JP2007255339A - Air-cooled engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air-cooled engine capable of reducing the number of part items of an engine, while facilitating the cleaning work of mud and muddy water in a cover case and a recoil case. <P>SOLUTION: This air-cooled engine is constituted so that a fan case 3 is installed on the side end wall of a crankcase 2; the recoil case 4 and the cover case 5 are installed on the side end wall of the fan case 3; the cover case 5 is put on the recoil case 4; a recoil air sucking port 4a is opened in the recoil case 4; a cover air sucking port 5a is opened in the cover case 5; and cooling air is introduced to the fan case 3 via the recoil air sucking port 4a from the cover air sucking port 5a. The recoil case 4 is fixed to the fan case 3 with a coil exclusive bolt 16, and the cover case 5 is fixed to the fan case 3 together with the recoil case 4 with a co-fastening bolt 17. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an air-cooled engine, and more particularly, to an air-cooled engine that can easily clean mud and muddy water in a cover case and a recoil case and reduce the number of parts of the engine.

As a conventional air-cooled engine, like the present invention, the installation direction of the crankshaft is set to the left and right lateral direction, the fan case is attached to the lateral end wall of the crankcase, the recoil case and the cover case are attached to the lateral end wall of the fan case, Cover the recoil case with a cover case, open a recoil air inlet in the recoil case, open a cover air inlet in the cover case, and introduce cooling air from the cover air inlet to the fan case via the recoil air inlet (For example, refer to Patent Document 1).
This type of air-cooled engine is mounted on a walking-type management machine or the like, and has an advantage that mud and muddy water can be received by a cover case and muddy mud and muddy water can be prevented from entering the fan case from the recoil air intake.

  However, the conventional engine has a problem because the recoil case is fixed to the fan case with the recoil bolt and the cover case is fixed to the recoil case with the cover bolt.

JP 2003-166426 A (see FIG. 1)

The above prior art has the following problems.
<Problem> Cleaning of mud and muddy water in the cover case and recoil case becomes complicated.
Since the recoil case is fixed to the fan case with the recoil dedicated bolt and the cover case is fixed to the recoil case with the cover dedicated bolt, the total number of bolts increases. For this reason, when performing the cleaning work of the mud and the muddy water in the cover case and the recoil case, it is necessary to remove all these bolts, and the cleaning work becomes complicated.

<Problem> The number of engine parts increases.
Since the total number of bolts is large, the number of engine parts increases.

  The present invention is an air-cooled engine that can solve the above-described problems, that is, an air-cooled engine that can easily clean mud and muddy water in the cover case and the recoil case and reduce the number of parts of the engine. It is an issue to provide.

Invention specific matters of the invention according to claim 1 are as follows.
As illustrated in FIG. 3, the installation direction of the crankshaft (1) is set to the left and right lateral direction, the fan case (3) is attached to the horizontal end wall of the crank case (2), and the fan case (3) Attach the recoil case (4) and the cover case (5), cover the recoil case (4) with the cover case (5), open the recoil air inlet (4a) in the recoil case (4), and then cover the cover case (5). In an air-cooled engine in which a cover air inlet (5a) is opened and cooling air is introduced from the cover air inlet (5a) to the fan case (3) through the recoil air inlet (4a).
As illustrated in FIG. 2, the recoil case (4) is fixed to the fan case (3) with a special recoil bolt (16), and the cover case (5) is fastened together with the recoil case (4) with a fastening bolt (17). An air-cooled engine characterized by being fixed to a fan case (3).

(Invention according to Claim 1)
<Effect> Cleaning of mud and muddy water in the cover case and the recoil case is simplified.
As illustrated in FIG. 2, the recoil case (4) is fixed to the fan case (3) with a special recoil bolt (16), and the cover case (5) is fastened together with the recoil case (4) with a fastening bolt (17). Since it is fixed to the fan case (3), the number of the recoil dedicated bolts (16) can be reduced by the number of the fastening bolts (17), and the total number of bolts is reduced. For this reason, the number of bolts to be attached / detached when cleaning the mud and mud in the cover case (5) and the recoil case (4) is reduced, and the cleaning work is facilitated.

<Effect> The number of parts of the engine can be reduced.
As illustrated in FIG. 2, since the total number of bolts (16) and (17) is reduced, the number of parts of the engine can be reduced.

