SYSTEM AND METHOD OF MAPPING A DUCT

Abstract

A unit that houses tracking electronics configured to be passed through a duct while the tracking electronics collect position information is provided. The information collected by the unit is used to map the duct. A method of mapping a duct is also provided.

Claims

1-22. (canceled)

23. A system for mapping a path of a conduit, the system comprising: a conduit mapping unit configured to be advanced through the conduit, the conduit mapping unit including a body portion housing electrical components therein, the electrical components operable to collect data defining a path of the conduit as the conduit mapping unit travels through the conduit; and a drive device comprising a mapping system blower configured to generate pressurized fluid to blow the conduit mapping unit through the conduit, the drive device being separate from the conduit mapping unit.

24. The system for mapping the path of the conduit of claim 23, wherein the electrical components further comprise a six degree of freedom microprocessor chip.

25. The system for mapping the path of the conduit of claim 23, wherein the electrical components further comprise a memory and a communication electronic component.

26. The system for mapping the path of the conduit of claim 23, wherein the conduit mapping unit further comprises a modular electrical unit, wherein the modular electrical unit comprises electrical components that are connected and configured to be removed from one unit and placed into another unit.

27. A method for mapping a path of a conduit, the method comprising: inserting a conduit mapping unit into a conduit, the conduit mapping unit including a body portion housing electrical components therein, the electrical components operable to collect data defining a path of the conduit as the conduit mapping unit travels through the conduit; and blowing the conduit mapping unit through the conduit by a drive device including a mapping system blower configured to generate pressurized fluid to blow the conduit mapping unit through the conduit while the conduit mapping unit collects and stores data defining a path of the conduit.

28. The method for mapping the path of the conduit of claim 27, further comprising selecting a conduit mapping unit that is in a range from 5 to 25 percent smaller than the diameter of the conduit.

29. The method for mapping the path of the conduit of claim 27, further comprising providing the data defining the path of the conduit to a computing system to generate cable installation parameters based on the data defining the path of the conduit.

30. The method for mapping the path of the conduit of claim 29, wherein generating cable installation parameters based on the data defining the path of the conduit comprises generating a recommended flow rate and a recommended blowing pressure.

31. A method for mapping a path of a conduit, the method comprising: inserting a conduit mapping unit into a conduit, the conduit mapping unit including a body portion housing electrical components therein, the electrical components operable to collect data defining a path of the conduit as the conduit mapping unit travels through the conduit; using a drive device separate from the conduit mapping unit, advancing the conduit mapping unit through the conduit; and using the conduit mapping unit, collecting the data defining the path of the conduit.

32. The method for mapping the path of the conduit of claim 31, wherein advancing the conduit mapping unit through the conduit comprises generating pressurized fluid using the drive device to advance the conduit mapping unit through the conduit.

33. The method for mapping the path of the conduit of claim 31, wherein advancing the conduit mapping unit through the conduit comprises pulling the conduit mapping unit through the conduit using a pull cord.

34. The method for mapping the path of the conduit of claim 31, further comprising providing the data defining the path of the conduit to a computing system to generate cable installation parameters based on the data defining the path of the conduit.

35. The method for mapping the path of the conduit of claim 34, wherein generating cable installation parameters comprises generating detailed data that can be imported into performance software to provide a recommended force for advancing the conduit mapping unit and a recommended rate for advancing the conduit mapping unit.

36. The method for mapping the path of the conduit of claim 31, further comprising operating a cable installation system according to the cable installation parameters to install a cable into a conduit.

37. The method for mapping the path of the conduit of claim 31, further comprising driving the conduit mapping unit through the conduit a plurality of times using the drive device.

38. A system for mapping the path of the conduit, the system comprising: a conduit mapping unit configured to be advanced through the conduit, the conduit mapping unit including a body portion housing electrical components therein, the electrical components operable to collect data defining a path of the conduit as the conduit mapping unit travels through the conduit; and a drive device configured to advance the conduit mapping unit through the conduit, the drive device being separate from the conduit mapping unit.

39. The system for mapping the path of the conduit of claim 38, wherein the drive device further comprises a mapping system blower configured to generate pressurized fluid to blow the conduit mapping unit through the conduit.

