The present disclosure relates generally to common rail fuel injection systems for engines for machines and vehicles and, more particularly, to a slotted accumulator clamp and accompanying accumulator assembly that can be inserted into and removed from a cylinder head for maintenance or replacement without removing a nearby air intake manifold.
Common rail direct fuel injection is a direct fuel injection system for gasoline and diesel engines in various applications, such as in providing power to machines and vehicle. In diesel engines for example, a common rail fuel injection system may feature a high-pressure fuel rail having a plurality of fuel lines each feeding an individual accumulator assembly with a valve to provide the high-pressure fuel to a corresponding fuel injector for one of the combustion cylinders of the engine.
The end of the accumulator body 12 opposite the fuel line adapter 14 and the accumulator clamp 16 is inserted into an accumulator bore of a cylinder head where the accumulator body will come into fluid communication with the corresponding fuel injector. A pair of accumulator mounting bolts extending from the cylinder head on either side of the accumulator bore are received by and extend through the side through bores of the accumulator clamp. Spacers 18 as shown may provide additional length to the side through bores where necessary depending on the length of the accumulator mounting bolts, and nuts are applied to the ends of the accumulator mounting bolts to secure the accumulator assembly to the cylinder head.
It is typical that space is limited within the engine compartment of the machine or vehicle in which the common rail fuel injection system is implemented. Consequently, other components of the engine may be mounted in close proximity to the cylinder head and the accumulator bore at which the accumulator assembly is installed. For example, in some engine compartments, an air intake manifold is mounted near the cylinder head. The proximity of the other components, combined with the length of the accumulator mounting bolts, often necessitates removal of the other components to provide clearance for the side through bores to receive or slide off of the accumulator mounting bolts.
In one aspect of the present disclosure, an accumulator clamp for an accumulator assembly in an engine assembly of a machine is disclosed. The accumulator assembly further includes an accumulator body and a fuel line adapter connected thereto, and the accumulator assembly is mountable to a cylinder head of the engine assembly with an injector end of the accumulator body disposed within a cylinder head accumulator bore of the cylinder head. The accumulator clamp includes a clamp body having a clamp body front surface, a clamp body rear surface, a clamp body bottom surface, a clamp body top surface, a clamp body first side surface and a clamp body second side surface, and a clamp accumulator bore surface defining a clamp accumulator bore extending through the clamp body from a clamp accumulator bore bottom opening in the clamp body bottom surface to a clamp accumulator bore top opening in the clamp body top surface. The clamp accumulator bore is shaped to receive a fuel line adapter connection end of the accumulator body inserted through the clamp accumulator bore bottom opening and through the clamp accumulator bore. The accumulator clamp further includes a first bolt bore surface defining a first bolt bore extending through the clamp body proximate the clamp body first side surface from a first bolt bore bottom opening in the clamp body bottom surface to a first bolt bore top opening in the clamp body top surface. The first bolt bore is shaped to receive a first threaded portion of a first accumulator mounting bolt extending from the cylinder head adjacent the cylinder head accumulator bore, a first bolt bore inner diameter of the first bolt bore is greater than a first thread portion outer diameter of the first threaded portion of the first accumulator mounting bolt, and the first bolt bore surface further defines a first bolt slot through the clamp body from the first bolt bore surface to the clamp body front surface, with the first bolt slot extending upwardly from the clamp body bottom surface and terminating before the first bolt slot extends through the clamp body top surface and with the first bolt slot having a first bolt slot width that is greater than the first thread portion outer diameter of the first threaded portion so that the first threaded portion of the first accumulator mounting bolt is insertable into and removable from the first bolt bore through the first bolt slot. The accumulator clamp also includes a second bolt bore surface defining a second bolt bore extending through the clamp body proximate the clamp body second side surface from a second bolt bore bottom opening in the clamp body bottom surface to a second bolt bore top opening in the clamp body top surface. The second bolt bore is shaped to receive a second threaded portion of a second accumulator mounting bolt extending from the cylinder head adjacent the cylinder head accumulator bore and diametrically opposite from the first accumulator mounting bolt relative the cylinder head accumulator bore, a second bolt bore inner diameter of the second bolt bore is greater than a second thread portion outer diameter of the second threaded portion of the second accumulator mounting bolt, and the second bolt bore surface further defines a second bolt slot through the clamp body from the second bolt bore surface to the clamp body front surface, with the second bolt slot extending upwardly from the clamp body bottom surface and terminating before the second bolt slot extends through the clamp body top surface and with the second bolt slot having a second bolt slot width that is greater than the second thread portion outer diameter of the second threaded portion so that the second threaded portion of the second accumulator mounting bolt is insertable into and removable from the second bolt bore through the second bolt slot.