(Invention according to Claim 2)
In addition to the effect of the invention according to claim 1, the following effect is achieved.
<Effect> It is difficult for mud and muddy water to accumulate in each case such as a cover case.
As shown in FIGS. 1 to 3 or FIGS. 5 to 6 or FIGS. 8 to 10, a cover bulge (5c) is provided at the top of the cover case (5) just behind the recoil handle (7). ), And the cover bulging portion (5c) is protruded upward to a position higher than the cover upper opening (5b), so that mud and muddy water flying from the rear of the cover bulging portion (5c) The part (5c) catches the mud and muddy water from the upper cover opening (5b) into the cover case (5), and the cover case (5), recoil case (4), fan case (3) It is difficult for mud and muddy water to collect inside. For this reason, the air intake of the fan case (3) is not obstructed by the mud and muddy water in each case (3), (4) and (5), and high engine cooling performance can be ensured.

<Effect> The recoil rope is hardly damaged.
As shown in FIGS. 1 to 3 or FIGS. 5 to 6 or FIGS. 8 to 10, a cover bulge (5c) is provided at the top of the cover case (5) just behind the recoil handle (7). ) And the cover bulging portion (5c) is projected upward to a position higher than the recoil handle seating portion (6), so that mud and mud that have come from the rear of the cover bulging portion (5c) It can be received by the exit portion (5c), and this mud and muddy water can be prevented from flying to the recoil handle seat portion (6). For this reason, mud and muddy water are less likely to adhere to the recoil rope during operation of the recoil handle (7), and the recoil rope that is caused by rubbing the mud and muddy water on the rope guide is less likely to be damaged.

(Invention according to claim 3)
In addition to the effect of the invention according to claim 2, the following effect is achieved.
<Effect> The fan case has high air absorption efficiency.
As illustrated in FIG. 1, FIG. 5, or FIGS. 8 to 10, the cover air inlet (5 a) is also opened in the cover bulge portion (5 c), so the cover of the cover bulge portion (5 c) The total opening area of the cover air inlet (5a) can be increased by the amount of the air inlet (5a), and the air intake efficiency of the fan case (3) is high.

(Invention of Claim 4)
In addition to the effect of the invention according to claim 3, the following effect is achieved.
<Effect> It is difficult for mud to collect in each case such as a cover case.
As illustrated in FIG. 1, when opening the cover air inlet (5a) on the rear surface of the cover bulge portion (5c), as illustrated in FIG. 4 or FIG. 7, this cover air inlet (5a) is directly behind. Since the air cleaner (8) is faced from the air cleaner, the mud and muddy water flying from behind the air cleaner (8) are received by the air cleaner (8), and this mud and muddy water is covered by the cover air intake on the rear surface of the cover bulge (5c). Problems that enter the cover case (5) from (5a) are unlikely to occur. For this reason, mud and muddy water are unlikely to accumulate in the cover case (5), the recoil case (4), and the fan case (3).

(Invention according to claim 5)
In addition to the effect of the invention according to claim 4, the following effect is achieved.
<Effect> It is difficult for mud and muddy water to accumulate in each case such as a cover case.
Since the fuel filter (9) is disposed between the lower part of the air cleaner (8) and the lower part of the cover case (5) as illustrated in FIG. 1, FIG. 5, or FIG. 8 to FIG. 9) Mud or muddy water flying from below is received by the fuel filter (9), and this mud or muddy water enters the cover case (5) from the cover air inlet (5a) on the rear surface of the cover bulge (5c). It is difficult for trouble to occur. For this reason, mud and muddy water are unlikely to accumulate in the cover case (5), the recoil case (2), and the fan case (3).

(Invention of Claim 6)
In addition to the effects of the invention according to any one of claims 1 to 5, the following effects are provided.
<Effect> It is difficult for mud and muddy water to collect in the recoil case and fan case.
As shown in FIG. 1 and FIG. 2 (A), the recoil air inlet (4a) and the cover air inlet (5a) are opened in the lateral end wall of the recoil case (4) and the lateral end wall of the cover case (5), respectively. In this case, as illustrated in FIG. 8B, the recoil air intake port (4a) and the cover air intake port (5a) are shifted in position so that the recoil air intake port (4a) and the cover air intake port (5a) are positioned in parallel. Since part or all of the air inlet (4a) overlaps with the lateral end wall (5d) of the cover case (5), mud and mud that fly from the lateral direction are exposed to the lateral end wall (5d) of the cover case (5). ), And this mud or muddy water is unlikely to enter the recoil case (4) from the recoil air inlet (4a), and hence the fan case (3). For this reason, mud and muddy water are not easily accumulated in the recoil case (4) and the fan case (3).

