Cooling assembly for service vehicle

Abstract

A cooling assembly, for a service vehicle, includes a frame arranged to define an internal cavity, with the frame having six faces: a bottom face, a top face, and four side faces. The first face is configured to be mounted on the service vehicle. Three of the four side faces are each configured to have at least one cooler mounted thereon. A remaining one of the four side faces is positioned facing an engine of the service vehicle and has a barrier element to restrict drawing air through the remaining one of the four faces.

Claims

1. A cooling assembly for a service vehicle, the cooling assembly comprising: a frame having a plurality of faces that define an internal cavity, wherein the plurality of faces include: a first face that is configured to be mounted on the service vehicle, a second face that is opposite the first face and is configured to be fitted with a fan, a third face this is configured to be fitted with at least one cooler, and a fourth face that is adjacent to the third face and configured to face an engine of the service vehicle, the fourth face having a barrier element, the barrier element being configured to restrict air from being drawn through the fourth face, the fourth face including at least one channel adapted to receive the barrier element, and the barrier element being held in position using mechanical fasteners.

2. The cooling assembly of claim 1, wherein the at least one cooler includes one or more of a radiator, a fuel cooler, a hydraulic oil cooler, a power end lubrication cooler, or a charge air cooler.

3. The cooling assembly of claim 1, wherein the third face is fitted with a plurality of coolers that include the at least one cooler.

4. The cooling assembly of claim 1, further comprising: a core guard provided on the fourth face.

5. The cooling assembly of claim 1, wherein the barrier element is made of sheet metal.

6. The cooling assembly of claim 1, further including: at least one support panel attached to the first face.

7. The cooling assembly of claim 1, wherein the at least one cooler includes a plurality of coolers, and wherein an arrangement of the plurality of coolers is based on at least one of a length, a breadth, or a height of the frame.

8. The cooling assembly of claim 1, wherein the frame includes a plurality of support arms.

9. A service vehicle comprising: a mainframe; an engine supported on the mainframe; and a cooling assembly comprising: a frame having a plurality of faces that define an internal cavity, wherein the plurality of faces include: a first face that is configured to be mounted on the service vehicle, a second face that is opposite the first face and is configured to be fitted with a fan, a third face this is configured to be fitted with at least one cooler, and a fourth face that is adjacent to the third face and configured to face an engine of the service vehicle, the fourth face having a barrier element, the barrier element being configured to restrict air from being drawn through the fourth face, the fourth face including at least one channel adapted to receive the barrier element, and the barrier element being held in position using mechanical fasteners.

10. The service vehicle of claim 9, wherein the at least one cooler includes one or more of a radiator, a fuel cooler, a hydraulic oil cooler, a power end lubrication cooler, or a charge air cooler.

11. The service vehicle of claim 1, wherein the third face is fitted with a plurality of coolers that include the at least one cooler.

12. The service vehicle of claim 9, further comprising: a core guard provided on the fourth face.

13. The service vehicle of claim 9, wherein the barrier element is made of sheet metal.

14. The service vehicle of claim 9, further including: at least one support panel attached to the first face.

15. The service vehicle of claim 9, wherein the at least one cooler includes a plurality of coolers, and wherein an arrangement of the plurality of coolers is based on at least one of a length, a breadth, or a height of the frame.

16. The service vehicle of claim 9, wherein the frame includes a plurality of support arms.

17. A system comprising: a frame comprising a plurality of faces that define an internal cavity, wherein the plurality of faces include: a first face that is configured to be mounted on a service vehicle, a second face that is opposite the first face, a third face this is fitted with a first cooler, a fourth face that is fitted with a second cooler, a fifth face that is fitted with a third cooler, and a sixth face, wherein the sixth face is adjacent to the third face and the fourth face, and wherein the sixth face is configured to face an engine of the service vehicle, wherein the sixth face has a barrier element, and wherein the barrier element is configured to restrict air from being drawn through the sixth face.

18. The system of claim 17, wherein each one of the third face, the fourth face, and the fifth face has a plurality of coolers.

19. The system of claim 17, wherein the sixth face includes at least one channel adapted to receive the barrier element.

20. The system of claim 17, wherein the barrier element is held in position using mechanical fasteners.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective side view of an exemplary service vehicle, according to various concepts of the present disclosure;

(2) FIG. 2 is a perspective exploded view of a cooling assembly associated with the service vehicle of FIG. 1, according to various concepts of the present disclosure;

(3) FIG. 3 is a perspective assembled view of the cooling assembly of FIG. 2, according to various concepts of the present disclosure; and

(4) FIG. 4 is a flowchart of a method for cooling components of the service vehicle, according to various concepts of the present disclosure.

