GB2593427A - Kit for replacing a jet filter arranged in an engine fuel pump - Google Patents

Kit for replacing a jet filter arranged in an engine fuel pump Download PDF

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Publication number
GB2593427A
GB2593427A GB1918482.9A GB201918482A GB2593427A GB 2593427 A GB2593427 A GB 2593427A GB 201918482 A GB201918482 A GB 201918482A GB 2593427 A GB2593427 A GB 2593427A
Authority
GB
United Kingdom
Prior art keywords
jet filter
cavity
centering guide
extractor
fuel pump
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
GB1918482.9A
Other versions
GB2593427B (en
GB201918482D0 (en
Inventor
Breton Ludovic
Hoarau Yann
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Delphi Technologies IP Ltd
Original Assignee
Delphi Technologies IP Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Delphi Technologies IP Ltd filed Critical Delphi Technologies IP Ltd
Priority to GB1918482.9A priority Critical patent/GB2593427B/en
Publication of GB201918482D0 publication Critical patent/GB201918482D0/en
Priority to PCT/EP2020/086302 priority patent/WO2021122655A1/en
Priority to EP20838386.9A priority patent/EP4077904A1/en
Publication of GB2593427A publication Critical patent/GB2593427A/en
Application granted granted Critical
Publication of GB2593427B publication Critical patent/GB2593427B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M37/00Apparatus or systems for feeding liquid fuel from storage containers to carburettors or fuel-injection apparatus; Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines
    • F02M37/22Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines, e.g. arrangements in the feeding system
    • F02M37/32Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines, e.g. arrangements in the feeding system characterised by filters or filter arrangements
    • F02M37/42Installation or removal of filters
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25BTOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
    • B25B27/00Hand tools, specially adapted for fitting together or separating parts or objects whether or not involving some deformation, not otherwise provided for
    • B25B27/0035Hand tools, specially adapted for fitting together or separating parts or objects whether or not involving some deformation, not otherwise provided for for motor-vehicles
    • B25B27/0042Tools for removing or replacing filters or for draining oil; Tools for setting or loosening closure means for radiators, batteries, or the like
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M37/00Apparatus or systems for feeding liquid fuel from storage containers to carburettors or fuel-injection apparatus; Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines
    • F02M37/02Feeding by means of suction apparatus, e.g. by air flow through carburettors
    • F02M37/025Feeding by means of a liquid fuel-driven jet pump
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M37/00Apparatus or systems for feeding liquid fuel from storage containers to carburettors or fuel-injection apparatus; Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines
    • F02M37/22Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines, e.g. arrangements in the feeding system
    • F02M37/32Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines, e.g. arrangements in the feeding system characterised by filters or filter arrangements
    • F02M37/44Filters structurally associated with pumps
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M65/00Testing fuel-injection apparatus, e.g. testing injection timing ; Cleaning of fuel-injection apparatus
    • F02M65/007Cleaning

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • General Engineering & Computer Science (AREA)
  • Filtration Of Liquid (AREA)

Abstract

A kit for replacing a JET filter 3 in an engine fuel pump 1 comprises either / and an extractor 10 for extracting said the JET filter, or a pushing rod for fitting a JET filter, or a centering guide 32 shaped to cooperate with the extractor or the pushing rod. The extractor may comprise a handle (11, fig 4) and a bar (12, fig 4), wherein a first end (16, fig 5) of the bar comprises a threaded surface to engage the JET filter. The bar may be shaped to cooperate with the centering guide and the extractor provided with a nut (13, fig 4) surrounding the bar. The pushing rod may comprise a handle (21, fig 6) and a bar (22, fig 6) wherein a first end (25, fig 6) of the bar is shaped to push the JET filter to a final position in the engine fuel pump. The centering guide may comprise a main body (33, fig 8) including a cavity (41, fig 8) shaped such that the JET filter can be extracted by the extractor or can be pushed in by the pushing rod. Methods of extracting and fitting a JET filter are also claimed.