<Effect> It is possible to suppress sound leakage of fan wind noise.
As illustrated in FIG. 8B, a part or all of the recoil air inlet (4a) overlaps with the lateral end wall (5d) of the cover case (5), so that it occurs in the fan case (3). The fan wind noise is released from the recoil air inlet (4a) and is then blocked by the lateral end wall (5d) of the cover case (5), and is difficult to leak from the cover air inlet (5a). For this reason, the sound leakage of fan wind noise can be suppressed.

(Invention of Claim 7)
In addition to the effects of the invention according to any one of claims 2 to 5, the following effects are achieved.
<Effect> The air absorption efficiency of the fan case is increased.
As illustrated in FIG. 9, when opening the cover air inlet (5 a) in the lateral end wall of the cover bulging portion (5 c), the crank shaft central axis is viewed in a direction parallel to the crank shaft central axis (1 a). The cover rear peripheral wall of the cover case (5) including the rear surface of the cover bulge portion (5c) when viewed in a direction parallel to the crankshaft central axis (1a), assuming a virtual perpendicular (1b) passing through (1a) Since the cover rear peripheral wall portion (5e) is moved backward so that the portion (5e) is further away from the virtual vertical line (1b) than the cover front peripheral wall portion (5f) of the cover case (5), the cover bulge portion ( 5c) The cover air intake port (5a) which is long in the front-rear direction can be opened in the lateral end wall, and the total opening area of the cover air intake port (5a) is increased as much as the cover air intake port (5a) can be lengthened in the front-rear direction. Therefore, the air intake efficiency of the fan case (3) is increased.

<Effect> It is difficult for mud and muddy water to reach the opening on the cover and the recoil handle seat.
As illustrated in FIG. 9, the cover rear peripheral wall portion (5e) of the cover case (5) including the rear surface of the cover bulge portion (5c) is imaginary perpendicular to the cover front peripheral wall portion (5f) of the cover case (5). Since the cover rear peripheral wall portion (5e) is moved backward so as to be away from (1b), the distance from the rear surface of the cover bulge portion (5c) to the cover upper opening (5b) and the recoil handle seating portion (6) The muddy soil and muddy water flying from the lower part of the cover bulge part (5c) passes over the cover bulge part (5c) to the cover upper opening (5b) and recoil handle seating part (6). Difficult to reach.

(Invention of Claim 8)
In addition to the effects of the invention according to any one of claims 1 to 7, the following effects are provided.
<Effect> It is possible to select a seating position and a seating posture of the recoil handle that are easy to operate.
As illustrated in FIG. 10, since the recoil case (4) can be adjusted to a predetermined rotation posture, the position and posture of the recoil handle (7) can be adjusted accordingly. Thereby, the seating position and the seating posture of the recoil handle (7) that can be easily operated can be selected according to the engine mounting conditions.

<Effect> It is possible to select the position and posture of the recoil handle seating portion where mud and muddy water hardly fly.
As illustrated in FIG. 10, the recoil case (4) can be adjusted to a predetermined rotation posture, and accordingly, the position and posture of the recoil handle seating portion (6) can be adjusted. Thereby, according to engine mounting conditions, the position and attitude | position of the recoil handle seating part (6) which mud and muddy water cannot fly easily can be selected.

(Invention according to claim 9)
In addition to the effects of the invention according to any one of claims 1 to 8, the following effects are provided.
<Effect> It is easy to start the engine.
As illustrated in FIG. 1 to FIG. 4 or FIG. 8 to FIG. 10, an air cleaner (8) is arranged behind the cover case (5), and between the air cleaner (8) and the cylinder head (10). A carburetor (11) is arranged, a manual priming pump (13) is attached to the air cleaner (8) via a pump stay (12), and the manual priming pump (13) is manually attached to the carburetor (11) before starting the engine. Since the fuel can be supplied and the choke valve operating lever (14) of the carburetor (11) is passed through the pump stay (12), when starting the engine, the operator operates the recoil handle (7). At this position, the manual priming pump (13) and the choke valve operating lever (14) can be operated, and the engine can be started easily.

