JPH0242170A - Fuel pump fitting structure for engine - Google Patents

Abstract

PURPOSE:To facilitate the fitting work and maintenance work by fitting a fuel pump to the cover member of an engine via a cylinder member and connecting the pump shaft of the fuel pump and a pump driving shaft in the cylinder member via an Oldham's joint. CONSTITUTION:A fuel pump 15 is arranged on a side cover 13 covering the side of a crank case 4. In this case, a pump driving shaft 25 and an intermediate shaft 26 are rotatably supported on the side cover 13 respectively. On the other hand, a crank shaft 28 is rotatably supported on the crank case 4 via a main bearing 27. The pump driving shaft 25 is driven by the crank shaft 25 via multiple gears 31, 30b, 30a, 29. A cylinder member is coupled on the inner periphery of a cylinder portion 32 protruded on the side cover 13. The pump driving shaft 25 and the pump shaft 38 of the fuel pump 15 are connected by the cavity section 37 of the cylinder member 33 via an Oldham's joint 39.

Description

[Detailed Description of the Invention] LILL5UU This invention drives fuel to the crankshaft! 7I In an engine that is pressurized and injected by a connected fuel pump,
Attach the fuel pump to the engine cover.IjlJ-! /Ru.

Conventionally, in gasoline engines for vehicles, there is a fuel injection system in which fuel is pressurized by a fuel pump and injected into the intake air through a fuel injection valve.
Such a fuel injection type engine is disclosed in Japanese Utility Model Publication No. 55-39357.

These engines use an electric pump as the fuel pump, so 1. The pump can be installed at any location (6) and is located away from the engine body.

However, when trying to use a pump that is mechanically driven from the engine crankshaft as a fuel pump, its installation position is limited to a location close to the crankshaft, and this requires installation work and maintenance. Ease of work must be taken into consideration, and sufficient attention must be paid to installation accuracy to prevent excessive load from being placed on the pump shaft and its bearings after installation.

Accordingly, the present invention seeks to provide a mounting structure for a crankshaft driven fuel pump that satisfies such needs.

In order to achieve this, and for this purpose, in J3 of the present invention, a pump drive shaft drivingly connected to a crankshaft of the engine is attached to a cover member of the engine, and is rotatably protruded outward from the cover member. At the same time, a fuel pump is attached to the cover member via a cylindrical member that concentrically surrounds an outwardly protruding portion of the pump drive shaft, and the pump shaft of the fuel pump and the pump drive shaft are disposed within the cylindrical member. They are connected to each other via an Oldham joint.

According to the present invention, the fuel pump is attached to the outside of the cover member of the engine, and the pump shaft is the pump shaft i[11
1 through the Oldham joint, the fuel pump can be attached to and removed from the cover member very easily in the assembled state, and maintenance work for the fuel pump is therefore facilitated. In addition, by interposing the Oldham joint,
Even if the axis of the pump shaft is slightly offset from the @ line of the pump drive shaft, the Oldham joint accommodates this misalignment and does not apply unreasonable force to the pump shaft, making it easy to manufacture and install the fuel pump. It is. Furthermore, since the Oldham joint is provided in a space surrounded by a cylindrical member, it is possible to lubricate the Oldham joint 1- using fuel leaking into the space from the pump chamber of the fuel pump. can.

In the present invention, a seal member for sealing around the shaft is also provided between the outer peripheral surface of the pump drive shaft and the inner peripheral surface of the cylindrical member. Therefore, the Oldham joint is connected to the seal member and the fuel pump. Since the Oldham joint is placed between do.

Tomo-Toyoichi's Figure 1 is a side view of an engine according to an embodiment of the present invention, and this engine 1 is a two-cycle V-type two-cylinder engine for a motorcycle. 2 is a motorcycle head vibe, 3
is a main frame connected to the head vibrator, and the engine 1 is suspended and supported by this main frame 3.