Description

MT FOR REPLACING A JET FILTER ARRANGED IN AN ENGINE
FUEL PUMP
TECHNICAL FIELD
The present invention relates to a kit for replacing a JET filter arranged in an engine fuel pump, as well as to a method for extracting and a method for fitting the JET filter in an engine fuel pump.
BACKGROUND OF THE INVENTION
It is known that in a fuel pump for a motor vehicle engine, a fuel pump actuator is provided in order to regulate the quantity of fuel flowing from the fuel pump to fuel injectors.
Fuel flowing through the fuel pump actuator brings impurities coming from different elements of the motor vehicle engine that are crossed by the fuel before arriving at the fuel pump actuator. These elements are for example the fuel tank, the fuel heater or other parts of the fuel pump. Impurities can also appear because of a low quality fuel.
These impurities are released from the actuator when fuel is conveyed from the actuator to the injection system of the motor vehicle engine. In order to prevent the impurities from entering the injection system, a filter, called JET filter, is provided in the fuel pump in a position close to the actuator. Thus, impurities are accumulated in the JET filter.
The accumulation of these impurities impacts the functioning of the JET filter, which must be replaced by a new one when the quantity of accumulated impurities is important.
Nevertheless, in some fuel pump configurations, the JET filter is placed in a position that is hardly accessible by using conventional tools. So, its removal from the ffiel pump is difficult. In addition, by using conventional tools, a risk of introducing metallic particles inside the injection system exits.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to resolve the above-mentioned problem in providing a kit for replacing a JET filter arranged in an engine fuel pump, the kit comprising at least one between an extractor for extracting said JET filter, or a pushing rod for fitting a JET filter in the engine fuel pump, or a centering guide shaped to cooperate with the extractor or the pushing rod Thanks to the claimed kit, the JET filter is reached by the extractor when the extractor and the centering guide cooperate. Hence, the JET filter can be removed from the fuel pump.
The invention further extends to an extractor of the kit as previously described, the extractor comprising a handle and a bar, wherein a first end of said bar comprises a threaded surface to engage the JET filter.
In an embodiment of the extractor, the bar is shaped to cooperate with the centering guide, the extractor being provided with a nut surrounding a portion of said bar.
The invention further extends to a pushing rod of the kit as previously described, the pushing rod comprising a handle and a bar, wherein a first end of said bar is shaped to push the JET filter to a final position in the engine fuel pump In an embodiment of the pushing rod the bar is shaped to cooperate with the centering guide.
The invention further extends to a centering guide of the kit as previously described comprising a main body including a cavity, wherein the cavity is shaped such that the JET filter can be extracted from the engine fuel pump by the extractor as previously described or can be pushed to the engine fuel pump by the pushing rod as previously described.
In an embodiment of the centering guide, the main body comprises a cylindrically shaped portion.
In an embodiment of the centering guide, the main body comprises a trapezoidal prism shaped portion.
In an embodiment of the centering guide, the trapezoidal prism shaped portion comprises an entry orifice of the cavity of the main body, and the cylindrically shaped portion comprises an exit orifice of said cavity.
In an embodiment of the centering guide, the entry orifice is arranged on a face of the trapezoidal prism shaped portion, the face being substantially perpendicular to a longitudinal axis of the cavity.
In an embodiment of the centering guide, the longitudinal axis of the cavity is tilted in relation to a longitudinal axis of the cylindrically shaped portion.
The invention further extends to a method for extracting the JET filter arranged in the engine fuel pump by means of the extractor as previously described and the centering guide as previously described, the method comprising the steps of: a) positioning the centering guide in the engine fuel pump; b) inserting the extractor in the cavity of the centering guide; c) making a hole on the JET filter by hitting the handle of the extractor in a direction substantially parallel to the longitudinal axis of the cavity; d) screwing the first end of the bar of the extractor to the JET filter; and e) extracting the extractor screwed to the JET filter from the cavity of the centering guide. Alternatively, the invention extends to a method for fitting the JET filter in the engine fuel pump by means of the pushing rod as previously described and the centering guide as previously described, the method comprising the steps of a) positioning the centering guide in the engine fuel pump; b) sliding the JET filter inside the cavity of the centering guide by means of the pushing rod; c) installing the JET filter in the fuel pump by hitting the handle of the pushing rod in the direction substantially parallel to the longitudinal axis of the cavity; and d) extracting the pushing rod from the cavity of the centering guide.
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention is now described by way of example with reference to the accompanying drawings in which: Figure 1 shows a detail of an engine fuel pump Figure 2 shows a schematic longitudinal section of an assembly comprising a JET filter extractor and the JET filter centering guide as per the present invention.
Figure 3 shows a schematic longitudinal section of an assembly comprising a JET filter pushing rod as per the present invention and the JET filter centering guide of figure 2.