(Invention according to claim 10)
In addition to the effect of the invention according to claim 4 or claim 5, the following effect is achieved.
<Effect> It is difficult for mud and muddy water to collect in the cover case.
As illustrated in FIGS. 5 to 7, since the fuel supply pump (15) for supplying fuel to the carburetor (11) is disposed between the upper portion of the air cleaner (8) and the cover bulging portion (5c), Mud and mud flying from the rear upper part of the outlet (5c) are received by the fuel supply pump (15), and the mud and mud are received from the cover air inlet (5a) on the rear surface of the cover bulging part (5c). 5) Difficult to enter into the area. For this reason, mud and muddy water are unlikely to accumulate in the cover case (5), the recoil case (4), and the fan case (3).

  Embodiments of the present invention will be described with reference to the drawings. FIGS. 1 to 10 are views for explaining an air-cooled engine according to an embodiment of the present invention. FIGS. 1 to 4 are a first embodiment, FIGS. 5 to 7 are a second embodiment, and FIG. 8 is a third embodiment. Embodiment, FIG. 9 is 4th Embodiment, FIG. 10 is 5th Embodiment. In each embodiment, a single cylinder inclined air-cooled gasoline engine will be described.

The outline of the first embodiment of the present invention is as follows.
As shown in FIG. 3, the installation direction of the crankshaft (1) is the left-right lateral direction, the horizontal direction orthogonal to the left-right lateral direction is the front-rear direction, the one with the crankcase (2) is the front, and the head cover (18) Someone is the back. In this engine, a cylinder is protruded obliquely upward from the crankcase (2), a cylinder head (10) is assembled to the protruding end of the cylinder, and a head cover (18) is assembled to the cylinder head (10). This engine is mounted on a walking type management machine, with the crankcase (2) facing in the traveling direction and the head cover (18) facing the operator. In the walking type management machine, a fuel tank is mounted behind the head cover (18), a mission case is mounted behind the fuel tank, and a steering handle is disposed behind the fuel case.

The structure of the air cooling device is as follows.
As shown in FIG. 3, the fan case (3) is attached to the lateral end wall of the crankcase (2), the recoil case (4) and the cover case (5) are attached to the lateral end wall of the fan case (3), Covering the recoil case (4) with the cover case (5), as shown in FIG. 2 (A), the recoil case (4) is opened with a recoil air intake (4a), and as shown in FIG. ) Is opened, and cooling air is introduced from the cover air inlet (5a) to the fan case (3) via the recoil air inlet (4a). The recoil air inlet (4a) is formed in the entire region of the lateral end wall of the recoil case (4). The cover air inlet (5a) is formed in the horizontal end wall and the peripheral wall of the upper half of the cover case (5). No opening is formed in the lower half of the cover case (5) except that there is a drain hole in the lower part of the peripheral wall. Looking at the direction parallel to the center axis (1a) of the crankshaft, the upper half of the recoil air inlet (4a) provided on the lateral end wall of the recoil case (4) is the side of the cover case (5). It overlaps with the cover air inlet (5a) provided on the end wall. Of the recoil air inlets (4a) provided on the lateral end wall of the recoil case (4), the lower half is covered with the lower half of the lateral end wall of the cover case (5).

The device for making it difficult for mud and muddy water to collect in each case such as a cover case is as follows.
As shown in FIG. 2 (A), a recoil handle seating portion (6) is provided on the upper portion of the recoil case (4), and the recoil handle (7) is seated on the recoil handle seating portion (6), and the cover case (5 The upper opening (5b) of the cover is opened and the recoil handle (7) seated on the recoil handle seat (6) is disposed above the upper cover opening (5b). . As shown in FIGS. 1 and 3, a cover bulge portion (5c) is provided at the upper part of the cover case (5) just behind the recoil handle (7), and the cover bulge portion (5c) is opened on the cover ( 5b) and the recoil handle seating portion (6) are projected upward to a higher position. For this reason, muddy water and mud that come from the back of the cover bulging portion (5c) are received by the cover bulging portion (5c), and this muddy water and mud enter the cover case (5) from the cover upper opening (5b). The trouble which adheres to the recoil handle seating part (6) does not occur easily.

