CN115506932A - Common rail pipe and modularized common rail pipe system - Google Patents

Abstract

The invention relates to a common rail pipe and a modularized common rail pipe system, which relate to the field of common rail pipes and comprise a main oil duct processed at the center of a rail body, wherein a first pre-cast oil duct, a second pre-cast oil duct, a third pre-cast oil duct, a fourth pre-cast oil duct and a fifth pre-cast oil duct are sequentially arranged on the outer side of the common rail pipe along the axial direction, a plurality of fixing seats are sequentially arranged on the outer side of the common rail pipe along the axial direction, and fixing holes are formed in the centers of the fixing seats. The invention realizes the variable quantity of the fuel interfaces of the common rail pipe and the variable volume of the fuel, and improves the applicability of the common rail pipe.

Description

Common rail pipe and modularized common rail pipe system

Technical Field

The invention relates to the field of common rail pipes, in particular to a common rail pipe and a modular common rail pipe system.

Background

At present, an electronic control common rail system is adopted for an internal combustion engine, and the high-pressure common rail technology refers to a closed-loop system consisting of a high-pressure oil pump, a common rail pipe, an oil injector, a pressure sensor and an ECU (electronic control unit).

The most important of the common rail pipes is the pressure stabilizing function: in the working process of the fuel system, the oil pump continuously supplies oil, the oil injector continuously injects oil, and the accommodating cavity of the common rail pipe can reduce rail pressure fluctuation.

The common rail system is widely applied to small and medium horsepower engines, and the common rail pipe can be generally matched with the common rail system in size. When an engine with large horsepower is involved, the oil supply and the oil injector are large in quantity, so that the rail pressure fluctuation is large, a common rail pipe with a larger cavity is needed, and the common rail pipe with the length exceeding 650mm is difficult to achieve in the current market from the process perspective. Therefore, the traditional form of the common rail pipe cannot meet the requirement for a large engine.

At present, enterprises research and develop a 12-cylinder V-shaped engine, the transient variation of oil supply of an oil pump and the oil injection quantity of an oil injector is very large, and a common rail pipe with the length of less than 650mm can not meet the early-stage design target of the whole engine requirement completely, the engine has deformation matching requirements, a fuel oil system needs to be divided into high-low matching, the high matching relates to a single oil pump, and the low matching relates to a double oil pump; there will then be an extended cylinder requirement, with 12 cylinders extended to 16 cylinders. Therefore, a modular common rail pipe needs to be designed to meet all the deformation matching requirements.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, realize the variable quantity of the fuel interfaces of the common rail pipe and the variable volume of the fuel and improve the applicability of the common rail pipe.

In order to achieve the purpose, the technical scheme of the invention provides a common rail pipe which comprises a main oil duct machined in the center of a rail body, wherein a first pre-casting oil duct, a second pre-casting oil duct, a third pre-casting oil duct, a fourth pre-casting oil duct and a fifth pre-casting oil duct are sequentially arranged on the outer side of the common rail pipe along the axial direction, a plurality of fixing seats are sequentially arranged on the outer side of the common rail pipe along the axial direction, and fixing holes are formed in the centers of the fixing seats.

Preferably, the fixed seat faces to be perpendicular to the axis of the precast oil passage.

The technical scheme of the invention also provides a modular common rail system which comprises a first component, a second component, a third component, a fourth component and two high-pressure oil pipe components, wherein the first component and the second component are connected through one high-pressure oil pipe component, and the third component and the fourth component are connected through the other high-pressure oil pipe component;

the first component comprises the common rail pipe and an oil inlet joint arranged at one end of the common rail pipe;

the second component comprises the common rail pipe, a plug arranged at one end of the common rail pipe and a rail pressure sensor arranged at the other end of the common rail pipe;

the third component comprises the common rail pipe, the plug arranged at one end of the common rail pipe and the rail pressure sensor arranged at the other end of the common rail pipe;

the fourth part includes the common rail pipe and locate the common rail pipe one end the oil feed connects.