DETAILED DESCRIPTION

(5) Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or the like parts. Also, corresponding or similar reference numbers will be used throughout the drawings to refer to the same or corresponding parts.

(6) Referring to FIG. 1, an exemplary service vehicle 100 is illustrated. The machine is embodied as the service vehicle 100 is embodied as a trailer to serve at a gas or oil fracturing site. The service vehicle 100 includes a mainframe 102 having a number of components mounted thereon. An engine 104 is attached to the mainframe 102 of the service vehicle 100. An operator cabin 106 is provided on the service vehicle 100. A number of wheels 108 are positioned at a front end 110 and a rear end 112 of the service vehicle 100 for mobility. The service vehicle 100 additionally includes other components for example, a transmission system (not shown), a hydraulic system (not shown), a fracturing pump (not shown), and so on for performing fracturing operations.

(7) To perform the fracturing operation, fracturing fluid may be pumped into a wellbore at high pressure. Inside the wellbore, the fracturing fluid is forced into a formation being produced. When the fracturing fluid enters the formation, the fracturing fluid fractures, or creates fissures, in the formation. Water, as well as other fluids, and some solid proppants, may then be pumped into the fissures to stimulate the release of oil and gas from the formation. In some cases, fracturing rock in the formation may require that the fracturing fluid be pumped into the wellbore at very high pressure. This pumping is typically performed by the relatively large diesel-powered fracturing pumps.

(8) During operation, some of the components of the service vehicle 100 may get heated up, requiring the components to be cooled. For example, the engine 104, the transmission system, the hydraulic system, the fracturing pump, and so on may need to be cooled. The present disclosure relates to a cooling assembly 114 associated with the service vehicle 100. The cooling assembly 114 is a box type cooling system and will be explained in detail relating to FIGS. 2 and 3.

(9) Referring to FIGS. 2 and 3, the cooling assembly 114 has a frame 202. The frame 202 has a hollow box type shape. The frame 202 includes four side faces, that is 204, 206, 208, 210, a top face 212, and a bottom face 214 that define an internal cavity 216 of the frame 202. The top face 212 is opposite to the bottom face 214. The four side faces 204, 206, 208, 210 are positioned adjacent to one another. The frame 202 is formed by a number of support members 218 that are arranged to define the box shape of the frame 202.

(10) The bottom face 214 of the frame 202 is mounted on the service vehicle 100. In some embodiments, one more support panels 220 may be provided on the bottom face 214 of the cooling assembly 114 for firmly connecting the cooling assembly 114 to the service vehicle 100. In one example, the cooling assembly 114 is mounted on the mainframe 202 of the service vehicle 100, proximate to the engine 104. A fan 222 is mounted on the top face 212. In some embodiments, the fan 222 is made of plastic, to reduce the weight of the fan 222. The fan 222 may also be connected to a motor, a fan shroud, and other components associated therewith.

(11) Three of the four side faces, that is 204, 206, 208, hereinafter referred to as three side faces 204, 206, 208, may have multiple coolers 224 installed thereon. More particularly, each of the three side faces 204, 206, 208 may include one or more coolers 224. Further, the coolers 224 on each of the three side faces 204, 206, 208 may be of different types. For example, the coolers 224 may include any of a radiator, a fuel cooler, a hydraulic oil cooler, a power end lubrication cooler, and/or a charge air cooler. Additionally, or optionally, other coolers 224 for cooling of other components on the service vehicle 100 may also be accommodated on the frame 202. Lines, pipes, and other connections, for example charge air lines, coolant and/or oil lines, associated with the coolers 224 may be housed within the internal cavity 216 of the frame 202.

(12) An exemplary arrangement includes providing radiators and a power end lubrication coolers on one of the three side faces 204; charge air coolers 224 on another of the three side faces 206; radiators, a fuel cooler, and a hydraulic oil cooler on yet another of the three side faces 208. It must be noted that the arrangement of the coolers 224 on the three side faces 204, 206, 208 of the frame 202 may vary based on a length, a breadth, and/or a height of the frame 202. The arrangement shown in the accompanying figures is exemplary and does not limit the scope of the present disclosure.