  As shown in FIG. 1, in order to increase the air intake efficiency of the fan case (3), the cover air intake port (5a) is also opened in the lateral end wall and the rear surface of the cover bulge portion (5c). When opening the cover air inlet (5a) on the rear surface of the cover bulge portion (5c), as shown in FIG. 4, the air cleaner (8) faces the cover air inlet (5a) from directly behind. For this reason, mud and muddy water flying from the rear of the air cleaner (8) are received by the air cleaner (8), and it is difficult for the mud and muddy water to reach the cover air inlet (5a).

  As shown in FIG. 1, a fuel filter (9) is disposed between the lower part of the air cleaner (8) and the lower part of the cover case (5). For this reason, mud or muddy water flying from below the fuel filter (9) is received by the fuel filter (9), and this mud or muddy water is covered from the cover air inlet (5a) on the rear surface of the cover bulge (5c). It is difficult for problems to enter the case (5).

The attachment structure of each case is as follows.
As shown in FIG. 1, the fan case (3) is fixed to the crankcase (2) with a fan case bolt (19). As shown in FIG. 2, the recoil case (4) is fixed to the fan case (3) with a special recoil bolt (16), and the cover case (5) is fastened together with the recoil case (4) with a fastening bolt (17). It is fixed to the case (3). For this reason, the number of recoil exclusive bolts (16) can be reduced by the number of bolts (17) for joint fastening, and the total number of bolts is reduced. As a result, the number of bolts to be attached and detached is reduced when cleaning the mud and muddy water in the cover case (5) and the recoil case (4), which facilitates the cleaning work and reduces the number of engine parts. Can be reduced.

The configuration of the engine starting device is as follows.
As shown in FIG. 1, when the fuel can be supplied to the carburetor (11) by the manual priming pump (13) before the engine is started, the recoil handle (7) is inclined rearward and upward to the recoil handle seat (6). A manual priming pump (13) is disposed behind the recoil handle (7). Therefore, when starting the engine, the operator can pull the recoil handle (7) backward without moving after operating the manual priming pump (13) behind the recoil handle (7). Start-up operation is simplified.

The manual priming pump mounting structure is as follows.
As shown in FIG. 3, an air cleaner (8) is disposed immediately behind the cover case (5), a carburetor (11) is disposed between the air cleaner (8) and the cylinder head (10), and the air cleaner (8). A manual priming pump (13) is attached to the pump stay (12), and the choke valve operating lever (14) of the carburetor (11) is passed through the pump stay (12). Therefore, when starting the engine, the operator can operate the manual priming pump (13) and the choke valve operating lever (14) at the operating position of the recoil handle (7). Can be started easily. The manual priming pump (13) functions as a fuel supply pump (15) for supplying fuel to the carburetor (11) after the engine is started. The fuel supply pump (15) is operated by the pulsation pressure in the crankcase (2).

The second embodiment shown in FIGS. 5 to 7 differs from the first embodiment in the following points.
A manual priming pump (13) that also functions as a fuel supply pump (15) is disposed between the upper portion of the air cleaner (8) and the cover bulge portion (5c). For this reason, muddy water and mud flying from the upper rear of the cover bulging portion (5c) are received by the fuel supply pump (15), and this mud and mud water is received by the cover air inlet (5a) on the rear surface of the cover bulging portion (5c). ) Is unlikely to enter the cover case (5). The manual priming pump (13) is fixed to the fan case (3) via the pump stay (12). The pump stay (12) does not penetrate the choke valve operating lever of the carburetor (11). Other configurations and functions are the same as those of the first embodiment, and in FIGS. 5 to 7, the same elements as those of the first embodiment are denoted by the same reference numerals.