Figure 4 shows a schematic frontal view of the JET filter extractor of figure 2.
Figure 5 shows a schematic longitudinal section of the JET filter extractor of figure 2 Figure 6 shows a schematic frontal view of the JET filler pushing rod of figure 3 Figure 7 shows a detail of the JET filter pushing rod of figure 4 Figure 8 shows a schematic longitudinal section of the JET filter centering guide of figures 2 and 3.
Figure 9 shows a schematic transversal view of the JET filter centering guide of figures 2 and 3 from a first angle.
Figure 10 shows a schematic transversal view of the JET filter centering guide of figures 2 and 3 from a second angle substantially opposite to the first angle.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
As shown in figure 1, an engine fuel pump 1 comprises a cavity 2, and a JET filter 3 placed on a lateral wall of the cavity 2. The cavity 2 has advantageously a substantially cylindrical shape extending along an axial direction A. The axial direction A corresponds to longitudinal axis of the cavity (2).
The cavity 2 is in particular shaped to install therein a fuel pump actuator. The fuel pump actuator is further screwed to a first hole 4 and to a second hole 5 arranged on a face 6 of the engine fuel pump 1, the face 6 being substantially perpendicular to the axial direction A of the cavity 2. The first hole 4 and the second hole 5 are positioned next to the cavity 2, on diagonally opposite positions between them.
The JET filter 3 advantageously has a substantially cylindrical shape. A base of the JET filter 3 comprises a grid allowing retaining impurities A lateral wall of the JET filter 3 comprises a threaded surface.
The present invention relates to a JET filter extractor 10 and a centering guide 32 shaped to allow the extraction of the JET filter 3 from the fuel pump 1 when the extractor 10 and the centering guide 32 are used in combination. The present invention further relates to a JET filter pushing rod 20 shaped to allow the fitting of the JET filter 3 in the fuel pump 1 when used in combination with the centering guide 32.
Figure 2 shows a JET filter extraction assembly used in order to apply a method for extracting the JET filter 3 from the fuel pump 1. The JET filter extraction assembly includes the extractor 10 and the centering guide 32. The centering guide 32 is partially positioned in the cavity 2 of the fuel pump 1, while the extractor 10 goes through the centering guide 32.
Figure 3 shows a JET filter insertion assembly used in order to apply a method for fitting the JET filter 3 in the fuel pump 1. The JET filter insertion assembly includes the pushing rod 20 and the centering guide 32. As in the JET filter extraction assembly, the centering guide 32 is partially positioned in the cavity 2 of the fuel pump 1, while the pushing rod 20 goes through the centering guide 32.
The method for extracting the JET filter 3 and the method for fitting the JET filter 3 will be later described.
Now, the extractor 10 will be described. The extractor 10 is shaped to engage the JET filter 3, so that the JET filter 3 can be extracted from the fuel pump 1. The extractor 10 comprises a handle 11, a bar 12 and a nut 13. The handle 11 and the bar 12 extend along an axial direction B of the extractor 10. A length Li of the extractor 10 is preferably comprised between 80 mm and 90 mm, preferably between 83 mm and 87 mm.
As shown in figure 1, the handle 11 comprises a rough portion 14 placed between two substantially smooth portions 15. The handle 11 is made of a metallic material, preferably of unalloyed steel. In particular, the handle 11 is made of a C35 unalloyed steel. Advantageously the handle 11 has a cylindrical shape. A diameter dl of the handle 11 is comprised in a range between 14 mm and 16 mm, preferably between 14.8 mm and 15.2 mm.
The bar 12 comprises a first end 16, a second end 17 and a central part 18, the central part 18 being positioned between the first and the second ends 16, 17. The first end 16 comprises a threaded surface. On the contrary, a surface of the second end 17 and a surface of the central part 18 are substantially smooth.
Advantageously, the second end 17 and the central part 18 have a substantially circular section, a diameter d3 of the central part 18 being larger than a diameter d2 of the second end 17. The diameter d3 is comprised in a range from 5 mm to 6 mm, preferably from 5.3 to 5.8 mm.
The bar 12 is made of a metallic material, preferably of unalloyed steel.
In particular, the bar 12 is made of C45 unalloyed steel.
The handle 11 and the bar 12 are firmly attached between them. In particular, as shown in figure 5, the second end 17 of the bar 12 is inserted inside a cavity 19 of the handle 11, the cavity 19 extending along the axial direction B of the extractor 10.
Advantageously, a screw connection is established between the handle 11 and the second end 17 of the bar 12. Alternatively, the connection between the handle 11 and the second end 17 of the bar 12 is established by adhesive means. The adhesive means are, for example, a layer of glue between the surface of the second end 17 and a surface of the cavity 19. The attachment can also be established by using both the screw connection and the adhesive means.
Preferably, the cavity 19 has a circular section having a diameter substantially equal to the diameter d2 of the second end 17.
The nut 13 is coupled to the central part 18 of the bar 12. In particular, the nut surrounds a portion of the central part 18, said portion being close to the handle 11. Preferably, the nut 13 comprises an external surface and an internal surface. The external surface is substantially hexagonal, while the internal surface is substantially circular.