In another aspect of the present disclosure, an accumulator clamp for an accumulator assembly in an engine assembly of a machine is disclosed. The accumulator assembly further includes an accumulator body and a fuel line adapter connected thereto, and the accumulator assembly is mountable to a cylinder head of the engine assembly with an injector end of the accumulator body disposed within a cylinder head accumulator bore of the cylinder head. The accumulator clamp includes a clamp body having a clamp body front surface, a clamp body rear surface, a clamp body bottom surface, a clamp body top surface, a clamp body first side surface and a clamp body second side surface, and a clamp accumulator bore extending through the clamp body from the clamp body bottom surface to the clamp body top surface, wherein the clamp accumulator bore is shaped to receive a fuel line adapter connection end of the accumulator body inserted into the clamp accumulator bore through the clamp body bottom surface. The accumulator clamp further includes a first bolt bore extending through the clamp body proximate the clamp body first side surface from the clamp body bottom surface to the clamp body top surface, wherein a first bolt bore inner diameter of the first bolt bore is greater than a first mounting bolt outer diameter of a first accumulator mounting bolt extending from the cylinder head adjacent the cylinder head accumulator bore, and a first bolt slot through the clamp body from the first bolt bore to the clamp body front surface, with the first bolt slot extending upwardly from the clamp body bottom surface and having a first bolt slot width that is greater than the first mounting bolt outer diameter. The accumulator clamp also includes a second bolt bore extending through the clamp body proximate the clamp body second side surface from the clamp body bottom surface to the clamp body top surface, wherein a second bolt bore inner diameter of the second bolt bore is greater than a second mounting bolt outer diameter of a second accumulator mounting bolt extending from the cylinder head adjacent the cylinder head accumulator bore, and a second bolt slot through the clamp body from the second bolt bore to the clamp body front surface, with the second bolt slot extending upwardly from the clamp body bottom surface and having a second bolt slot width that is greater than the second mounting bolt outer diameter. The clamp accumulator bore, the first bolt bore and the second bolt bore are positioned so that the first accumulator mounting bolt and the second accumulator mounting bolt can be inserted through the first bolt slot and the second bolt slot and into the first bolt bore and the second bolt bore, respectively, when the injector end of the accumulator body is inserted into the cylinder head accumulator bore.
In a further aspect of the present disclosure, an accumulator assembly for an engine assembly of a machine is disclosed. The engine assembly has a cylinder head with a cylinder head accumulator bore, a first accumulator mounting bolt having a first mounting bolt outer diameter and extending from the cylinder head adjacent the cylinder head accumulator bore, and a second accumulator mounting bolt having a second mounting bolt outer diameter and extending from the cylinder head adjacent the cylinder head accumulator bore. The accumulator assembly includes an accumulator body having a fuel line adapter connection end, an injector end disposed longitudinally opposite the fuel line adapter connection end, and an accumulator body outer surface having a shape that is complimentary to the cylinder head accumulator bore to facilitate insertion of the injector end into the cylinder head accumulator bore, a fuel line adapter, and an accumulator clamp. The accumulator clamp includes a clamp body having a clamp body front surface, a clamp body rear surface, a clamp body bottom surface, a clamp body top surface, a clamp body first side surface and a clamp body second side surface, and a clamp accumulator bore extending through the clamp body from the clamp body bottom surface to the clamp body top surface, wherein the clamp accumulator bore is shaped to receive the fuel line adapter connection end of the accumulator body inserted into the clamp accumulator bore through the clamp body bottom surface. The accumulator clamp further includes a first bolt bore extending through the clamp body proximate the clamp body first side surface from the clamp body bottom surface to the clamp body top surface, wherein a first bolt bore inner diameter of the first bolt bore is greater than the first mounting bolt outer diameter, and a first bolt slot through the clamp body from the first bolt bore to the clamp body front surface, with the first bolt slot extending upwardly from the clamp body bottom surface and having a first bolt slot width that is greater than the first mounting bolt outer diameter. The accumulator clamp also includes a second bolt bore extending through the clamp body proximate the clamp body second side surface from the clamp body bottom surface to the clamp body top surface, wherein a second bolt bore inner diameter of the second bolt bore is greater than the second mounting bolt outer diameter, and a second bolt slot through the clamp body from the second bolt bore to the clamp body front surface, with the second bolt slot extending upwardly from the clamp body bottom surface and having a second bolt slot width that is greater than the second mounting bolt outer diameter. The fuel line adapter connection end of the accumulator body is inserted into the clamp accumulator bore through the clamp body bottom surface and the fuel line adapter is coupled to the fuel line adapter connection end.