FIG. 2 is a schematic view of the engine 1 seen from above. As can be seen from this figure and FIG.
They are juxtaposed in the width direction and protrude. 6 is an exhaust pipe, 7 is a spark plug, and 8 is a cooling water pipe connected to a radiator (not shown). In addition, ○+, 02, Ch and 0
4 indicates the axial positions of the crankshaft, transmission shaft, transmission output shaft, and water pump, respectively. Inside the crankcase 4, the left and right cylinders 5.5
The engine is divided into two crank chambers corresponding to each other, each crank chamber is provided with an intake port 10, and an intake pipe 9 is connected to each of these intake ports 10 and extends upward. The upper ends of the intake pipes 9 are connected to the left and right main frames 3.
An air intake port is opened between the intake pipes 9 and 9, and a throttle valve 12 is provided in the middle of the intake pipe 9. Two fuel injection valves 14 are provided for each intake pipe 9 at intermediate positions between the throttle valve 12 and the intake port 10. Reference numeral 11 is a closed valve provided at the intake port 10.

A side cover 13 that covers the side of the crankcase 4 is provided with a fuel pump 15 that is linked to and mechanically driven by the crankshaft.
The fuel in the sunken fuel tank 16 is] 17. The fuel pump 1 via the fuel intake pipe 18! ) is inhaled. 0
5 indicates the axial position of the pump shaft of the fuel pump 15. Fuel discharged from the fuel pump 15 is sent to a metal fuel supply pipe 20 via a fuel discharge pipe 19. The fuel suction pipe 18 and the fuel discharge pipe 19 are arranged to pass above the cladding part C that protrudes laterally of the side cover 13, thereby reducing the overall dimension in the "1" direction.
A fuel system handling valve 57 is provided in the front part of the fuel system C1 so as to face forward.This also reduces the width dimension and facilitates maintenance.

The supply 7111 pipe 20 is connected to the left and right intake pipes 9 as shown in FIG.
Two connecting pipes 21 made of high-pressure rubber hoses branch from the main part and the rear part of this fuel supply pipe 20, respectively, and connect the corresponding fuel injection pipes. It is connected to valve 14. Oil supply pipe 20
is also provided with a pressure regulating valve 22, and this pressure regulating valve 22
By returning excess fuel to the fuel tank 16 through a return pipe 23 connected to the fuel supply pipe 20, the oil pressure in the fuel supply pipe 20 is kept constant. The fuel injection valve 14 incorporates an electromagnetic opening/closing means 24, and the fuel sent to the fuel injection valve 14 via the contact pipe 21 is injected from the fuel injection valve 14 into the intake pipe 9 only when the electromagnetic opening/closing means 24 opens. Ru. An electric signal is input to the electromagnetic opening/closing means 24 through the electric wire e, and the electromagnetic opening/closing means 24 is opened by this electric signal, but the electric signal is input only when the reed valve 11 is open, and the desired fuel at that time is input. It is controlled by a computer or the like so that it lasts for the amount of time it is supplied. Therefore, when the injection valve 11 is opened, the maximum amount of fuel is injected from the fuel injection valve 14 according to the desired supply amount.

Next, the fuel pump 15J3 and its mounting structure will be explained. FIG. 3 is a cross-sectional view of the fuel pump 15 and the crankcase portion near the pump mounting portion. The pump drive shaft 25 is attached to the side cover 13 of the crankcase 4.
and the intermediate @26 are rotatably supported. Although these axes 25, 26 are shown spaced apart, they are actually located close together. A crankshaft 28 is rotatably supported in the crankcase 4 via a main bearing 27, and a gear 29 fixed to the crank @28 meshes with a gear 30a integrated with the intermediate shaft 2G. A gear 30b meshes with a gear 31 that is integral with the pump drive shaft 25. Therefore, the pump drive shaft 25 is connected to the gear 31. It is mechanically connected to the crankshaft 28 via the tooth width 30b, the gear 30a, and the gear 29, and is driven by the crank IN128.

The pump drive shaft 25 protrudes outward from the side cover 13, and a cylindrical portion 32 concentrically surrounds this protrusion at intervals in the radial direction. A small diameter portion 33a of a cylindrical member 33 consisting of a small +Y portion 33a and a large diameter portion 33t is fitted into the inner peripheral surface of the cylindrical portion 32, and a fuel pump 15 is fitted onto the end surface of the large diameter portion 33b of the cylindrical member 33. The fuel pump 15 is attached to the side cover 1 by bringing their end faces into contact and tightening them with the pole 1- or the like.
It is attached to 3. An axial hole 35 passes through the center of the cylindrical member 33. The diameter of this hole 35 is larger than the diameter of the pump drive shaft 25, and the space between the cylindrical member 33 and the pump drive shaft 25 is closed by an oil seal (seal member) 36 located at the inner end of the cylindrical member 33. There is. Oil seal 36 and combustion! A cavity 37 is formed between the E1 pump 15 by the moeki hole 35, and the pump is driven @
25 and a pump shaft 38 protrude into the cavity 37 from both sides, and an Oldham joint 39 is inserted into the cavity 37.
are connected via.