The internal surface of the nut 13 is in contact with the surface of the central part 18, a diameter of the internal surface of the nut 13 being substantially equal to a diameter of the central part 18. Preferably, the nut 13 is a MS type nut.
A length L2 of the first end 16 of the bar is comprised in a range between 14 mm and 17 mm, preferably between 15 mm and 16 mm.
The threaded surface of the first end 16 of the bar 12 is shaped to cooperate with the JET filter. In particular, said threaded surface is adapted to cooperate with the threaded surface of the lateral wall of the JET filter. Hence, the JET filter can be hooked in the bar 12 by screwing the bar 14 around the B-axis.
Figure 6 shows the JET filter pushing rod 20. The pushing rod 20 is used to push the JET filter 3 inside the cavity of the centering guide 32, so that the JET filter 3 can be fitted in the fuel pump I. The pushing rod 20 comprises a handle 21 and a bar 22 extending along an axial direction C of the pushing rod 20.
Preferably, the handle 21 and the bar 22 constitute a single piece having a length L3 comprised in a range from 55 mm to 65 mm, preferably from 58 mm to 62 mm.
The pushing rod 20 is made of a metallic material, preferably of unalloyed steel. In particular, the handle 21 and the bar 22 are made of a C35 unalloyed steel.
The handle 21 comprises a rough portion 23 placed between two substantially smooth portions 24. Advantageously the handle 21 has a cylindrical shape. A diameter d4 of the handle 21 is comprised in a range between 9 mm and H mm, preferably between 9.8 mm and 10.2 mm.
The bar 22 comprises a first end 25 and a main part 26, the main part 26 being positioned between the first end 25 and the handle 21. In particular, a length L4 of the main part 26 is comprised between 40 mm and 45 mm, preferably between 42 mm and 43 mm. A length L5 of the first end 25 is comprised between 4 mm and 5 mm, preferably between 4.3 mm and 4.8 mm.
As detailed in figure 4, the first end 25 comprises a first portion 27 and a second portion 28. The first portion 27 extends between the main part 25 and the second portion 28, over a length L6 comprised in a range from 2.5 mm to 3.5 mm, preferably from 2.8 mm to 3.2 mm. A length L7 of the second portion 28 is comprised in a range from 1 mm to 2 mm, preferably from 1.3 mm to 1.8 mm.
A surface of the first end 25 and a surface of the main part 26 are substantially smooth.
Advantageously, the first end 25 and the main part 26 have a substantially circular section. A diameter d5 of the main part is in particular comprised between 5 mm and 5.5 mm, preferably between 5.3 mm and 5.4 mm.
A diameter d6 of the first portion 27 is larger than a diameter d7 of the second portion 28. In particular, the diameter d5 of the first portion 27 is comprised in a range from 3.7 mm to 4.3 mm, preferably from 3.9 mm to 4.1 mm.
The diameter d7 of the second portion 28 is in particular comprised in a range from 3.4 mm to 3.8 mm, preferably between 3.5 mm to 3.7 mm.
An extremity of the first end 25 comprises a hollow 29 adapted to accommodate the JET filter. The hollow 29 extends along a fraction of the first portion 27 and along the integrality of the second portion 28. The hollow 29 includes a first part 30 and a second part 31. Advantageously, the first part 30 has a substantially conical shape, while the second part 31 has a substantially cylindrical shape. A length L8 of the second part 31 is comprised in a range from 1 mm to 1.5 mm, preferably from 1.2 mm to 1.3 mm. A diameter d7 of the second 10 part 31 is comprised in a range from 2.4 mm to 3 mm, preferably between 2.6 mm to 2.8 mm.
Figure 8 shows the centering guide 32. The centering guide 32 is shaped to guide the access of the extractor 10 to the JET filter 3 installed in the fuel pump 1, as well as to guide the extraction of the JET filter 3 from the fuel pump 1 by means of the extractor 10. The centering guide 32 is further shaped to guide the installation of the JET filter in the fuel pump 1 by means of the pushing rod 20. The centering guide 32 is made of a metallic material, preferably of unalloyed steel. In particular, the centering guide 32 is made of C35 unalloyed steel.
The centering guide comprises a main body 33 including a substantially cylindrically shaped portion 34 juxtaposed to a substantially trapezoidal prism shaped portion 35.
The cylindrically shaped portion 34 is shaped to be inserted in the cavity 2 of the fuel pump 1 when the actuator is not installed therein. In particular, the cylindrically shaped portion 34 extends along an axial direction D over a length L9 comprised in a range from 16 mm to 17 mm, preferably from 16.3 mm to 16.8 mm. A diameter d8 of the cylindrically shaped portion 34 is comprised in a range from 21.5 mm to 22.5 mm, preferably from 21.7 mm to 22.3 mm The trapezoidal prism shaped portion 35 comprises a front face 36 opposite to a rear face 37. The front face 36 and the rear face 37 are substantially perpendicular to the axial direction D. In particular, when the cylindrically shaped portion 34 is completely inserted in the cavity 2, the rear face 37 contacts the face 6 of the fuel pump.
The trapezoidal prism shaped portion 35 further comprises an upper face 38 and a lower face 39. The upper face 38 is substantially parallel to the axial direction D, while the lower face 39 is inclined in relation to the axial direction D. In particular, the lower face 39 forms an angle with the axial direction D comprised in a range from 30° to 35°, preferably from 310 to 32°.
The trapezoidal prism shaped portion 35 comprises a hole 40 extending from the front face 36 to the rear face 37 of the trapezoidal prism shaped portion 35. A length LIO of the hole 40 corresponds to a distance between the front face 36 and the rear face 37. In particular, the length L10 of the hole 40 is comprised between 14 mm and 16 mm, preferably between 14.5 mm and 15.5 mm The hole 40 allows the centering guide 32 to be screwed to the fuel pump 1. In particular, the hole 40 is positioned in the trapezoidal prism shaped portion 35 such that when the cylindrically shaped portion 34 is inserted in the cavity 2, the hole 40 lies in front of the first hole 4 arranged in the fuel pump L Thus, a screw can be arranged between the hole 40 and the first hole 4 in order to fix the centering guide 32 to the fuel pump 1.