The third embodiment shown in FIG. 8 differs from the first embodiment in the following points.
When opening the recoil air inlet (4a) and the cover air inlet (5a) in the horizontal end wall of the recoil case (4) and the horizontal end wall of the cover case (5), the direction parallel to the crankshaft central axis (1a) When the positions of the recoil air inlet (4a) and the cover air inlet (5a) are shifted, a part of the recoil air inlet (4a) in the upper half of the recoil case (4) is attached to the cover case (5). It overlaps with the lateral end wall (5d). For this reason, mud and muddy water flying from the lateral direction are received by the lateral end wall (5d) of the cover case (5), and this muddy mud and muddy water passes from the recoil air inlet (4a) into the recoil case (4) and eventually the fan case. (3) It is difficult for problems to enter. Fan wind noise generated in the fan case (3) is released from the recoil air inlet (4a) and then blocked by the side wall (5d) of the cover case (5) and leaks from the cover air inlet (5a). Hateful. The positions of the recoil air inlet (4a) and the cover air inlet (5a) may be further shifted so that the entire recoil air inlet (4a) overlaps the lateral end wall (5d) of the cover case (5). Other configurations and functions are the same as those of the first embodiment. In FIG. 8, the same elements as those of the first embodiment are denoted by the same reference numerals.

The fourth embodiment shown in FIG. 9 differs from the first embodiment in the following points.
A virtual perpendicular passing through the crankshaft center axis (1a) when viewed in a direction parallel to the crankshaft center axis (1a) when the cover air inlet (5a) is opened in the lateral end wall of the cover bulge (5c). Assuming (1b), the cover rear peripheral wall portion (5e) of the cover case (5) including the rear surface of the cover bulging portion (5c) is viewed as parallel to the crankshaft center axis (1a). The cover rear peripheral wall portion (5e) is advanced backward so as to be farther from the virtual perpendicular (1b) than the cover front peripheral wall portion (5f) of 5). For this reason, the cover wind inlet (5a) which is long in the front-rear direction can be opened in the lateral end wall of the cover bulge portion (5c), and the cover air inlet (5a) ) And the fan case (3) has an improved air absorption efficiency. Other configurations and functions are the same as those of the first embodiment. In FIG. 9, the same elements as those of the first embodiment are denoted by the same reference numerals.

The fifth embodiment shown in FIG. 10 is different from the first embodiment in the following points.
When viewed in a direction parallel to the crankshaft center axis (1a), the bolt insertion hole (4b) of the recoil case (4) has an arc shape centered on the crankshaft center axis (1a), and the recoil case (4) is predetermined. The recoil case (4) can be fixed to the fan case (3) with the recoil bolt (16) and the fastening bolt (17) inserted through the bolt insertion hole (4b). ing. For this reason, the position and posture of the recoil handle (7) can be adjusted, and the seating position and seating posture of the recoil handle (7) that can be easily operated can be selected according to the engine mounting conditions.

It is the elevation which looked at the air cooling engine which concerns on 1st Embodiment of this invention from the right side. FIG. 2A is a view for explaining the air-cooled engine of FIG. 1, FIG. 2A is a view equivalent to FIG. 1 showing a cover case with an imaginary line, FIG. 2B is a cross-sectional view taken along the line BB of FIG. 2 (C) is a cross-sectional view taken along line CC of FIG. 2 (A). It is a top view of the air cooling engine of FIG. It is the elevation which looked at the air cooling engine of FIG. 1 from back. It is the elevation which looked at the air-cooled engine which concerns on 2nd Embodiment of this invention from the right side. It is a top view of the air cooling engine of FIG. It is the elevation which looked at the air cooling engine of FIG. 4 from back. 8A and 8B are views for explaining an air-cooled engine according to a third embodiment of the present invention, in which FIG. 8A is an elevational view of the engine viewed from the right side, and FIG. 8B is a portion viewed from an arrow B in FIG. FIG. It is the elevation which looked at the air-cooled engine which concerns on 4th Embodiment of this invention from the right side. It is the elevation which looked at the air-cooled engine which concerns on 5th Embodiment of this invention from the right side.

Explanation of symbols

(1) Crankshaft
(1a) Crankshaft center axis
(1b) Virtual perpendicular
(2) Crankcase
(3) Fan case
(4) Recoil case
(4a) Recoil air intake
(4b) Bolt insertion hole
(5) Cover case
(5a) Cover air inlet
(5b) Opening on the cover
(5c) Cover bulge
(5d) Horizontal end wall
(5e) Cover rear wall
(5f) Cover front wall
(6) Recoil handle seat
(7) Recoil handle
(8) Air cleaner
(9) Fuel filter
(10) Cylinder head
(11) carburetor
(12) Pump stay
(13) Manual priming pump
(14) Choke valve operation lever
(15) Fuel supply pump
(16) Bolt for recoil
(17) Tightening bolt