The Oldham joint 39 consists of a first joint piece 40 and a second joint piece 41 connected in series (see FIG. 4). Two parallel grooves 42.42 are bored on the inner end surface of the first joint piece 40, and a bifurcated protrusion 43.4 is formed on the outer end of the pump drive shaft 25.
3 are adapted to fit into these grooves 42,42. A plate-shaped protrusion 44 is provided on the outer end surface of the first joint piece 40 at right angles to the groove 42 . A diametrical groove 45 is formed on the inner end surface of the second joint piece 41 to fit with the protrusion 44 .
A groove 46 is provided on the outer end surface of the nuclear submarine 45 in a direction perpendicular to the nuclear submarine 45. This groove 46 has a pump shaft 38
A rectangular protrusion 47 formed at the end of the plate fits therein. The rotation of the pump drive shaft 25 is reliably transmitted to the pump shaft 38 through the respective protrusions and grooves that are fitted into the pump shaft 38. Part 40.41
A stopper stop 34 is integrally formed on the cylindrical member 33 to prevent the fitting from coming out of alignment due to displacement in the axial direction.

The fuel pump 15 is an R-7 pump, and is composed of a pump body +5a and case members 15b and 15c sandwiching the pump body +5a from both sides and sealing a pump chamber formed in the water body 15a. The pump shaft 38 has both ends connected to the case member 15b via bearings 48 and 48, respectively.

A pump gear 49 is provided on the pump shaft 38, supported by the main body 15c and passing through the pump chamber of the main body 15a. When the pump is in operation, a small amount of fuel leaks into the cavity 37 through the bearing 48 on the case member 15b side, and this fuel moistens the fitting portion between the protrusion and the groove of the Oldham joint 39. This leaked fuel is then returned to the fuel tank 16 via the exhaust pipe 50. Further, the cylindrical member 33 is provided with a communication passage 51 that communicates the oil seal 36 portion with the atmosphere.
This prevents pressure build-up in the area.

The case member 15c of the fuel pump 15 has a suction passage 52 connected to the fuel suction pipe 18, and a fuel discharge pipe 19.
A discharge passage 53 connected to the suction passage 52 is provided, and the fuel sucked into the suction passage 52 is pressurized by the pump gear 49 and discharged to the discharge passage 53 side. The discharge passage 53 has a built-in check valve 56 which is biased by a spring 54 in the direction of closing the discharge valve 155, and the fuel pressurized by the rotation of the pump V-shape 49 is checked by the pressure. valve 56
Press to open the discharge passage 53. The fuel is fed under pressure to the fuel supply pipe 20 via the fuel discharge pipe 19. However, when the bomb gear A749 is not rotating, the check valve 56 is pushed down by the spring 54 and the pressure of the downstream fuel to close the discharge port 55. Therefore, when the pump is stopped, the fuel in the fuel supply pipe 20 is discharged D
55. The suction passage 5 passes through the stopped pump gear 49.
There is no backflow to the second side.

According to this embodiment, when installing the fuel pump 15, after fitting the cylindrical member 33 into the cylindrical portion 32, the first joint piece 40 and the second joint piece 41 are inserted into the hole 35 of the cylindrical member 33. are sequentially introduced in the axial direction to fit the protrusion 43 and the groove 42 and the protrusion 44 and the groove 45, and then the assembled fuel pump 15 is moved from the outside in the axial direction, and the pump shaft 38 While fitting the protrusion 47 of the leading pane into the second joint piece 41, the end surface of the case member 15b is brought into contact with the end surface of the cylindrical member 33,
The cylindrical member 33 and the fuel pump 15 may be bolted to the lead cover 13. In this case, even if the axis of the pump shaft 38 and the axis of the pump drive shaft 25 are slightly misaligned, the groove and protrusion of the Oldham joint 39 slide against each other to accommodate the misalignment of the @ line. By connecting the pump shaft 38 to the pump drive shaft 25, the pump@38
No unreasonable load is placed on the bearings or bearings 48. Therefore, it is extremely easy to install the fuel pump 1:], and
Since it is not necessary to pay close attention to the alignment of the pump shaft 38, the fuel pump 15 itself can be easily manufactured and assembled.