The main body 33 further comprises a cavity 41 extending along the cylindrically shaped portion 34 and the trapezoidal prism shaped portion 35. In particular, the cavity 41 extends along an axial direction E, the axial direction being perpendicular to the lower face 39. The axial direction E corresponds to a longitudinal axis of the cavity. Advantageously the cavity 41 has a circular section.
The cavity 41 comprises a first portion 42 and a second portion 43, a diameter d9 of the first portion 42 being larger than a diameter d10 of the second portion 43. In particular, the diameter d9 of the first portion 42 is comprised in a range from 5.7 mm to 5.9 mm, preferably from 5.75 mm to 5.85 mm. The diameter d10 of the second portion 43 is comprised in a range from 5.5 mm to 5.7 mm, preferably between 5.55 mm and 5.65 mm.
The cavity 41 is shaped such that the bar 12 of the extractor 10 or the bar 22 of the pushing rod 20 can slide inside said cavity 41. Thus, the diameters d9 and d10 are necessarily larger than the diameter d3 of the bar 12 and larger than the diameter d5 of the bar 22. In particular, the diameter d10 of the second portion 43 is slightly larger than the diameter d3, so that the central part 18 of the bar 12 remains in contact with a lateral wall of the second portion 43 when the extractor 10 is inserted in the cavity 4L As shown in figure 7, an entry orifice 44 is arranged on the lower face 39 of the trapezoidal prism shaped portion 35. The entry orifice 44 connects with the cavity 41. Advantageously, a diameter of the entry orifice 44 is equal to the diameter d9 of the first portion 42 of the cavity 41.
As shown in figure 8 an exit orifice 45 is arranged on the upper face 38 of the trapezoidal prism shaped portion 35. The exit orifice 45 connects with the cavity 41. Advantageously, a diameter of the exit orifice 45 is equal to the diameter d10 of the second portion 43 of the cavity 4L The cavity 41 is further shaped such that when the nut 13 surrounding the bar 12 contacts the lower face 39 of the centering guide 32, the first end 16 of the bar 12 projects from the cavity 41 through the exit orifice 45. Likewise, the cavity 41 is shaped such that when the handle 21 of the pushing rod 20 contacts the lower face 39 of the centering guide 32, the first end 25 of the bar 22 projects from the cavity 41 through the exit orifice 45. Thus, the cavity 41 extends along the axial direction E over a length L 1 I comprised between 30 mm and 40 mm, preferably between 33 mm and 38 mm. Advantageously, a length L12 of the first portion 42 of the cavity is comprised in a range from 4 mm to 6 mm, preferably from 4.5 mm to 5.5 mm.
A kit for replacing the JET filter 3 comprises at least one of the extractor 10, the pushing rod 20 or the centering guide 32.
Now, the method of extracting the JET filter from the fuel pump 1 by means of the extraction assembly of figure 2 is going to be described.
In particular, the method for extracting the JET filter 3 comprises a first step of positioning the centering guide 32 in the engine fuel pump 1. The centering guide 32 is positioned in the fuel pump 1 by inserting the cylindrically shaped portion 34 inside the cavity 2 such that the rear face 37 of the trapezoidal prism shaped portion 35 contacts the face 6 of the fuel pump 1, and the hole 40 of the centering guide 32 lies in front the hole 4 of the fuel pump 1 Thus, the centering guide 32 can be screwed to the fuel pump 1.
Secondly, the extractor 10 is inserted in the cavity 41 of the centering guide 32. The bar 12 of the extractor 10 is in particular inserted in the cavity 41 through the entry orifice 44. Then, a first force in a direction substantially parallel to the axial direction E of the cavity is applied on the extractor 10 such that the bar 12 slides along the cavity 41 until the first end 16 of the bar 12 contacts the JET filter 3.
When the first end 16 of the bar 12 is in contact with the JET filter, a hole on the JET filter 3 must be made on the JET filter 3. In order to make said hole on the JET filter 3, the handle 11 of the extractor 10 is hit in the direction substantially parallel to the axial direction E of the cavity 41 until the nut 13 of the extractor 10 contacts the lower face 39 of the centering guide 32.
Once the hole is done on the JET filter 3, the first end 16 of the bar 12 is screwed to the JET filter 3. In particular, the threaded surface of the first end 16 is screwed to the threaded surface of the JET filter 3.
Finally, the extractor 10 screwed to the JET filter 3 is extracted from the cavity 41 of the centering guide 32. Thus, the JET filter 3 is also extracted. The extraction is possible by applying a second force in a direction substantially parallel to the axial direction E of the cavity. In particular, the second force is applied in a substantially opposite direction than the first force. Since the diameter d10 of the second portion 43 of the cavity 41 is slightly larger than the diameter d3 of the bar 12, the extraction of the extractor 10 from the cavity 41 may require the use of an adjustable wrench applied on the nut 13.
Now, the method for fitting the JET filter 3 in the fuel pump 1 by means of the insertion assembly shown in figure 3.
In order to fit the JET filter 3 in the fuel pump 1, the centering 32 must be firstly positioned in the fuel pump 1. As for the method for extracting the JET filter 3, the positioning of the centering guide 32 in the fuel pump 1 is carried out by inserting the cylindrically shaped portion 34 inside the cavity 2 such that the rear face 37 of the trapezoidal prism shaped portion 35 contacts the face 6 of the fuel pump 1, and such that the hole 40 of the centering guide 32 lies in front the hole 4 of the fuel pump I. Thus, the centering guide 32 can be screwed to the fuel pump 1.