Additional aspects are defined by the claims of this patent.
Referring to
Although the cylinder head 22 is shown in cross-section, a portion of an accumulator mounting bolt 46 disposed on the viewer's side of the plane cutting the section through the cylinder head 22 is shown for the purpose of fully illustrating and discussing the installation of the accumulator assembly 26 in the cylinder head 22. A second accumulator mounting bolt 46 extends from the cylinder head 22 on the opposite side of the cylinder head accumulator bore 30 and is therefore hidden from view in
The threaded portion 52 of the accumulator mounting bolt 46 will include outer threads having a thread portion outer diameter ODTP. The outer threads of the threaded portion will be received by and mesh with inner threads of a nut 56 (
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As shown in
As shown in
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The fuel line adapter 72 is shown in greater detail in
Referring to
The front planar surface portion 142 and the rear planar surface portion 144 may be approximately parallel to each other and space apart by a clamp body planar surface distance DCB that is greater than the accumulator body planar surface distance DAB separating the accumulator body planar surfaces 88, 90, and less than the accumulator body maximum outer diameter ODAB at the fuel line adapter connection end 80. The side curved surface portions 146, 148 may be semi-cylindrical arcs centered on a clamp accumulator bore longitudinal axis 150 with diametrically opposite points being separated by a clamp accumulator bore inner diameter IDCB that is greater than the accumulator body maximum outer diameter ODAB.
With this arrangement, the fuel line adapter connection end 80 may be inserted into the clamp accumulator bore bottom opening 138 when the accumulator body planar surfaces 88, 90 are oriented approximately parallel to the planar surface portions 142, 144 of the clamp accumulator bore 136. The accumulator body 70 may pass through the clamp accumulator bore 136 until the accumulator body shoulders 92, 94 are engaged by the clamp body bottom surface 126. After the fuel line adapter connection end 80 is inserted into the clamp accumulator bore 136, the accumulator body connection cylinder 112 may be inserted into the corresponding opening in the fuel line adapter connection end 80 until the accumulator body connection end 110 of the fuel line adapter 72 engages the fuel line adapter connection end 80, after which an appropriate fastening mechanism, such as bolts or screws, can be used to secure the fuel line adapter 72 to the accumulator body 70. When the accumulator body 70 and the fuel line adapter 72 are secured to each other, the fuel line adapter shoulders 106, 108 face and engage the clamp body top surface 128 to retain the accumulator clamp 74 on the accumulator assembly 26. Moreover, the planar surface portions 142, 144 face and engage the corresponding accumulator body planar surfaces 88, 90 to substantially prevent the accumulator body 70 from rotating about the accumulator body longitudinal axis 76 relative to the accumulator clamp 74.