Preferably, the first pre-casting oil duct, the third pre-casting oil duct, the fourth pre-casting oil duct and the fifth pre-casting oil duct of the common rail pipe of the first component are respectively and correspondingly provided with a first oil duct opening, a third oil duct opening, a fourth oil duct opening and a fifth oil duct opening;

the first pre-casting oil duct, the second pre-casting oil duct, the third pre-casting oil duct and the fourth pre-casting oil duct of the common rail pipe of the second component are respectively and correspondingly provided with a first oil port opening, a second oil port opening, a third oil port opening and a fourth oil port opening;

the first pre-cast oil duct, the third pre-cast oil duct, the fourth pre-cast oil duct and the fifth pre-cast oil duct of the common rail pipe of the third component are respectively and correspondingly provided with a first oil port opening, a third oil port opening, a fourth oil port opening and a fifth oil port opening;

the first pre-cast oil duct, the second pre-cast oil duct, the third pre-cast oil duct and the fourth pre-cast oil duct of the common rail pipe of the fourth component are respectively and correspondingly provided with the first oil duct opening, the second oil duct opening, the third oil duct opening and the fourth oil duct opening.

Preferably, a first threaded hole capable of being connected with the oil inlet joint is formed in the end part, close to the first precast oil channel, of the common rail pipe of the first component, and the end part, far away from the first threaded hole, of the common rail pipe of the first component is closed;

the end part, close to the first precast oil channel, of the common rail pipe of the second component is provided with a first threaded hole capable of being connected with the plug, and the end part, far away from the first threaded hole, of the common rail pipe of the second component is provided with a second threaded hole capable of being connected with the rail pressure sensor;

the end part, close to the fifth pre-cast oil channel, of the common rail pipe of the third component is provided with the first threaded hole capable of being connected with the plug, and the end part, far away from the first threaded hole, of the common rail pipe of the third component is provided with the second threaded hole capable of being connected with the rail pressure sensor;

the end part, close to the fifth pre-cast oil channel, of the common rail pipe of the fourth component is provided with the first threaded hole capable of being connected with the oil inlet joint, and the end part far away from the first threaded hole is closed.

Preferably, the fifth oil port opening of the common rail pipe of the first component is connected with the second component through a high-pressure oil pipe as a fuel oil outlet; the second oil passage opening of the common rail pipe of the second component is used as a fuel inlet and is connected with the first component through the high-pressure oil pipe;

the fifth oil pipe opening of the common rail pipe of the third component is used as a fuel inlet and is connected with the fourth component through the high-pressure oil pipe; and the second oil passage opening of the common rail pipe of the fourth component is used as a fuel outlet and is connected with the third component through the high-pressure oil pipe.

Preferably, the second precast oil duct of the common rail pipe of the first component is not processed and is in a closed state, the oil inlet joint is used as a fuel inlet, and the rest oil duct openings are used as fuel outlets;

the fifth pre-cast oil passage of the common rail pipe of the fourth component is not processed and is in a closed state, the oil inlet joint is used as a fuel inlet, and the rest of the oil passage openings are used as fuel outlets.

Preferably, the fifth pre-cast oil passage of the common rail pipe of the second component is not processed and is in a closed state, the second oil passage opening is used as a fuel inlet, and the rest oil passage openings are used as fuel outlets;

the second pre-cast oil passage of the common rail pipe of the third component is not processed and is in a closed state, the fifth oil passage opening is used as a fuel inlet, and the rest oil passage openings are used as fuel outlets.

Preferably, oil passages are arranged between the main oil passage of the common rail pipe of the second component and the second threaded hole, and between the main oil passage of the common rail pipe of the third component and the second threaded hole.

Preferably, the oil passage openings of the common rail pipes of the first, second, third and fourth members are connected with the main oil gallery to form a choke.

In summary, the invention has the following beneficial technical effects:

the invention solves the problem of deformation matching by designing the common rail pipe meeting the requirement of a large-displacement V-shaped engine and by a modularized common rail pipe system.

Through adopting sectional type common rail pipe part, for big displacement engine provides the solution, avoided integral common rail pipe to forge the problem that the degree of difficulty is big, the machining degree of difficulty is big.