Since the fuel pump 15 can also be removed very easily in the reverse order, the maintainability of the fuel pump 15 is improved.

Since it is located inside the Oldham joint, it is lubricated by the fuel leaking from the pump chamber of the fuel pump 15 into the cavity 37.Furthermore, since the cart due to the friction of the oil seal 36 does not act on the Oldham joint 39, the Oldham joint The durability of Into 39 is improved.

As described above, in the present invention, a pump drive shaft drivingly connected to the crankshaft of the engine is provided on the cover member of the engine so as to be rotatable and protrude outward from the cover member. At the same time, a fuel pump is attached to the cover member via a cylindrical member that concentrically surrounds the outwardly protruding portion of the pump drive shaft, and the pump shaft of the fuel pump and the pump drive shaft are mounted within the cylindrical member. Since they are connected to each other via the joint, the fuel pump can be attached to and detached from the cover member very easily in the assembled state, thereby improving the maintainability of the fuel pump.

Also, Oldham Join 1~. easily adapts to misalignment between the pump shaft and the pump drive axis, making it easy to install the fuel pump (
The work is easy, and the fuel pump itself is easy to assemble and manufacture, and no undue burden is placed on the pump shaft and its bearings. The Oldham joint can be effectively lubricated using fuel leaking from the pump chamber.

In the present invention, by providing a sealing member that seals around the shaft between the outer circumferential surface of the pump drive shaft and the inner circumferential surface of the cylindrical member, the frictional load due to the sealing member does not act on the Oldham joint. Together with the lubrication provided by the leaked fuel, the durability of the Oldham joint is improved.

[Brief explanation of the drawing]

Fig. 1 is a side view of an engine according to an embodiment of the present invention, Fig. 2 is a schematic view of the engine seen from above, and Fig. 3 is a fuel pump and the fuel pump A sectional view of the case part, and Figure 4 is an exploded perspective view of the Oldham joint. 1... Engine, 2... Head pipe, 3... Main frame, 1... Crank case, 5...・Cylinder, 6...Exhaust pipe, 7...Spark plug, 8...Cold water pipe, 9...Intake pipe, 10...Intake port, 11...
Reed valve, 12... Throttle valve, 13... Side cover, 14... Fuel 1! (, I injection valve, 15... fuel pump, 16... fuel tank, 17... cock,
18... Fuel r1 intake pipe, 19... Fuel discharge pipe, 20
... Oil supply pipe, 21 ... Connection pipe, 22 ... Pressure regulating valve,
23... Return pipe, 24... Electromagnetic opening/closing means, 25...
・Pump drive shaft, 26... Intermediate 11.27... Main bearing, 28... Crankshaft, 29.30.31...
Gear, 32... Cylindrical part, 33... Cylindrical member, 34
... Fall prevention, 35 ... Hole, 3G ... Oil seal, 37 ... Cavity, 38 ... Pump shaft, 39 ...
・Oldham joint, 40...First joint piece, 41...Second joint piece, 42...Groove, 43
...Protrusion, 44...Protrusion, 45.46...1L4
7... Protrusion, 48... Bearing, 49... Pump gilet, 50... Discharge pipe, 51... Communication passage, 52... Suction passage, 53... Discharge passage, 54... ·spring,
55...lli outlet, 56...check valve, 57...
Air valve, 58...generator cover

Claims (2)

[Claims] (1) A pump drive shaft drivingly connected to the crankshaft of the engine is provided on the cover member of the engine so as to be rotatable and protrudes outward from the cover member, and the pump drive shaft is attached to the cover member. A fuel pump is attached via a cylindrical member that concentrically surrounds the outward protrusion, and a pump shaft of the fuel pump and the pump drive shaft are connected to each other within the cylindrical member via an Oldham joint. Fuel pump mounting structure for engines. (2) The fuel pump mounting structure according to claim 1, further comprising a seal member provided between the outer peripheral surface of the pump drive shaft and the inner peripheral surface of the cylindrical member.