Universal Mount For A Variable Speed Pump Drive User Interface

Abstract

Disclosed herein is a user interface that can be universally mounted to a combination variable speed pump and a drive assembly therefor. The user interface is universally configured to be selectively mounted to the drive assembly and/or to an environmental surface that is remotely located from the drive assembly. The user interface is universally configured to be selectively mounted to the drive assembly in any one of a plurality of available positions relative thereto.

Claims

1-20. (canceled)

21. A variable speed pumping system, comprising: a pumping assembly including at least a drive assembly and a motor securable with a pump, said pumping assembly providing a mount, said drive assembly including an enclosure that contains first electrical components for driving said motor, a housing positioned over said enclosure and including a surface, and an interface module that contains second electrical components and has a display with user input means for selecting an operating parameter of said motor, at least said interface module, including said second electrical components and said display with user input means for selecting an operating parameter of said motor, selectively positionable among a plurality of positions with respect to said enclosure of said drive assembly including said first electrical components for driving said motor so as to allow said at least said interface module to be removably installed with respect to said mount; a locking system configured to removably secure said at least said interface module with respect to said mount; and a heat sink positioned between said drive assembly and said motor, said heat sink configured to dissipate heat from said drive assembly, wherein at least a portion of said housing can be removed to allow said first electrical components for driving said motor contained by said enclosure to be accessed, and wherein said first electrical components for driving said motor are electrically connectable with said second electrical components through said surface when said interface module is secured with respect to said mount and when said interface module is not secured with respect to said mount.

22. The variable speed pumping system of claim 21, comprising said pump.

23. The variable speed pumping system of claim 22, wherein said at least said interface module further includes a cover.

24. The variable speed pumping system of claim 22, wherein said housing includes an opening allowing said first electrical components for driving said motor contained by said enclosure to be accessed.

25. The variable speed pumping system of claim 22, wherein said locking system includes a fastener.

26. The variable speed pumping system of claim 25, wherein said fastener is removable.

27. The variable speed pumping system of claim 22, comprising an electrical cable configured to electrically connect at least one of said second electrical components contained by said interface module to at least one of said first electrical components contained by said enclosure of the drive assembly through said surface.

28. The variable speed pumping system of claim 22, wherein said locking system includes a plurality of interface apertures of said at least said interface module, a plurality of mount apertures of said mount, and a fastener, wherein at least one of said plurality of interface apertures is aligned with one of said plurality of mount apertures when said interface module is in each of said plurality of positions, and wherein said fastener is configured to extend through said at least one interface aperture and said mount aperture that are aligned when said interface module is in each of said plurality of positions.

29. The variable speed pumping system of claim 28, wherein said interface module includes said plurality of interface apertures.

30. The variable speed pumping system of claim 22, wherein at least a portion of said drive assembly serves as said mount.

31. The variable speed pumping system of claim 30, wherein said housing of said drive assembly serves as said mount.

32. The variable speed pumping system of claim 22, wherein said first electrical components for driving said motor include a controller.

33. The variable speed pumping system of claim 22, wherein said at least said interface module is rotatable between said plurality of positions.

34. The variable speed pumping system of claim 21, comprising an electrical cable configured to electrically connect at least one of said second electrical components contained by said interface module to at least one of said first electrical components contained by said enclosure of said drive assembly through said surface.

35. A variable speed pumping system, comprising: a pumping assembly including at least a drive assembly and a motor securable with a pump, said pumping assembly providing a mount, said drive assembly containing first electrical components for driving said motor; an interface module that contains second electrical components and has a display with user input means for selecting an operating parameter of said motor, at least said interface module, including said second electrical components and said display with user input means for selecting an operating parameter of said motor, selectively positionable among a plurality of positions with respect to said drive assembly including said first electrical components for driving said motor so as to allow at least said interface module to be removably installed with respect to said mount and a mountable position remote from said drive assembly; a locking system configured to removably secure said at least said interface module with respect to said mount; and a heat sink positioned between said drive assembly and said motor, said heat sink configured to dissipate heat from said drive assembly, wherein said first electrical components for driving said motor are communicatively connectable with said second electrical components through a surface of said drive assembly when said interface module is secured to said mount and when said interface module is in the mountable position remote from said drive assembly.

36. The variable speed pumping system of claim 35, comprising said pump.

37. The variable speed pumping system of claim 36, wherein said drive assembly includes an enclosure and a housing positioned over said enclosure, said housing including a plurality of side walls about said surface.