The whole common rail system only needs to be provided with one set of die, can flexibly solve various deformation matching problems, has modular design and simple structure, and saves the production cost.

The invention is verified by use, has normal performance and high reliability, and meets the requirements of production and use.

Drawings

FIG. 1 is a schematic diagram of the common rail and modular common rail system of the present invention;

FIG. 2 is a cross-sectional view of a first component of the present invention;

FIG. 3 is a cross-sectional view of a second component of the present invention;

FIG. 4 is a cross-sectional view of a third component of the present invention;

FIG. 5 is a cross-sectional view of a fourth component of the present invention;

FIG. 6 is a schematic structural view of a high pressure oil tube component of the present invention;

FIG. 7 is a cross-sectional view of a fifth common rail pipe of the present invention;

FIG. 8 is a top view of a fifth common rail pipe of the present invention;

FIG. 9 is a cross-sectional view of a first common rail of the present invention;

FIG. 10 is a cross-sectional view of a second common rail tube according to the present invention;

FIG. 11 is a cross-sectional view of a third common rail tube according to the present invention;

fig. 12 is a sectional view of a fourth common rail pipe in the present invention.

Reference numerals are as follows:

1. a high pressure oil pipe component; 101. a high pressure oil pipe; 102. a nut; 2. a first member; 201. a first common rail pipe; 3. a second component; 301. a second common rail pipe; 4. a third component; 401. a third common rail pipe; 5. a fourth component; 501. a fourth common rail pipe; 6. a fifth common rail pipe;

701. an oil inlet joint; 702. a plug; 703. a rail pressure sensor;

801. a main oil gallery; 802. a first threaded hole; 803. a second threaded hole; 804. a fixed seat; 805. a fixing hole; 806. a choke; 807. an oil duct;

901. a first pre-cast oil passage; 902. a second pre-cast oil passage; 903. a third precast oil duct; 904. a fourth pre-cast oil passage; 905. a fifth pre-cast oil passage; 906. a first oil port opening; 907. a second oil port opening; 908. a third oil port opening; 909. a fourth oil port; 910. and a fifth oil port.

Detailed Description

The present invention is described in further detail below with reference to fig. 1 to 12.

Example 1:

the embodiment of the invention discloses a common rail pipe which is a fifth common rail pipe 6, wherein the fifth common rail pipe 6 comprises a main oil passage 801 processed in the center of a rail body, the outer surface of the fifth common rail pipe 6 is sequentially provided with a first precast oil passage 901, a second precast oil passage 902, a third precast oil passage 903, a fourth precast oil passage 904 and a fifth precast oil passage 905 along the axial direction, one side of the fifth common rail pipe is provided with three fixed seats 804, the fixed seats 804 face to be perpendicular to the axial line of the precast oil passages, and the center of each fixed seat 804 is provided with a fixed hole 805.

Example 2:

the embodiment of the invention discloses a modularized common rail pipe system which comprises a first component 2, a second component 3, a third component 4, a fourth component 5 and two high-pressure oil pipe components 1. The first component 2 and the second component 3 are connected through one high-pressure oil pipe component 1 and are arranged on the left side of the V-shaped engine; the third member 4 and the fourth member 5 are connected by another high-pressure oil pipe member 1, and are mounted on the right side of the V-type engine.

The first component 2 comprises a first common rail pipe 201 and an oil inlet joint 701 arranged at one end of the first common rail pipe 201; the second component 3 comprises a second common rail pipe 301, a plug 702 arranged at one end of the second common rail pipe 301, and a rail pressure sensor 703 arranged at the other end of the second common rail pipe 301; the third component 4 comprises a third common rail pipe 401, a plug 702 arranged at one end of the third common rail pipe 401, and a rail pressure sensor 703 arranged at the other end of the third common rail pipe 401; the fourth component 5 comprises a fourth common rail pipe 501 and an oil inlet joint 701 arranged at one end of the fourth common rail pipe 501; the high-pressure oil pipe member 1 includes a high-pressure oil pipe 101 in an inverted U shape, and nuts 102 provided at both ends of the high-pressure oil pipe 101.