(13) A barrier element 226 is provided on a remaining one of the four side faces, hereinafter referred to as the one side face 210, of the cooling assembly 114. The barrier element 226 is provided proximate to and facing the engine 104 of the service vehicle 100. The barrier element 226 may be made of sheet metal. In one example, the one side face 210 may include channels (not shown) provided on an inner perimeter 228 thereof for receiving the barrier element 226, such that the barrier element 226 is affixed in position using mechanical fasteners. The barrier element 226 is configured to restrict and block the drawing of air from areas proximate to the engine 104. The barrier element 226 also causes sealing of the one side face 210 from ambient air, preventing air from entering the internal cavity 216 of the frame 202 when the fan 222 is switched on. The barrier element 226 includes a number of ports 230 provided thereon for fluidic connection between the coolers 224 and the other components of the service vehicle 100, for example, the engine 104 and a hydraulic pump (not shown).

(14) Additionally, the frame 202 may include other support structures, such as support arms, frames, panels, brackets and so on for firmly holding the components in place on the frame 202. A core guard 232 is connected to the three side faces 204, 206, 208 via mechanical fasteners, such as bolts.

(15) During operation, the fan 222 is switched on in suction mode, causing an airflow to be drawn from each of the three side faces 204, 206, 208 of the frame 202, except for the one side face 210 which is located near the engine 104. The barrier element 226 on the one side face 210 prevents, restricts, and blocks the air from being drawn through the one side face 210 and the areas proximate to the engine 104. The operation of the fan 222 causes cooling of the coolers 224 by heat exchange therewith.

(16) The frame 202 may be made of any suitable material, for example, metal. The design, construction, shape, and/or dimensions of the frame 202 may vary based on the requirements of the system. The arrangement of the coolers 224 on the three side faces 204, 206, 208 of the frame 202 may also vary based on the requirements of the system.

INDUSTRIAL APPLICABILITY

(17) The present disclosure provides the cooling assembly 114 for cooling of the components of the service vehicle 100. FIG. 4 illustrates a flowchart of a method for cooling of the components of the service vehicle 100. At step 402, the frame 202 having the four side faces 204, 206, 208, 210, the top face 212, and the bottom face 214 is aligned on the mainframe 202 of the service vehicle 100. At step 404, the bottom face 214 is attached to the mainframe 202. At step 406, the fan 222 is mounted on the top face 212 of the frame 202. At step 408, one or more coolers 224 are fitted on the three side faces 204, 206, 208 of the frame 202. At step 410, the barrier element 226 is provided on the one side face 210 of the frame 202 proximate to and facing the engine 104 of the service vehicle 100. The barrier element 226 restricts drawing air through the one side face 210. At step 412, the fan 222 is operated to draw the airflow from each of the three side faces 204, 206, 208 of the frame 202 for cooling the coolers 224.

(18) The present cooling assembly 114 provides an effective solution for cooling the coolers 224 associated with the components of the service vehicle 100. The cooling assembly 114 has a box type cooling package design. When the fan 222 is operated in suction mode, the airflow is drawn from each of the three side faces 204, 206, 208 of the cooling assembly 114 having the coolers 224 installed thereon. The barrier element 226 mounted on the one side face 210 proximate to the engine 104 prevents the air from being drawn through the said side 210.

(19) By preventing drawing of the air from the one side face 210 that faces the engine 104, an overall cooling performance of the system may be improved since the barrier element 226 blocks the heated air surrounding the engine 104 from entering the internal cavity 216 of the frame 202 when the fan 222 is operated in suction mode. Further, closing or blocking the one side face 210 by the barrier element 226 may assist in redistributing package restriction in such a way that the airflows with relatively higher velocity may be drawn through each of the three side faces 204, 206, 208 having the coolers 224 mounted thereon, further enhancing the cooling performance of the system.

(20) The cooling assembly 114 offers a robust and compact solution having the coolers 224 mounted on each of the three side faces 204, 206, 208 of the cooling assembly 114, allowing the cooling assembly 114 to be installed in environments having space constraints. Further, the cooling assembly 114 may be relatively light weight and may be easily retrofitted onto existing machines. In some situations, for example in case of inspection or servicing, the barrier element 226 may be removed to access the internal cavity 216 of the frame 202, without having to go underneath the service vehicle 100.

(21) Although the cooling assembly 114 has been described in connection with the service vehicle 100, the cooling assembly 114 may also be used in generator sets and other electric power applications.

(22) While aspects of the present disclosure have been particularly shown and described with reference to the embodiments above, it will be understood by those skilled in the art that various additional embodiments may be contemplated by the modification of the disclosed machines, systems and methods without departing from the spirit and scope of what is disclosed. Such embodiments should be understood to fall within the scope of the present disclosure as determined based upon the claims and any equivalents thereof.