40. The system for mapping the path of the conduit of claim 38, wherein the drive device further comprises a puller configured to pull the conduit mapping unit using a pull cord.

41. The system for mapping the path of the conduit of claim 40, wherein the conduit mapping unit further comprises a pulling eye, wherein the pull cord is configured to couple to the pulling eye and pull the conduit mapping unit.

42. The system for mapping the path of the conduit of claim 38, wherein the drive device further comprises a pusher configured to push the conduit mapping unit through the conduit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] FIG. 1 is a side elevation view of a unit according to the present disclosure in a straight duct; and

[0008] FIG. 2 is a side elevation view of the unit of FIG. 1 in a curved duct.

DETAILED DESCRIPTION

[0009] Referring to the FIGS., systems for mapping a duct according to the present disclosure are described herein in further detail. In the depicted embodiment the system includes a unit 10 configured to be passed through a duct 12. The unit 10 includes a body portion having a first end portion 14 and a second end portion 16. The body portion defines an internal cavity 18 configured to house electrical components 20 therein. In the depicted embodiment, the first end portion 14 includes a rounded leading surface and the second end portion 16 defines a trailing surface. A device configured to drive the unit 10 through a duct 12, for example, a blower. The system can also include a processor configured to receive information collected by the unit 10 as the unit travels through the duct 12 to map the duct 12.

[0010] In the depicted embodiment, the electrical components include a battery, a six degree of freedom microprocessor chip, as well as memory and communication electronics. The 6 degree of freedom feature is useful in that it provides 3-axis acceleration, 3-axis angular rate and brain functions. In the depicted embodiment, the electrical components are connected together to form a modular electrical unit. The modular electrical unit is configured to be removed from one unit and placed into another unit. The system can include multiple units of various sizes, each of the units configured to receive the modular electrical unit. The selection of the proper unit for a particular application can depend on the type and size of the duct. It should be appreciated that many other types of electrical components can be carried by the unit. For example, the electrical components could also include a toxic material sensor, magnetic field detector, pressure sensor, moisture sensor, or infrared scanner.

[0011] As discussed above, the unit 10 is configured to collect position data as it moves through the duct. In some embodiments the unit 10 is configured to transmit data so that it can be tracked as it moves through the duct. In addition to collecting position data, unit 10 can be configured to clean the duct as it moves through the duct 12, or alternatively to transfer lubricant to the duct surface. In the depicted embodiment, the unit 10 is configured to be connected with other units. The each units can be configured for their own functions (e.g., one unit could be for cleaning, another for detecting moisture, another for tracking position). In the depicted embodiment, the first end portion 14 includes a pulling eye 22 configured to connect to a duct pull cord and/or to connect to another unit, and the second end portion 16 includes an inboard link 24 configured to connect to another unit. In the depicted embodiment, the unit has an overall length of less than ten millimeters, which enables the unit to move efficiently through ducts with bends. For example, a unit having an outer diameter of between four and five millimeters (about 4.5 mm) can be blown through a 5.5 mm inner diameter duct with a minimum bend radius of 70 mm.

[0012] In the depicted embodiment, the system can further include a display configured to visually display the duct configuration. The unit can also include a system that provides detailed data that can be imported into blowing performance software to provide recommended flow rate, blowing pressure, and locations for blowing for example. In the depicted embodiment, the system also includes a unit trap configured to be mounted to a far end of the duct to trap the unit as it exits the duct. It should be appreciated that the system can include fewer features or more features than are described herein.

[0013] The present disclosure also provides a method for mapping a duct including selecting a unit that has a diameter that is within 5-25 percent smaller than the diameter of a duct of which the unit is configured to be blown through; inserting a modular electrical unit into the selected unit, the modular electrical unit configured to track the position of the unit; blowing the unit through the duct while the modular electrical unit collects and stores data regarding the position of the unit; and mapping the duct based on the data collected by the unit.

[0014] The method can also include providing recommended flow rate, blowing pressure, and locations for blowing based on information collected by the unit and received by the processor. In addition it can also include providing information to another software application that visually displays the mapped route.

[0015] The above specification, examples and data provide a complete description of the manufacture and use of the composition of the invention. Since many embodiments of the invention can be made without departing from the spirit and scope of the invention, the invention resides in the claims hereinafter appended.