The accumulator clamp 74 in accordance with the present disclosure is further configured to receive the accumulator mounting bolts 46 of the cylinder head 22 when the accumulator assembly 26 is installed. Referring to the front view of the accumulator clamp 74 shown in
To facilitate installation and removal of the accumulator assembly 26 in the engine assembly 20 without the necessity of removing the air intake manifold 24, the first bolt bore surface 160 further defines a first bolt slot 168 through the clamp body 120 from the first bolt bore 162 to the clamp body front surface 122. The first bolt slot 168 extends upwardly from the clamp accumulator bore bottom opening 138 in the clamp body bottom surface 126 toward the clamp body top surface 128. The first bolt slot 168 terminates before the first bolt slot 168 extends through the clamp body top surface 128 and the clamp accumulator bore top opening 140. The first bolt slot 168 has a bolt slot width WBS that is greater than the thread portion outer diameter ODTP of the threaded portion 52 of the corresponding accumulator mounting bolt 46 so that the threaded portion 52 of the accumulator mounting bolt 46 is insertable into and removable from the first bolt bore 162 through the first bolt slot 168. As best seen in
In order to extend longitudinal length of the first bolt bore 162 and provide additional structural support to compensate for the removal of material from the clamp body 120 to from the first bolt slot 168, the accumulator clamp 74 further includes a first boss 170 extending upwardly from the clamp body top surface 128 at the first bolt bore 162. The first bolt bore surface 160 extends upward through the first boss 170 and terminates at a first boss top surface 172 that defines the first bolt bore top opening 166. The first boss 170 as illustrated has a boss outer diameter ODB that tapers from a first boss maximum outer diameter proximate the clamp body top surface 128 to a first boss minimum outer diameter proximate the first boss top surface 172. The first boss top surface 172 may be countersunk to form a conical surface so that the first bolt bore top opening 166 can receive and engage a spacer ring 174 (
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In the illustrated embodiment, outer portions of the clamp body bottom surface 126 in which the first bolt bore bottom opening 164 and the second bolt bore bottom opening 184 are defined are disposed above a central portion in which the clamp accumulator bore bottom opening 138 is defined, and are closer to the clamp body top surface 128 than the clamp accumulator bore bottom opening 138. The outer portions of the clamp body bottom surface 126 extend upward toward the clamp body top surface 128 as they extend outwardly from the central portion and toward the corresponding clamp body side surfaces 130, 132 at an angle θ (
The clamp accumulator bore 136, the first bolt bore 162 and the second bolt bore 182 may be positioned so that the accumulator mounting bolts 46 can be inserted through the first bolt slot 168 and the second bolt slot 188 and into the first bolt bore 162 and the second bolt bore 182, respectively, when the injector end 82 of the accumulator body 70 is inserted into the cylinder head accumulator bore 30. As shown in
The disassembly of the accumulator assembly 26 from the cylinder head accumulator bore 30 of the cylinder head 22 is illustrated by the sequence in
Turning to
The accumulator assembly 26 in accordance with the present disclosure may facilitate a reduction in the time and effort required to perform maintenance on the engine assembly 20. Previous accumulator assemblies required removal of air intake manifolds and other components of the engine assembly due to the space limitations within the engine compartment. Without the necessity of removing engine components that do not require repair or replacement, service personnel can devote their time and effort to the components requiring maintenance. The reduction in maintenance time translates into a reduction in the amount of time that the machine or vehicle is out of service and unavailable to the owner for performing work at a worksite.
While the preceding text sets forth a detailed description of numerous different embodiments, it should be understood that the legal scope of protection is defined by the words of the claims set forth at the end of this patent. The detailed description is to be construed as exemplary only and does not describe every possible embodiment since describing every possible embodiment would be impractical, if not impossible. Numerous alternative embodiments could be implemented, using either current technology or technology developed after the filing date of this patent, which would still fall within the scope of the claims defining the scope of protection.
It should also be understood that, unless a term was expressly defined herein, there is no intent to limit the meaning of that term, either expressly or by implication, beyond its plain or ordinary meaning, and such term should not be interpreted to be limited in scope based on any statement made in any section of this patent (other than the language of the claims). To the extent that any term recited in the claims at the end of this patent is referred to herein in a manner consistent with a single meaning, that is done for sake of clarity only so as to not confuse the reader, and it is not intended that such claim term be limited, by implication or otherwise, to that single meaning.