Secondly, the JET filter 3 slides inside the cavity 41 of the centering guide 32 by means of the pushing rod 20. In particular, the sliding of the JET filter 3 inside the cavity 41 is carried out by pushing the JET filter 32 with the first end of the bar 22 of the pushing rod 20. The pushing rod 20 is pushed along the cavity by applying a first force in a direction substantially parallel to the axial direction E of the cavity 41. Said first force is transmitted to the JET filter 3 because of the contact between the pushing rod 20 and the JET filter 3, so that the JET filter 3 slides inside the cavity 41.
The JET filter 3 and the pushing rod 20 are in particular inserted inside the cavity 41 through the entry orifice 44. Before inserting the JET filter 3 in the cavity 41, an end of the JET filter 3 is positioned on the hollow 29 of the pushing rod 20. Then, the pushing rod 20 with the JET filter 3 placed on the hollow 29 are inserted in the cavity 41. Alternatively, the JET filter 3 is inserted directly in the cavity 41 before inserting the pushing rod 20 in the cavity 41.
Then, the JET filter 3 is installed in the fuel pump 1 by hitting the handle 21 of the pushing rod 20 in the direction substantially parallel to the axial direction E of the cavity 41 until the handle 21 of the pushing rod 20 contacts the lower face 39 of the centering guide 32. In this configuration, the JET filter 3 is in a final position. In the final position the JET filter 3 is correctly installed in the fuel pump 1.
Finally, the pushing rod 20 is extracted from the cavity 41 of the centering guide 32. The extraction is possible by applying a second force in a direction substantially parallel to the axial direction E of the cavity 41. In particular, the second force is applied in a substantially opposite direction in relation to the first force.
Please note that the invention is not limited to the illustrated embodiments. In particular, the method for extracting the JET filter 3 and the method for fitting the JET filter 3 can be carried out successively, so that the centering guide 32 is already positioned in the fuel pump 1 before the start of the method for fitting the JET filter 3 in the fuel pump. Thus, the first step of of positioning the centering guide 32 in the fuel pump 1 in the method for fitting the JET filter 3 can be omitted.
Additionally, the centering guide 32 is not limited to the described shape, other shapes of the centering guide 32 being possible.
Moreover, the dimensions of the extractor 10, the pushing rod 20 and the centering guide 32 may change in order to adapt them to a diversity of fuel pumps.
S
LIST OF REFERENCES
A axial direction of the cavity axial direction of the JET filter extractor C axial direction of the JET filter pushing rod D axial direction of the cylindrically shaped portion axial direction of the cavity of the centering guide L 1 length of the extractor L2 length of the first end of the extractor's bar L3 length of the pushing rod L4 length of the main part of the pushing rod L5 length of the first end of the pushing rod L6 length of the first portion of the first end of the pushing rod L7 length of the second portion of the first end of the pushing rod L8 length of the sccond part of the hollow L9 length of the cylindrically shaped portion L10 length of the hole L11 length of the cavity of the centering guide L12 length of the first portion of the cavity of the centering guide dl diameter of the handle of the extractor d2 diameter of the second end of the bar of the extractor d3 diameter of the central part of the bar of the extractor d4 diameter of the handle of the pushing rod d5 diameter of the main part of the bar of the pushing rod d6 diameter of the first portion of the first end of the pushing rod's bar d7 diameter of the second portion of the first end of the pushing rod' s bar d8 diameter of the cylindrically shaped portion d9 diameter of the first portion of the cavity of the centering guide d10 diameter of the second portion of the cavity of the centering guide 1 engine fuel pump 2 cavity 3 JET filter 4 first hole second hole 6 face of the engine fuel pump JET filter extractor 11 handle of the JET filter extractor 12 bar of the JET filter extractor 13 nut of the JET filter extractor 14 rough portion of the JET filter extractor's handle smooth portion of the JET filter extractor's handle 16 first end of the JET filter extractor's bar 17 second end of the JET filter extractor's bar 18 central part of the JET filter extractor's bar 19 cavity of the JET filter extractor's handle JET filter pushing rod 21 handle of the JET filter pushing rod 22 bar of the JET filter pushing rod 23 rough portion of the JET filter pushing rod's handle 24 smooth portion of the JET filter pushing rod's handle first end of the JET filter pushing rod's bar 26 main part of the JET filter pushing rod 27 first portion of the first end of the JET filter pushing rod 28 second portion of the first end of the JET filter pushing rod 29 hollow first part of the hollow 31 second part of the hollow 32 centering guide 33 main body of the centering guide 34 cylindrically shaped portion of the main body trapezoidal prism shaped portion of the main body 36 front face of the trapezoidal prism shaped portion 37 rear face of the trapezoidal prism shaped portion 38 upper face of the trapezoidal prism shaped portion 39 lower face of the trapezoidal prism shaped portion hole 41 cavity of the centering guide 42 first portion of the cavity of the centering guide 43 second portion of the cavity of the centering guide 44 entry orifice exit orifice