Wherein the first common rail pipe 201, the second common rail pipe 301, the third common rail pipe 401 and the fourth common rail pipe 501 are all processed from the fifth common rail pipe 6.

On the basis of the structure of the fifth common rail pipe 6, a first threaded hole 802 is machined in an end opening close to the first precast oil duct 901 of the first common rail pipe 201, the first threaded hole 802 can be connected with an oil inlet connector 701, high-pressure sealing is achieved, and one end, far away from the first threaded hole 802, of the first common rail pipe 201 is closed.

In addition, a first oil port opening 906, a third oil port opening 908, a fourth oil port opening 909 and a fifth oil port opening 910 are correspondingly processed in the first precast oil passage 901, the third precast oil passage 903, the fourth precast oil passage 904 and the fifth precast oil passage 905 of the first common rail pipe 201 respectively, and are connected with the main oil passage 801 to form a throttle opening 806; the second pre-cast oil passage 902 is not machined and is in a closed state; the fifth port 910 is connected as a fuel outlet to the second member 3 through the high-pressure fuel pipe 101.

On the basis of the structure of the fifth common rail pipe 6, the second common rail pipe 301 is provided with a first threaded hole 802 at an opening at the end part close to the first precast oil channel 901, the first threaded hole 802 can be connected with a plug 702 and realizes high-pressure sealing, a second threaded hole 803 is processed at the other end of the fifth common rail pipe 6 and is connected with a rail pressure sensor 703 through the second threaded hole 803 and realizes high-pressure sealing, and an oil channel 807 is processed between the main oil channel 801 and the second threaded hole 803 and is used for connection.

In addition, a first oil port opening 906, a second oil port opening 907, a third oil port opening 908 and a fourth oil port opening 909 are correspondingly machined in the first precast oil passage 901, the second precast oil passage 902, the third precast oil passage 903 and the fourth precast oil passage 904 of the second common rail pipe 301 respectively, and are connected with the main oil passage 801 to form a throttle opening 806; the fifth precast oil duct 905 is not machined and is in a closed state; the second port 907 is connected as a fuel inlet to the first member 2 through the high-pressure fuel pipe 101.

On the basis of the structure of the fifth common rail pipe 6, the third common rail pipe 401 is provided with a first threaded hole 802 at the opening of the end part close to the fifth precast oil channel 905, the first threaded hole 802 can be connected with the plug 702 and realizes high-pressure sealing, a second threaded hole 803 is machined at the opening of the other end of the fifth common rail pipe 6 and is connected with the rail pressure sensor 703 through the second threaded hole 803 and realizes high-pressure sealing, and an oil channel 807 is machined between the main oil channel 801 and the second threaded hole 803 and used for connection.

In addition, a first oil port opening 906, a third oil port opening 908, a fourth oil port opening 909 and a fifth oil port opening 910 are correspondingly processed in the first precast oil passage 901, the third precast oil passage 903, the fourth precast oil passage 904 and the fifth precast oil passage 905 of the third common rail pipe 401 respectively, and are connected with the main oil passage 801 to form a throttle opening 806; the second pre-cast oil passage 902 is not machined and is in a closed state; the fifth port 910 is connected to the fourth member 5 as a fuel inlet.

On the basis of the structure of the fifth common rail pipe 6, a first threaded hole 802 is machined in an end opening close to the fifth precast oil passage 905 of the fourth common rail pipe 501, the first threaded hole 802 can be connected with the oil inlet connector 701, high-pressure sealing is achieved, and the end, far away from the first threaded hole 802, of the fourth common rail pipe 501 is closed.

In addition, a first oil port opening 906, a second oil port opening 907, a third oil port opening 908 and a fourth oil port opening 909 are correspondingly machined in a first pre-casting oil passage 901, a second pre-casting oil passage 902, a third pre-casting oil passage 903 and a fourth pre-casting oil passage 904 of the fourth common rail pipe 501 respectively, and a throttling opening 806 is connected with the main oil passage 801; the fifth pre-cast oil passage 905 is not machined, and the second oil passage port 907 is connected with the third common rail pipe 401 as a fuel outlet.