38. The variable speed pumping system of claim 37, wherein said mount is provided on said surface.

39. The variable speed pumping system of claim 36, wherein said at least said interface module further includes a cover.

40. The variable speed pumping system of claim 36, wherein said drive assembly includes an opening providing access to said first electrical components contained by said drive assembly.

41. The variable speed pumping system of claim 36, wherein said locking system includes a fastener.

42. The variable speed pumping system of claim 41, wherein said fastener is removable.

43. The variable speed pumping system of claim 36, comprising an electrical cable configured to electrically connect at least one of said second electrical components contained by said interface module to at least one of said first electrical components contained by said enclosure of said drive assembly through said surface at least when said interface module is secured to said mount.

44. The variable speed pumping system of claim 36, wherein said first electrical components for driving said motor are in communication with said second electrical components through a wireless connection at least when said interface module is in the mountable position remote from said drive assembly.

45. The variable speed pumping system of claim 36, wherein at least a portion of said drive assembly serves as said mount.

46. The variable speed pumping system of claim 45, wherein said drive assembly includes an enclosure and a housing positioned over said enclosure, and said housing serves as said mount.

47. The variable speed pumping system of claim 36, wherein said first electrical components for driving said motor include a controller.

48. The variable speed pumping system of claim 36, wherein said interface module is rotatable without removing said interface module from said drive assembly to change an orientation of said interface module.

49. The variable speed pumping system of claim 36, wherein said at least said interface module is rotatable between said plurality of positions.

50. The variable speed pumping system of claim 35, comprising an electrical cable configured to electrically connect at least one of said second electrical components contained by said interface module to at least one of said first electrical components contained by said enclosure of the drive assembly through said surface at least when said interface module is secured to said mount.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] For a more complete understanding of the present disclosure, reference is made to the following Detailed Description of the Exemplary Embodiment(s), considered in conjunction with the accompanying drawings, in which:

[0011] FIG. 1 is a partially exploded perspective view of a variable speed pumping system, the variable speed pumping system including a variable speed pumping assembly that includes a variable speed pump, a motor for the variable speed pump, a drive assembly for the motor, and a user interface module for the drive assembly;

[0012] FIG. 2 is a perspective view of the drive assembly shown in FIG. 1;

[0013] FIG. 3 is an exploded view of the drive assembly shown in FIG. 1;

[0014] FIG. 4 shows four perspective views of the variable speed pumping system shown in FIG. 1, showing the interface module in four different positions relative to the drive assembly;

[0015] FIG. 5 is a front view of the interface module shown in FIG. 1 mounted at a location remote from the drive assembly;

[0016] FIG. 6 is an exploded view of the interface module and a mounting bracket;

[0017] FIG. 7 is a perspective view of the variable speed pumping system shown in FIG. 1, showing a blank cover over the drive assembly;

[0018] FIG. 8 is a perspective view of the drive assembly shown in FIG. 1;

[0019] FIGS. 9 and 10 are side views of the drive assembly shown in FIG. 1;

[0020] FIGS. 11-14 are views of the drive assembly shown in FIG. 1;

[0021] FIG. 15 is a cross-sectional line view, taken along section lines 15-15 and looking in the direction of the arrows, of the drive assembly shown in FIG. 8;

[0022] FIG. 16 is a cross-sectional line view, taken along section lines 16-16 and looking in the direction of the arrows, of the drive assembly shown in FIG. 8;

[0023] FIG. 17 is a perspective view of a wiring compartment cover for the drive assembly shown in FIG. 1;

[0024] FIG. 18 is a perspective view of the interface module shown in FIG. 1;

[0025] FIG. 19 is a top view of an user interface control panel shown in FIG. 1; and

[0026] FIG. 20 is a perspective view of the blank cover shown in FIG. 7.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENT(S)

[0027] Referring to FIG. 1, a variable speed pumping system 10 is provided for connection to a fluid circulation line of a swimming pool and/or other recreational body of water, such as a spa, etc. The variable speed pumping system 10 is typically connected to the fluid circulation line so as to pump dirty water therethrough and return clean water thereto. Other devices might be connected along the fluid circulation line, such as sand filters, chlorinators, and other devices known in the art.

[0028] The variable speed pumping system 10 could be provided with structures and functions known in the art. As a non-limiting example, reference is made to the TriStar Energy Solution® Variable Speed Pump and Control of Hayward Industries, Inc., Elizabeth, N.J.