Claims (13)

  1. CLAIMS: A kit for replacing a JET filter (3) arranged in an engine fuel pump (1), the kit comprising at least one between an extractor (10) for extracting said JET filter (3), or a pushing rod (20) for fitting a JET filter (3) in the engine fuel pump (1), or a centering guide (32) shaped to cooperate with the extractor (10) or with the pushing rod (20).
  2. 2. The extractor (10) of the kit of claim 1, the extractor (10) comprising a handle (11) and a bar (12), wherein a first end (16) of said bar (12) comprises a threaded surface to engage the JET filter (3)
  3. 3. The extractor (10) as per claim 2, wherein the bar (12) is shaped to cooperate with the centering guide (32), the extractor (10) being provided with a nut (13) surrounding a portion of said bar (12)
  4. 4. The pushing rod (20) of the kit of claim 1, the pushing rod (20) comprising a handle (21) and a bar (22), wherein a first end (25) of said bar (22) is shaped to push the JET filter (3) to a final position in the engine fuel pump (1).
  5. 5. The pushing rod (20) as per claim 4, wherein the bar (22) is shaped to cooperate with the centering guide (32).
  6. 6. The centering guide (32) of the kit of claim 1, comprising a main body (33) including a cavity (41), wherein the cavity is shaped such that the JET filter (3) can be extracted from the engine fuel pump (1) by the extractor (10) or can be pushed to the engine fuel pump (1) by the pushing rod (20).
  7. 7. The centering guide (32) as per claim 6, wherein the main body (33) comprises a cylindrically shaped portion (34).
  8. 8 The centering guide (32) as per claims 6 or 7, wherein the main body (33) comprises a trapezoidal prism shaped portion (35)
  9. 9 The centering guide (32) as per claims 7 and 8, wherein the trapezoidal prism shaped portion (35) comprises an entry orifice (44) of the cavity (41) of the main body (33), and the cylindrically shaped portion (34) comprises an exit orifice (45) of said cavity (41).
  10. 10. The centering guide (32) as per claim 9, wherein the entry orifice (44) is arranged on a face (39) of the trapezoidal prism shaped portion (35), the face (39) being substantially perpendicular to a longitudinal axis (E) of the cavity (41).
  11. 11. The centering guide (20) as per claim 10, wherein the longitudinal axis (E) of the cavity (41) is tilted in relation to a longitudinal axis of the cylindrically shaped portion (34).
  12. 12. A method for extracting a JET filter (3) arranged in an engine fuel pump (1) by means of the extractor (10) as per anyone of claims 2 or 3 and the centering guide (32) as per anyone of claims 6 to 11, the method comprising the steps of: a) positioning the centering guide (32) in the engine fuel pump (1); b) inserting the extractor (10) in the cavity (41) of the centering guide (32); c) making a hole on the JET filter (3) by hitting the handle (11) of the extractor (10) in a direction substantially parallel to the longitudinal axis (E) of the cavity (41); d) screwing the first end (16) of the bar (12) of the extractor (10) to the JET filter (3); and e) extracting the extractor (10) screwed to the JET filter (3) from the cavity (41) of the centering guide (32).
  13. 13. A method for fitting a JET filter (3) in an engine fuel pump (1) by means of the pushing rod (20) as per claims 4 or 5 and the centering guide (32) as per anyone of claims 6 to 11, the method comprising the steps of: a) positioning the centering guide (32) in the engine fuel pump (1); b) sliding the JET filter (3) inside the cavity (41) of the centering guide (32) by means of the pushing rod (20); c) installing the JET filter (3) in the fuel pump (1) by hitting the handle (21) of the pushing rod (20) in a direction substantially parallel to the longitudinal axis (E) of the cavity (41); and d) extracting the pushing rod (20) from the cavity (41) of the centering guide (32).
GB1918482.9A 2019-12-16 2019-12-16 Kit for replacing a jet filter arranged in an engine fuel pump Active GB2593427B (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
GB1918482.9A GB2593427B (en) 2019-12-16 2019-12-16 Kit for replacing a jet filter arranged in an engine fuel pump
PCT/EP2020/086302 WO2021122655A1 (en) 2019-12-16 2020-12-15 Kit for replacing a jet filter arranged in an engine fuel pump
EP20838386.9A EP4077904A1 (en) 2019-12-16 2020-12-15 Kit for replacing a jet filter arranged in an engine fuel pump