Claims (10)

The fan shaft (3) is attached to the horizontal end wall of the crankcase (2), and the recoil case (4) and the cover case are attached to the horizontal end wall of the fan case (3). Attach (5), cover the recoil case (4) with the cover case (5), open the recoil case (4), open the recoil air inlet (4a), and open the cover air inlet (5a) on the cover case (5). In an air-cooled engine in which cooling air is introduced from the cover air inlet (5a) to the fan case (3) via the recoil air inlet (4a),
The recoil case (4) is fixed to the fan case (3) with a special recoil bolt (16), and the cover case (5) is fixed to the fan case (3) together with the recoil case (4) with a fastening bolt (17). An air-cooled engine characterized by that. The air-cooled engine according to claim 1,
A recoil handle seat (6) is provided at the top of the recoil case (4), the recoil handle (7) is seated on the recoil handle seat (6), and an upper cover opening (5b) is formed above the cover case (5). When the recoil handle (7) seated on the recoil handle seat (6) is disposed above the cover upper opening (5b),
A cover bulging portion (5c) is provided at the upper part of the cover case (5), directly behind the recoil handle (7), with the horizontal direction orthogonal to the left and right lateral direction as the front and rear direction and any one as the rear. An air-cooled engine characterized in that the protruding portion (5c) protrudes upward to a position higher than the cover upper opening (5b) and the recoil handle seating portion (6). The air-cooled engine according to claim 2,
An air-cooled engine characterized in that a cover air inlet (5a) is also opened in the cover bulge portion (5c). The air-cooled engine according to claim 3,
When opening the cover air inlet (5a) on the rear surface of the cover bulge (5c),
An air-cooled engine characterized by having an air cleaner (8) faced directly from behind the cover air inlet (5a). The air-cooled engine according to claim 4,
An air-cooled engine comprising a fuel filter (9) disposed between a lower part of an air cleaner (8) and a lower part of a cover case (5). The air-cooled engine according to any one of claims 1 to 5,
When opening the recoil air inlet (4a) and the cover air inlet (5a) on the lateral end wall of the recoil case (4) and the lateral end wall of the cover case (5), respectively,
By shifting the position of the recoil air intake port (4a) and the cover air intake port (5a) when viewed in a direction parallel to the crankshaft central axis (1a), a part or all of the recoil air intake port (4a) is covered with the cover case ( An air-cooled engine characterized by being overlapped with the lateral end wall (5d) of 5). The air-cooled engine according to any one of claims 2 to 5,
When opening the cover air inlet (5a) on the side wall of the cover bulge (5c),
Assuming a virtual perpendicular (1b) passing through the crankshaft central axis (1a) when viewed in a direction parallel to the crankshaft central axis (1a),
The cover rear peripheral wall portion (5e) of the cover case (5) including the rear surface of the cover bulge portion (5c) is the cover front peripheral wall portion of the cover case (5) when viewed in a direction parallel to the crankshaft central axis (1a). An air-cooled engine characterized in that the rear peripheral wall portion (5e) of the cover is advanced backward so as to be further away from the virtual perpendicular (1b) than (5f). The air-cooled engine according to any one of claims 1 to 7,
When viewed in a direction parallel to the crankshaft center axis (1a), the bolt insertion hole (4b) of the recoil case (4) has an arc shape centered on the crankshaft center axis (1a), and the recoil case (4) is predetermined. The recoil case (4) can be fixed to the fan case (3) with the bolt for exclusive use of the recoil (16) inserted through the bolt insertion hole (4b) and the fastening bolt (17). An air-cooled engine characterized by that. The air-cooled engine according to any one of claims 1 to 8,
An air cleaner (8) is disposed behind the cover case (5), a carburetor (11) is disposed between the air cleaner (8) and the cylinder head (10), and a pump stay (12) is mounted on the air cleaner (8). The manual priming pump (13) is attached to the carburetor (11) by the manual priming pump (13) before starting the engine, and the choke of the carburetor (11) is supplied to the pump stay (12). An air-cooled engine characterized by having a valve operating lever (14) penetrated. The air-cooled engine according to claim 4 or 5,
An air-cooled engine comprising a fuel supply pump (15) for supplying fuel to a carburetor (11) between an upper portion of an air cleaner (8) and a cover bulge portion (5c).

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