[0029] The variable speed pumping system 10 includes a variable speed pumping assembly that has a variable speed pump 12 which has an inlet 14 for receiving fluid from the fluid circulation line and an outlet 16 for discharging fluid to the fluid connection line. The variable speed pump 12 includes a strainer chamber 18 positioned between the inlet 14 and the outlet 16. The strainer chamber 18 includes a strainer basket (not shown) for filtering water that flows into the inlet 14. A circular cover 20 is secured to a top end 22 of the strainer chamber 18.

[0030] The variable speed pumping assembly further includes a variable speed motor 24 to drive the variable speed pump 12, and a drive assembly 26 (FIG. 2) to variably control the speed of the motor 24. A fan shroud 25 is provided to cover one end of the motor 24. An interface module 28 with a user interface control panel 30 is provided in electrical communication with the drive assembly 26 for user input of parameters, as will be explained in further detail hereinafter.

[0031] The motor 24 is connected to the strainer chamber 18, and drives an impeller to pump fluids from the inlet 14, through the strainer chamber 18, and out the outlet 16. The drive assembly 26 is situated on top of the motor 24. A base 32 is positioned under the strainer chamber 18 and the motor 24 to provide stability and mounting.

[0032] With reference to FIG. 3, the drive assembly 26 includes an enclosure 34 that contains the electrical components, such as a main printed circuit board 36 and a controller with a processor, for driving the motor 24. An electrical cable 38 (FIG. 1) is connected to the electrical components. The enclosure 34 includes a peripheral portion 40 and an interior portion 42 that is elevated relative to the peripheral portion 40. The bottom of the drive assembly 26 includes a heat sink 43 (see FIGS. 11, 12, and 14-16) configured to allow heat to be properly dissipated away from the electrical components. The heat sink 43 could be made from any suitable material, such as a thermally conductive and electrically insulative material.

[0033] The drive assembly 26 further includes a housing 44 positioned over the enclosure 34. The housing 44 has side walls 46 and a rear wall 48. The housing 44 has an opening 50 for allowing access to the electrical components situated in the enclosure 34. A wiring compartment cover 52 is provided to close off the opening 50 formed in the housing 44.

[0034] Referring to FIG. 1, the housing 44 has a top 54 that is substantially planar, and has four peripheral edges 56A-D, which cooperate to form a substantially square shape. Opposing peripheral edges are generally planar and parallel to each other. While the top 54 of the housing 44 is shown as having a substantially square shape, the top 54 of the housing 44 could have other shapes, e.g., circular, etc.

[0035] A center opening 58 is formed through the top 54 of the housing 44 of the drive assembly 26 to allow the electrical cable 38 to extend therethrough, and a plurality of apertures 60A-D is formed in the top 54 of the housing 44 for reasons to be described hereinafter. The apertures 60A-D are positioned at substantially the same distance from the center opening 58. In particular, a first aperture 60A is spaced a predetermined distance D1 from the opening 58 along the horizontal axis. A second aperture 60B is spaced substantially the same predetermined distance D1 from the opening 58. Likewise, a third aperture 60C is spaced substantially the same predetermined distance D1 from the opening 58. A fourth aperture 60D is spaced substantially the same predetermined distance D1 from the opening 58. In this manner, the distance between each aperture 60A, 60B, 60C, or 60D and the center opening 58 is substantially the same.

[0036] Additionally, adjacent apertures 60A-B, 60B-C, 60C-D, or 60D-A are positioned substantially equidistance from each other. In particular, the first aperture 60A is spaced substantially a predetermined distance D2 from the second aperture 60B. The second aperture 60B is spaced substantially the same predetermined distance D2 from the third aperture 60C. Likewise, the third aperture 60C is spaced substantially the same predetermined distance D2 from the fourth aperture 60D. The fourth aperture 60D is spaced substantially a predetermined distance D2 from the first aperture 60A. While the apertures 60A-D could be formed in various locations on the drive assembly 44, the apertures 60A-D shown in FIG. 1 are formed along the circumference of a circle.

[0037] It will be understood that while four apertures 60A-D are shown, the number of apertures could vary. Likewise, the distance between each adjacent aperture 60A-B, 60B-C, 60C-D, or 60D-A need not be identical, and the distance between each aperture 60A, 60B, 60C, or 60D and the center opening 58 need not be identical.

[0038] The interface module 28 is detachably secured relative to the drive assembly 26. In particular, the interface module 28 could be fastened to an exterior surface of the drive assembly 26, such as the top 54 of the housing 44 of the drive assembly 26. In this manner, the top 54 of the housing 44 of the drive assembly 26 serves as an universal mount for the interface module 28. It will be understood that the universal mount for the interface module 28 could be any exterior surface of the pump 12, the motor 24, or any other surface of the variable speed pumping system 10.