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB1918482.9A GB2593427B (en) 2019-12-16 2019-12-16 Kit for replacing a jet filter arranged in an engine fuel pump

Publications (3)

Publication Number Publication Date
GB201918482D0 GB201918482D0 (en) 2020-01-29
GB2593427A true GB2593427A (en) 2021-09-29
GB2593427B GB2593427B (en) 2022-04-27

Family

ID=69186873

Family Applications (1)

Application Number Title Priority Date Filing Date
GB1918482.9A Active GB2593427B (en) 2019-12-16 2019-12-16 Kit for replacing a jet filter arranged in an engine fuel pump

Country Status (3)

Country Link
EP (1) EP4077904A1 (en)
GB (1) GB2593427B (en)
WO (1) WO2021122655A1 (en)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7107878B1 (en) * 2003-08-26 2006-09-19 Stanley Jerantowski Tool with integral fluid reservoir for handling oil and fuel filters
US20150174746A1 (en) * 2013-12-25 2015-06-25 Komatsu Ltd. Filter remover
CN206268069U (en) * 2016-12-16 2017-06-20 浙江汇润电气有限公司 A kind of transfer pump for fuel and its filter screen attaching/detaching apparatus
CN107530602A (en) * 2015-04-24 2018-01-02 罗伯特·博世有限公司 With the filter element for removing element
WO2018177631A1 (en) * 2017-03-28 2018-10-04 Robert Bosch Gmbh Removal tool for a filter insert of a liquid filter
CN208966552U (en) * 2018-07-23 2019-06-11 中国石油天然气股份有限公司 Plunger pump oiling device

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7107878B1 (en) * 2003-08-26 2006-09-19 Stanley Jerantowski Tool with integral fluid reservoir for handling oil and fuel filters
US20150174746A1 (en) * 2013-12-25 2015-06-25 Komatsu Ltd. Filter remover
CN107530602A (en) * 2015-04-24 2018-01-02 罗伯特·博世有限公司 With the filter element for removing element
CN206268069U (en) * 2016-12-16 2017-06-20 浙江汇润电气有限公司 A kind of transfer pump for fuel and its filter screen attaching/detaching apparatus
WO2018177631A1 (en) * 2017-03-28 2018-10-04 Robert Bosch Gmbh Removal tool for a filter insert of a liquid filter
CN208966552U (en) * 2018-07-23 2019-06-11 中国石油天然气股份有限公司 Plunger pump oiling device

Also Published As

Publication number Publication date
EP4077904A1 (en) 2022-10-26
WO2021122655A1 (en) 2021-06-24
GB2593427B (en) 2022-04-27
GB201918482D0 (en) 2020-01-29

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