The present disclosure relates to sump systems that are configured to catch and store runoff water.
Runoff water may be directed to a catch basin of a sump system. The sump system may include a pump that is configured to pump water out of the catch basin once the water level within the catch basin rises to a certain level.
A sump system includes a catch basin and a sump pump. The catch basin is configured to receive runoff water. The catch basin has an upper end and a bottom surface. The catch basin defines a vertical chamber and a horizontal chamber. The vertical chamber extends downward in a vertical direction from the upper end to a first portion of the bottom surface. The horizontal chamber intersects the first chamber to form an intersecting region. The horizontal chamber is defined by an upper surface and a second portion the bottom surface. The horizontal chamber extends outwardly in a horizontal direction from an outer periphery of the first chamber and has a vertical dimension that extends upward from the bottom surface to the upper surface. The upper surface is positioned below the upper end. The sump pump is disposed within the catch basin.
A sump system includes a catch basin and a sump pump. The catch basin is configured to receive runoff water. The catch basin has an upper end and a bottom surface. The catch basin defines a first chamber and a second chamber. The first chamber has a first height dimension that extends vertically downward from the upper end to a first portion of the bottom surface. The first chamber has a first width dimension. The second chamber intersects the first chamber to form an intersecting region. The second chamber has a second height dimension that extends vertically upward from a second portion of the bottom surface to an upper surface. The second chamber has a second width dimension that extends horizontally outward from an outer periphery of the first chamber to a horizontal end of the second chamber. The second height dimension is less than the first height dimension. The sump pump is disposed within the catch basin.
A catch basin that configured to receive runoff water includes a first tube and a second tube. The first tube extends downward from an upper end to a lower end of the catch basin. The first tube has a first cross-sectional area that is defined along a first plane that extends horizontally though the first tube. The second tube extends horizontally outward from the lower end of the first tube at position that is below the upper end. The second tube is in fluid communication with the first tube and has a second cross-sectional area that is defined along a second plane that extends horizontally though the second tube, wherein the second cross-sectional area is greater than the first cross-sectional area.
Embodiments of the present disclosure are described herein. It is to be understood, however, that the disclosed embodiments are merely examples and other embodiments may take various and alternative forms. The figures are not necessarily to scale; some features could be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the embodiments. As those of ordinary skill in the art will understand, various features illustrated and described with reference to any one of the figures may be combined with features illustrated in one or more other figures to produce embodiments that are not explicitly illustrated or described. The combinations of features illustrated provide representative embodiments for typical applications. Various combinations and modifications of the features consistent with the teachings of this disclosure, however, could be desired for particular applications or implementations.
Referring to
The one or more pumps 14 may be connected to one or more outlet pipes 18 that direct the runoff water away from the catch basin 12. More specifically, the outlet pipes 18 may be in fluid communication with both the catch basin 12 and the storm drain 16 and may be configured to direct runoff water from the catch basin 12 to the storm drain 16. The outlet pipes 18 are shown to extend out of the catch basin 12 through caps or lids 20 that cover openings into the catch basin 12. It should be understood that the positioning of the outlet pipes 18 is for illustrative purposes only and that the outlet pipes 18 may be located at another position than illustrated. For example, the outlet pipes 18 may extend out of the catch basin 12 through the catch basin 12 itself. More specifically, the outlet pipes 18 may extend through one or more vertical chambers of the catch basin 12 that are located along or an upper end of the catch basin 12 or through a top portion of one or more horizontal chambers of the catch basin 12 that are located along a lower end of the catch basin 12.
The catch basin 12 may be connected to and in fluid communication with drains 26 via inlet pipes 28. The drains and inlet pipes 28 may be part of a drainage system in a building, as shown, or may be part of a drainage system for an outside area, such as a field that is being utilized for some purpose, such as a sporting event. The drains 26 and inlet pipes 28 may be configured to direct the runoff water into the catch basin 12. The inlet pipes 28 are shown to be connected to the top portion of the one or more horizontal chambers. It should be understood that the positioning of the inlet pipes 28 is for illustrative purposes only and that the inlet pipes 28 may be located at another position than illustrated. For example, the inlet pipes 28 may be connected to the one or more vertical chambers of the catch basin 12. It is also noted that for illustrative purpose some of the components (e.g., the catch basin 12, a portion of storm drain 16, and the drains 26) are shown in cross-section while other components are not.