The first component 2 and the second component 3 are respectively connected with the fifth oil port 910 and the second oil port 907 through the high-pressure oil pipe component 1, so that fuel oil delivery between rail pipes is realized; the third component 4 and the fourth component 5 are respectively connected with the second oil port 907 and the fifth oil port 910 through the high-pressure oil pipe component 1, so that fuel oil delivery between the rail pipes is realized.

Example 3:

this embodiment is two oil feed system expansion, and its most structure is the same with embodiment 2, the difference lies in:

in the first component 2, the oil inlet joint 701 is a fuel inlet, and the rest oil channel openings are fuel outlets, wherein the second precast oil channel 902 is not processed. If a double-oil-inlet system is developed, double oil inlet can be realized by processing the second precast oil duct 902 and through an oil duct port formed by processing the oil inlet joint 701 and the second precast oil duct 902.

In the fourth part 5, the oil inlet joint 701 is a fuel inlet, and the rest oil channel openings are fuel outlets, wherein the fifth precast oil channel 905 is not processed. If a double-oil-inlet system is developed, double oil inlet can be realized by processing the fifth precast oil passage 905 and an oil passage opening formed by processing the oil inlet joint 701 and the fifth precast oil passage 905.

Example 4:

the present embodiment is an extension of a multi-cylinder system, and most of the structures of the present embodiment are the same as those of embodiment 3, except that:

in the second component 3, the third oil passage opening 908 is a fuel inlet, and the rest oil passage openings are fuel outlets, wherein the fifth pre-cast oil passage 905 is not processed. If the number of cylinders is expanded, an 18-cylinder V-shaped engine is developed, and a fifth precast oil channel 905 is machined to serve as an oil outlet connected to the next common rail pipe part.

In the third block 4, the fourth oil passage opening 909 is a fuel inlet, and the remaining oil passage openings are fuel outlets, wherein the second pre-cast oil passage 902 is not machined. If the number of cylinders is expanded, an 18-cylinder V-type engine is developed as an oil outlet connected to the next common rail pipe section by machining the second pre-cast oil passage 902.

The above are all preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present invention.

Claims (10)

1. A common rail pipe, characterized by: the novel common rail pipe comprises a main oil duct (801) machined in the center of a rail body, wherein a first pre-casting oil duct (901), a second pre-casting oil duct (902), a third pre-casting oil duct (903), a fourth pre-casting oil duct (904) and a fifth pre-casting oil duct (905) are sequentially arranged on the outer side of the common rail pipe along the axial direction, a plurality of fixing seats (804) are sequentially arranged on the outer side of the common rail pipe along the axial direction, and a fixing hole (805) is formed in the center of each fixing seat (804).

2. A common rail pipe as defined in claim 1, wherein: the fixed seat (804) faces to be perpendicular to the axis of the precast oil duct.

3. A modular common rail system employing the common rail of claim 1 or 2, wherein: the high-pressure oil pipe comprises a first component (2), a second component (3), a third component (4), a fourth component (5) and two high-pressure oil pipe components (1), wherein the first component (2) and the second component (3) are connected through one high-pressure oil pipe component (1), and the third component (4) and the fourth component (5) are connected through the other high-pressure oil pipe component (1);

the first component (2) comprises the common rail pipe and an oil inlet joint (701) arranged at one end of the common rail pipe;

the second component (3) comprises the common rail pipe, a plug (702) arranged at one end of the common rail pipe and a rail pressure sensor (703) arranged at the other end of the common rail pipe;

the third component (4) comprises the common rail pipe, the plug (702) arranged at one end of the common rail pipe and the rail pressure sensor (703) arranged at the other end of the common rail pipe;

the fourth component (5) comprises the common rail pipe and the oil inlet joint (701) arranged at one end of the common rail pipe.

