The present invention relates to a delivery pipe for gasoline provided with an inlet pipe. In particular, it relates to a connecting portion between a delivery pipe main body and the inlet pipe.
Conventionally, gasoline delivery pipes for supplying gasoline to a plurality of cylinders of an engine provided with a plurality of injectors are known. Such gasoline delivery pipes sequentially jet out fuel, which is supplied via underfloor piping from a gasoline tank, through the plurality of injectors into the plurality of cylinders or intake pipes of the engine to mix the fuel with air and, by burning the air-fuel mixture, generate an output of the engine.
Return-less type gasoline delivery pipes, among these delivery pipes for gasoline, do not have piping for returning excess fuel to the fuel tank. For this reason, sudden pressure reductions when the internal pressure of the gasoline delivery pipe is reduced by fuel injection from an injector to an intake pipe or a cylinder of the engine, together with pressure waves that arise due to stopping the fuel injection, generate a pressure pulsation in the inside of the gasoline delivery pipe. The pressure pulsation is propagated to the vehicle as noise, which gives an unpleasant feeling to the driver and passengers. To reduce the pressure pulsation as described above, it has been proposed to provide delivery pipes with a pressure pulsation absorbing function by configuring the wall surfaces in flat shape. In gasoline delivery pipes having this pressure pulsation absorbing function, flexible absorber faces are formed in the outer wall, such that the pressure pulsation is absorbed and reduced by bending deformation of the absorber faces under the influence of the pressure generated in association with the fuel injection, thus enabling the generation of abnormal sound due to vibration to be prevented.
Now, in a case where an inlet pipe was connected, as shown in
Patent document 1: JP H4 252859 A
If however, as described above, the position where the inlet pipe is connected to the delivery pipe main body is restricted to a portion near the end cap or the end cap, this amounts to a limitation of the attachment position of the inlet pipe, such that there is a possibility of a substantial review of the engine layout being required or, in order to achieve a desired layout, the inlet pipe has to be made longer than necessary.
Thus, the present invention is intended to solve the above problem, making it possible to improve layout characteristics through imparting a degree of freedom to the attachment position of the inlet pipe to the delivery pipe main body.
In order to solve the above problem, the present invention provides a delivery pipe for gasoline comprising a delivery pipe main body having a flat shape provided with a pair of facing wide walls and a pair of facing narrow walls of narrower width than the pair of wide walls, wherein an inlet pipe is connected to a narrow wall of the delivery pipe main body, and wherein at a connecting portion of the inlet pipe and the narrow wall, a reinforcing material is disposed in covering manner continuously from the connecting portion onto the wide walls, thereby enabling a reinforcement of the connecting portion. Furthermore, through disposing the reinforcing material in covering manner continuously onto the wide walls in this way, the reinforcing material is enabled to suppress spreading of the corner portions due to the bending of the wide walls, such that generation of high stress in the vicinity of the connection portion can be suppressed.
According to a preferred development, the inlet pipe and the reinforcing material are joined to the delivery pipe main body by brazing.
According to a preferred development, the reinforcing material is disposed in covering manner continuously from the connecting portion onto a portion of the wide walls located on both sides of the connecting portion.
Because the present invention, as described above, by covering the connecting portion of the inlet pipe and the narrow wall of the delivery pipe main body with the reinforcing material has enabled reinforcement of the connecting portion, the generation of high stress in the vicinity of the connecting portion due to fuel pressure can be suppressed, and the delivery pipe main body is hard to be damaged. Therefore, the attachment position of the inlet pipe to the delivery pipe main body is not required to be limited to the end caps or a portion close to the end caps, such that a degree of freedom can be given to the attachment position of the inlet pipe, and the layout characteristics can be improved.
To describe a first embodiment of the present invention, a delivery pipe main body 1 is formed of a steel pipe. Furthermore, the delivery pipe main body 1 has, as in
In one narrow wall 4 of the delivery pipe main body 1 formed as described above, an inlet pipe 7 is connectedly arranged. That is, closer to an end cap 6 than the center in the longitudinal direction of the one narrow wall 4, a tip portion 8 of the inlet pipe 7 is arranged by insertion inwards through the narrow wall 4 of the delivery pipe main body 1 and fixed by brazing. While in the present embodiment, as described above, the inlet pipe 7 is arranged and fixed closer to an end cap 6 than centrally in the longitudinal direction of the one narrow wall 4, in other embodiments, without limitation hereto, the inlet pipe 7 may be arranged and fixed centrally in the longitudinal direction of the one narrow wall 4.
At the connecting portion 10 between the inlet pipe 7 and the delivery pipe main body 1, a reinforcing material 11 formed of carbon steel is disposed in covering fashion. That is, the reinforcing material 11 is disposed to cover the connecting portion 10 between the narrow wall 4 and the inlet pipe 7 in substantially rectangular parallelepiped shape as shown in
Disposing the reinforcing material 11 to cover the delivery pipe main body 1 in this way, as shown in
Thus, in order to confirm that by providing the connection part 10 with the reinforcing member 11 damage in the vicinity of the reinforcing member 11 can be prevented, a comparison by simulation between the present embodiment and a comparative example wherein the reinforcing material 11 is not provided was carried out with regard to the influence of fuel pressure on the delivery pipe main body 1. To explain the dimensions of the present embodiment, the formation width of the delivery pipe main body 1 in axial direction is 275 mm (‘a’ in
Comparative example 1 to the present embodiment is formed by using a delivery pipe main body 31 and an inlet pipe 32 having the same shape and dimensions as those of the present embodiment. Except for the arrangement of the reinforcement material 11, each structural feature such as the inserted length of the inlet pipe 32 or the position where the inlet pipe 32 is connected to the delivery pipe main body 31 was made identical. As a result of the simulation, in a case where in comparative example 1 fuel pressure was made 800 kPa, the highest stress value in the vicinity of the connection portion 38 was 353 MPa, whereas when fuel pressure was made 800 kPa in the present embodiment, the highest stress value in the vicinity of the connection portion 10 was 254 MPa.
Considering the above result, at first, when fuel pressure is applied to the delivery pipe main body 1, the delivery pipe main body 1 deforms as shown in
In the case of comparative example 1, as is shown in
If on the other hand, as in the present embodiment, the reinforcement material 11 is provided at the connection portion 10 between the delivery pipe main body 1 and the inlet pipe 7, fixing the reinforcement material 11 of U-shaped cross section to the corner portions 12 formed between the wide walls 2, 3 and the narrow wall 4 where the inlet pipe 7 is connected, as shown in
Accordingly, is not required to limit the attachment position of the inlet pipe 7 to the delivery pipe main body 1 to the end caps 6 or portions near the end caps 6 where high stress is inherently hard to occur. This enables to have a degree of freedom in the attachment position of the inlet pipe 7 to the delivery pipe main body 1, thus making it possible to improve layout characteristics.
1 delivery pipe main body
2, 3 wide wall
4, 5 narrow wall
7 inlet pipe
10 connecting portion
11 reinforcing material
Number | Date | Country | Kind |
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2014-196723 | Sep 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/003751 | 7/27/2015 | WO | 00 |