The one or more pumps 14 may be connected to a power source, such as a battery or a power grid. Each of the one or more pumps 14 includes a switching device 30 that is configured to switch the one or more pumps 14 between an “on state” and an “off state”. In the on state, the one or more pumps 14 are configured to direct runoff water out of the catch basin. In the off state, runoff water may collect in the catch basin 12 since the one or more pumps 14 are turned off. The switching device 30 may be configured to activate a respective pump 14 to direct the runoff water out of the catch basin 12 once the water within the catch basin 12 reaches a threshold level. For example, the switching device may be a float 32 that is connected to an electrical switch 34 on each pump 14. When the water level raises within the catch basin 12 to at least the threshold level, the float 32 moves upward and turns on the switch to activate a respective pump 14. When the water level drops below the threshold level, the float 32 moves downward and turns of the switch to deactivate the respective pump 12. The switching device 30 may have a hysteresis so that the threshold level that activates the respective pump 14 is slightly higher than the threshold level that deactivates the respective pump 14.
In a sump system that has a small cross-sectional area along the bottom of the catch basin of the sump system, one or pumps of such a sump system may transition between on and off states at a relatively high frequency, especially during periods where the catch basin is continuously being filled with water (e.g., during a rain storm). This may decrease the life of the pumps and increase power consumption required to operate the pumps in order to maintain the water level within the catch basin at or below the threshold level. This disclosure provides a solution to such a problem by providing a sump system that includes catch basin that has a relatively large volume along a lower portion or end of the catch basin relative to an upper portion or end of the catch basin.
The catch basin 12 has an upper end 36 and a bottom surface 38. The catch basin defines a vertical chamber 22 and a horizontal chamber 24. The vertical chamber 22 and the horizontal chamber 24 may be referred to as the first chamber and second chamber, respectively. The vertical chamber 22 extends downward in a vertical direction 39 from the upper end 36 to a first portion 40 of the bottom surface 38. The vertical chamber 22 has a first height dimension, H1, that extends vertically downward from the upper end 36 to the first portion 40 of the bottom surface 38. The vertical chamber 22 also has a first width dimension, W1.
The horizontal chamber 24 intersects the vertical chamber 22 to form an intersecting region 41. The horizontal chamber 24 is defined by an upper surface 42 and a second portion 44 the bottom surface 38. The horizontal chamber 24 extends outwardly in a horizontal direction 46 from an outer periphery 48 of the vertical chamber 22. The horizontal chamber 24 has a vertical dimension, which may be referred to as a second height dimension, H2, that extends upward from the bottom surface 38 to the upper surface 42. The upper surface 42 is positioned below the upper end 36 of the catch basin 12 and below an upper portion of the vertical chamber 22 that is above the intersecting region 41. The horizontal chamber 24 has a second width dimension, W2, that extends horizontally outward from the outer periphery 48 of the vertical chamber 22 to a first horizontal end 50 of the horizontal chamber 24. The second width dimension, W2, may also extend horizontally outward from the outer periphery 48 of the vertical chamber 22 to a second end 52 of the horizontal chamber 24 in a direction that is opposite of the first end 50 of the horizontal chamber 24. The second height dimension, H2, is less than the first height dimension, H1, such that horizontal chamber 24 is lower than the vertical chamber 22 and the a second width dimension, W2, is greater than the first width dimension, W1, such that the volume of the catch basin 12 is greater along the bottom surface 38 relative to volume of the catch basin along the upper end 36.
The catch basin 12 may be comprised of a vertical tube 54, which may also be referred to as the first tube, and a horizontal tube 56, which may also be referred to as the second tube. The vertical tube 54 defines the vertical chamber 22. The vertical tube 54 extends downward from the upper end 36 of the catch basin toward a lower end 58 of the catch basin 12. The vertical tube 54 has a first cross-sectional area 60 that is defined along a first plane (i.e., the plane about which
It should be noted that the cross-sectional area of the chamber 24 defined by horizontal tube 56 in
The one or more pumps 14 are disposed with the catch basin 12. More specifically, the one or more pumps 14 are disposed along the bottom surface 38 of the catch basin 12. A first of the one or more pumps 14 may be specifically disposed within the intersecting region 41 of the horizontal chamber 24 and the vertical chamber 22.