4. The modular common rail system of claim 3, wherein: the first pre-casting oil channel (901), the third pre-casting oil channel (903), the fourth pre-casting oil channel (904) and the fifth pre-casting oil channel (905) of the common rail pipe of the first component (2) are respectively and correspondingly provided with a first oil port opening (906), a third oil port opening (908), a fourth oil port opening (909) and a fifth oil port opening (910);

the first pre-casting oil channel (901), the second pre-casting oil channel (902), the third pre-casting oil channel (903) and the fourth pre-casting oil channel (904) of the common rail pipe of the second component (3) are respectively and correspondingly provided with a first oil port opening (906), a second oil port opening (907), a third oil port opening (908) and a fourth oil port opening (909);

the first pre-casting oil channel (901), the third pre-casting oil channel (903), the fourth pre-casting oil channel (904) and the fifth pre-casting oil channel (905) of the common rail pipe of the third component (4) are respectively and correspondingly provided with a first oil port opening (906), a third oil port opening (908), a fourth oil port opening (909) and a fifth oil port opening (910);

the first pre-casting oil passage (901), the second pre-casting oil passage (902), the third pre-casting oil passage (903) and the fourth pre-casting oil passage (904) of the common rail pipe of the fourth component (5) are respectively and correspondingly provided with a first oil passage opening (906), a second oil passage opening (907), a third oil passage opening (908) and a fourth oil passage opening (909).

5. The modular common rail system of claim 4, wherein: the end part, close to the first precast oil channel (901), of the common rail pipe of the first component (2) is provided with a first threaded hole (802) capable of being connected with the oil inlet joint (701), and the end part far away from the first threaded hole (802) is closed;

the end part, close to the first precast oil channel (901), of the common rail pipe of the second component (3) is provided with a first threaded hole (802) capable of being connected with the plug (702), and the end part, far away from the first threaded hole (802), of the common rail pipe is provided with a second threaded hole (803) capable of being connected with the rail pressure sensor (703);

the end part, close to the fifth pre-cast oil channel (905), of the common rail pipe of the third component (4) is provided with a first threaded hole (802) capable of being connected with the plug (702), and the end part, far away from the first threaded hole (802), is provided with a second threaded hole (803) capable of being connected with the rail pressure sensor (703);

the common rail pipe of fourth part (5) is close to the tip of fifth precast oil duct (905) is equipped with the joinable oil feed connects (701) first screw hole (802), keeps away from the tip of first screw hole (802) is sealed.

6. The modular common rail system of claim 5, wherein: the fifth oil port opening (910) of the common rail pipe of the first component (2) is used as a fuel outlet and is connected with the second component (3) through a high-pressure oil pipe (101); the second oil port (907) of the common rail of the second component (3) is used as a fuel inlet and is connected with the first component (2) through the high-pressure oil pipe (101);

the fifth oil port opening (910) of the common rail pipe of the third component (4) is used as a fuel inlet and is connected with the fourth component (5) through the high-pressure oil pipe (101); the second port opening (907) of the common rail of the fourth component (5) is connected as a fuel outlet to the third component (4) via the high-pressure fuel line (101).

7. The modular common rail system of claim 5, wherein: the second precast oil channel (902) of the common rail pipe of the first component (2) is not processed and is in a closed state, the oil inlet joint (701) is used as a fuel inlet, and the rest oil channel openings are used as fuel outlets; the fifth precast oil channel (905) of the common rail pipe of the fourth component (5) is not processed to be in a closed state, the oil inlet joint (701) is used as a fuel inlet, and the oil channel opening is used as a fuel outlet.

8. The modular common rail system of claim 7, wherein: the fifth pre-cast oil channel (905) of the common rail pipe of the second component (3) is not processed and is in a closed state, the second oil channel opening (907) is used as a fuel inlet, and the rest oil channel openings are used as fuel outlets; the second precast oil channel (902) of the common rail pipe of the third component (4) is not processed to be in a closed state, the fifth oil channel opening (910) is used as a fuel inlet, and the rest oil channel openings are used as fuel outlets.

9. The modular common rail system of claim 5, wherein: oil passages are arranged between the main oil passage (801) and the second threaded hole (803) of the common rail pipe of the second component (3) and between the main oil passage (801) and the second threaded hole (803) of the common rail pipe of the third component (4).

10. The modular common rail system of claim 5, wherein: the oil channel openings of the common rail pipes of the first component (2), the second component (3), the third component (4) and the fourth component (5) are connected with the main oil channel (801) to form a throttling opening (806).

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