[0039] The interface module 28 contains the user interface control panel 30 and electrical components, such as an interface display printed circuit board 62 (FIG. 3). The user interface control panel 30 has a keypad 64 and a display 66 that provides information from the electrical components. The keypad 64 can include push buttons or a flat panel membrane for allowing a user to provide input, such as selecting menu options (for speed, time, etc.), answers, and/or values, etc. These quantities can be shown on the display 66, such as an LCD display. The electrical cable 38 connects the interface module 28 to the electrical components stored in the enclosure 34. The interface module 28 can receive descriptive or indicative information from the electrical components.

[0040] An interface cover 68 is provided to selectively cover the interface module 28. Living hinges 70 are provided for pivotally connecting the interface cover 68 to the interface module 28 such that the interface cover 68 is pivotable between a closed or retracted position, in which the interface cover 68 is positioned over the user interface control panel 30 (as shown in FIG. 4), and an unfolded or extended position, in which the interface cover 68 projects away from the user interface control panel 30 to allow access to the user interface control panel 30 (as shown in FIG. 1).

[0041] Referring to FIG. 3, the interface module 28 is shown having a substantially square shape, however, the interface module 28 could have other shapes, e.g., circular, etc. The interface module 28 includes a plurality of apertures 72A-B that are aligned with the apertures 60A-D (FIG. 1) of the housing 44, thereby enabling the interface module 28 to be removeably secured to the housing 44 by fastening means, such as screws 74.

[0042] The apertures 72A-B formed in the interface module 28 are positioned at substantially the same distance from a center 76 of the interface module 28. In particular, a first aperture 72A is spaced substantially a predetermined distance D3 from the center 76 along the horizontal axis. A second aperture 72B is spaced substantially the same predetermined distance D3 from the center 76. In this manner, the distance between each aperture 72A or 72B and the center 76 is substantially the same.

[0043] It will be understood that while two apertures 72A-B are shown, the number of apertures could vary. Likewise, the distance between each aperture 72A or 72B and the center 76 need not be identical.

[0044] In an exemplary embodiment, the interface module 28 is assembled to the drive assembly 26 with the panel retaining screws 74. The use of other mechanical locking systems to fasten the interface module 28 to the drive assembly 26 is contemplated. If the user decides to change the orientation of the interface module 28 relative to the drive assembly 26, the screws 74 are removed, the interface module 28 is rotated to a desired orientation, such as any of the orientations shown in FIG. 4, and the interface module 28 is secured to the drive assembly 26 in the desired orientation with the screws 74. The electrical cable 38 is of sufficient length to allow communication between the interface module 28 and the drive assembly 26 regardless of the orientation of the interface module 28 relative to the drive assembly 26.

[0045] In one embodiment, the orientation of the interface module 28 could be changed relative to the drive assembly 26 without removing the interface module 28 from the drive assembly 26. For example, the interface module 28 could be configured on a rotatable turret.

[0046] In view of the configuration of the apertures and the shapes of the interface module 28 and the top 54 of the housing 44 of the drive assembly 26, the interface module 28 could be selectively positionable relative to the drive assembly 26. In one embodiment, the interface module 28 could be selectively positionable relative to the drive assembly 26 about a vertical axis. As a result, the interface module 28 could be simply installed in any direction on the drive assembly 26.

[0047] With reference to FIGS. 5 and 6, the interface module 28 could be mounted remotely from the drive assembly 26, such as in any location (for example, a vertical wall) within the vicinity of a pool. The interface module 28 is removed from the drive assembly 26, and the communication cable 38 is disconnected from the interface module 28. A mounting bracket 78 could be secured at the remote location for use in mounting the interface module 28. A communication data cable 80, such as a six-wire data cable, is connected to the drive assembly 26, routed through an opening formed in the drive assembly 26, through a channel formed in the mounting bracket 78, and is then connected to the interface module 28. In one embodiment, the remotely positioned interface module 28 is in communication with the electrical components through a wireless connection.

[0048] A blank cover 82 (see FIG. 7) could be positioned over the drive assembly 26 when the interface module 28 is remotely mounted. The blank cover 82 is used to protect the communication cable 38.

[0049] It will be understood that the embodiments described herein are merely exemplary and that a person skilled in the art may make many variations and modifications without departing from the spirit and scope of the disclosure. All such variations and modifications are intended to be included within the scope of the disclosure as defined by the appended claims.