The catch basin 12 may define a second vertical chamber 64. The second vertical chamber 64 may be referred to as the third chamber. The second vertical chamber 64 extends downward in the vertical direction 39 from the upper end 36 to a third portion 66 of the bottom surface 38. The second vertical chamber 64 has a third height dimension, H3, that extends vertically downward from the upper end 36 to the third portion 66 of the bottom surface 38. The second vertical chamber 64 has a third width dimension, W3.
The horizontal chamber 24 intersects the second vertical chamber 64 to form a second intersecting region 67. The upper surface 42 is positioned below the upper end 36 of the catch basin 12 and below the upper portion of the second vertical chamber 64 that is above the second intersecting region 67. A second of the one or more pumps 14 may be disposed within the second intersection region 67 of the horizontal chamber 24 and the second vertical chamber 64.
The second width dimension, W2, of the horizontal chamber 24 also extends horizontally outward from the outer periphery 68 of the second vertical chamber 64 to the first horizontal end 50 of the horizontal chamber 24. The second width dimension, W2, may also extend horizontally outward from the outer periphery 68 of the second vertical chamber 64 to the second horizontal end 52 of the horizontal chamber 24 in a direction that is opposite of the first horizontal end 50 of the horizontal chamber 24. The second height dimension, H2, is also less than the third height dimension, H3, such that horizontal chamber 24 is lower than the second vertical chamber 64 and the second width dimension, W2, is greater than the sum of the first width dimension, W1, and the third width dimension, W1, such that the volume of the catch basin 12 is greater along the bottom surface 38 relative to volume of the catch basin along the upper end 36.
The catch basin 12 includes a second vertical tube 70, which may also be referred to as the third tube. The second vertical tube 70 defines the second vertical chamber 64. The second vertical tube 70 extends downward from the upper end 36 of the catch basin toward the lower end 58 of the catch basin 12. The second vertical tube 70 has a third cross-sectional area 72 that is defined along a third plane (i.e., the plane about which
The sump system 10 may further include adjustable clamps 74 that are secured to the catch basin 12 along the bottom surface 38 of the catch basin 12. Each of the adjustable clamps 74 may comprise a pair of rails or bars that are configured to engage opposing sides of one of the pumps 14 to secure the position of the respective pump 14 within the catch basin 12. The adjustable clamps 74 may also reduce any noise or vibration produced by the one or more pumps 14. Slots 76 may be machined out of the bottom surface 38 of the catch basin 12. The adjustable clamps 74 may be disposed within the slots 76 and may be slidable within the slots 76 such that the adjustable clamps 74 may engage and secure the positions of differently sized pumps within the catch basin 12. Once the clamps 74 have been positioned to engage the pump 14, the clamps 74 may be secured in place within the slots 76 via bolts 78 or any other type of fasteners (e.g., rivets).
Referring to
Although the vertical tubes, horizontal tubes, and the respective vertical and horizontal chambers are depicted herein as having square, rectangular, or circular cross-sectional areas, it should be understood that the vertical tubes, horizontal tubes, and the respective vertical and horizontal chambers may have a shape that is any desirable shape.
It should also be understood that the designations of first, second, third, fourth, etc. for height dimensions, width dimensions, chambers, tubes, pumps, portions of surfaces, or any other component, state, or condition described herein may be rearranged in the claims so that they are in chronological order with respect to the claims.
The words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the disclosure. As previously described, the features of various embodiments may be combined to form further embodiments that may not be explicitly described or illustrated. While various embodiments could have been described as providing advantages or being preferred over other embodiments or prior art implementations with respect to one or more desired characteristics, those of ordinary skill in the art recognize that one or more features or characteristics may be compromised to achieve desired overall system attributes, which depend on the specific application and implementation. As such, embodiments described as less desirable than other embodiments or prior art implementations with respect to one or more characteristics are not outside the scope of the disclosure and may be desirable for particular applications.
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