 can be removed at the same time. That is, the physical attachment / detachment of the oil tank 11 and the connection / disconnection of the oil distribution path can be performed at the same time, which facilitates oil exchange and the like.

(5) The outlet part 16 and the intake part 15 in which the oil tank 11 is formed are formed into a cylindrical shape, and these are fitted and connected to the opening portions of the crankcase 1 and the oil pan 3, so that it is special. The external piping, connection sleeve, etc. are not required, and the piping structure is simplified.

(6) When the check valve 78 is provided in the lower oil intake portion 15 of the oil tank 11 as in the second aspect of the invention, the oil in the oil tank leaks when the oil tank is removed. No, the oil change work becomes easier.

[Brief description of drawings]

FIG. 1 is a schematic vertical sectional view of a vertical shaft type engine to which the present invention is applied.

FIG. 2 is an enlarged view of a portion indicated by an arrow II in FIG.

FIG. 3 is a vertical sectional view of a conventional technique.

[Explanation of symbols]

 1 Crankcase 3 Oil Pan 6 Crankshaft 11 Oil Tank 14 Fan Cover 15 Oil Intake Portion 16 Oil Outlet Port 46a Discharge Side Connection Port 75 Inlet Connection Port 31 Low Pressure Oil Pump (Oil Transmission Mechanism) 78 Check Valve

Claims (2)

[Claims] 1. An oil pan (3) is provided below a crankcase supporting a vertical crankshaft (6), and an oil tank (1
1) is provided separately from the crank case (1) and the oil pan (3), and the outlet (16) of the oil tank (11) is connected to each lubrication point via an oil pump, and the oil tank (11 ), The oil intake (15) is connected to the oil pan (3), and the oil supply mechanism sends the oil in the oil pan (3) into the oil tank (11). On the same side of the case (1) and the oil pan (3), the inlet connection port (75) and discharge side connection port (4
6a) are formed vertically above and below each other, while the outlet part (16) and the intake part (15) of the oil tank (11) are formed in a cylindrical shape protruding in the same direction, and The upper side outlet of the oil tank (11) is arranged at a vertical interval corresponding to the connection port (75) and the discharge side connection port (46a), and is connected to the crankcase (1) and the oil pan connection ports (75, 46a). (16) and lower oil intake (1
By fitting and connecting 5), the oil flow path between the crankcase (1) and the oil pan (3) and the oil tank (11) is connected, and at the same time, the oil tank (11) is connected to the crankcase (1). And a vertical axis engine lubrication device, which is detachably supported on the side surface of the oil pan (3). 2. The oil intake part (15) of the oil tank (11)
A lubrication device for a vertical axis type engine having a built-in check valve (78) for preventing backflow of oil from the tank side to the oil pan side.