The present application relates to manhole covers, and, more particularly, to a swing-out manhole cover.
Manhole covers are well-known and widely utilized. Generally, a manhole cover provides access for maintenance of infrastructure, for instance wiring or piping. Traditional manhole cover assemblies include a frame that is attached to the substructure housing infrastructure to be maintained. Examples of such substructure include the base for a road or sidewalk. The manhole cover may be locked for security or sealed leak-tight to prevent infiltration of external contaminants. The cover in a traditional manhole cover assembly is lifted up and away from the frame to gain access to the infrastructure. Because manhole covers are predominantly made of iron and can weigh often in excess of 100 pounds, the effort required to lift a manhole cover can be difficult and even injurious to the operator.
Spring-assisted manhole covers have been developed to lessen the effort required to open the cover. In a typical spring-assist manhole cover, the manhole cover is hinged to the frame such that the cover is rotated up and away from the frame. For example, with a horizontally oriented frame, the cover rotates upwardly in a vertical direction. In one particular pre-existing construction, torsion springs are installed on opposite sides of the hinge to assist in the lifting. One end of each of the torsion springs is secured in a hole in the cover, and the other end is fixed in a hole in the frame. This configuration does provide assistance in lifting the manhole cover, but may not be suitable for use in pressurized applications where holes in the cover and frame are prohibited. Also, this configuration is only suitable in locations where there is enough vertical clearance above the frame for the diameter of cover to rotate through. This system can be more expensive than other systems because of the cost associated with the torsion springs and their installation.
The above shortcomings can be amplified when the site for the manhole is elevated above ground level. An example of such an application is when an access portal is desired in above-ground pipelines. Lifting an elevated cover can be more difficult than lifting a ground-level cover because typically less lifting leverage can be obtained due to the relative height of the cover to the operator.
The present invention provides a swing-out manhole cover assembly with at least one ramp to assist with opening and closing the cover. In one embodiment, the manhole cover assembly includes a cover, a frame, a ramp and a swing assembly. The swing assembly rotatably connects the cover to the frame allowing it to be rotated out of the opening in frame. As the cover is rotated out of the opening about the swing assembly, the ramp imparts linear translation to the cover, separating the cover from the frame slightly to provide clearance between the cover and the frame.
In one embodiment, the cover and frame each include a ramp. As the cover swings out, the cover ramp rides up the frame ramp separating the cover from the frame slightly allowing the cover to swing open more easily. As the cover swings back in toward the frame, the cover ramp rides down the frame ramp bringing the cover back down to the frame.
In one embodiment, the frame also includes a support flange, a frame wall and a cover support rim. The support flange is connected to or otherwise supported by the substructure. The frame wall extends from the support flange and away from the substructure. The cover support rim extends from the free edge of the frame wall to form a surface for supporting the cover. In this embodiment, the frame ramp projects from the frame wall inwardly toward the center of the frame. In one embodiment, the exterior face of the frame ramp slopes down toward the substructure as the frame ramp moves toward the center of the frame away from the frame wall. In one embodiment, the cover ramp extends from the interior face of the cover. In one embodiment, the slope of the face of cover ramp is equal to the slope of the exterior face of the frame ramp.
In one embodiment, the swing assembly includes a pivot post. In this embodiment, the pivot post may be threadedly secured to the cover and rotatably received into the frame ramp. The cover and pivot post rotate with respect to the frame as the cover swings away from the frame. In one embodiment, the pivot post may be mounted to the cover within a generally cylindrical boss and the boss may be angled to define the cover ramp. Similarly, the pivot post may be mounted to the frame within a boss. The frame boss and the cover boss may have complimentary angled surfaces that function as the frame ramp and cover ramp, interacting to raise and lower the cover slightly as the cover is rotated about the swing assembly.
In one embodiment, the manhole cover assembly includes a spring to bias the cover in a closed position. In a further embodiment, the manhole cover assembly includes a seal to provide a leak-tight joint between the frame and the cover. In still a further embodiment, the manhole cover assembly includes a locking mechanism to prevent unauthorized access to the infrastructure through the manhole.
The present invention provides a swing-out manhole cover assembly that requires reduced effort to open and close the cover. The swing-out manhole cover assembly also requires less clearance above the cover assembly to operate than prior flip-up designs. The invention accomplishes these achievements with minimal additional cost and with relatively simple components that are likely to operate reliably in the field. Further, the present invention may include a spring-element that biases the cover in the closed position.
These and other objects, advantages, and features of the invention will be readily understood and appreciated by reference to the detailed description of the current embodiment and the drawings.
A swing-out manhole cover assembly in accordance with an embodiment of the present invention is illustrated in the drawings and generally designated 10. In the embodiment illustrated in the figures, the manhole cover assembly 10 includes a frame 12 defining an opening 38, a cover 14 of sufficient size to cover the opening 38, a cover ramp 18, a frame ramp 20 and a swing assembly 16. The swing assembly 16 rotatably connects the cover 14 to the frame 12 to permit the cover 14 to be selectively rotated out of the frame opening 38. As the cover 14 is rotated away from the opening 38 about the swing assembly 16, the cover ramp 18 and the frame ramp 20 interact to impart linear movement to the cover 14 slightly separating the cover 14 from the frame 12. This separation provides clearance between the cover 14 and the frame 12 to, among other things, ease movement of the cover 14.
The present invention is illustrated in connection with a specific circular manhole frame and circular manhole cover construction. The present invention is, however, well-suited for use with manhole constructions of other types, shapes and sizes. The illustrated embodiment includes a frame ramp and a cover ramp, but the present invention may include only a single ramp, if desired.
I. Frame
As noted above, the swing-out manhole cover assembly 10 includes a frame 12 supported on the substructure housing the infrastructure to be maintained. The frame 12 is generally peripheral defining a central opening 38 of sufficient size to permit access to the underlying infrastructure. In the illustrated embodiment, the frame 12 includes a support flange 22, a frame wall 24, a cover support rim 26 and a frame ramp 20.
The frame 12 may be mounted to the substructure in any suitable manner, including essentially any conventional mounting construction. Accordingly, the substructure and installation of the frame 12 will not be described in detail. Suffice it to say that the support flange 22 may be mounted to the substructure housing the infrastructure to be maintained or directly to the infrastructure itself. The substructure may be a pipeline. The flange 22 can be configured to fasten to essentially any type of substructure including tanks, conduits, etc. In the illustrated embodiment, the flange 22 is an annular rim, but the flange 22 could alternatively be any geometry adapted for connection to a particular substructure. The flange 22 could have mounting holes, slots, tabs, brackets or any other means for attachment to the substructure.
In the embodiment depicted in the figures, the frame wall 24 includes a first end 30, a second end 32, an interior surface 34 and an exterior surface 36. The second end 32 abuts the flange 22. The frame wall 24 extends away from the flange 22. As shown in
As shown in
In the embodiment of
Although the illustrated embodiment includes a frame ramp, the frame ramp is not strictly necessary. In an alternative embodiment, the frame does not include a frame ramp. Instead, some portion of the frame or a projection therefrom is disposed adjacent to the cover ramp so as to interface with the cover ramp 18 as the cover 14 swings with respect to the frame 12.
The frame 12 may be cast from iron, but alternative materials and fabrication methods providing suitable performance could also be utilized.
II. Cover
As described above, the manhole cover assembly 10 includes a moveable cover 14 that can be selectively moved to open and close the frame opening 38, thereby providing selective access to the underlying infrastructure.
In the illustrated embodiment, the cover 14 is generally disc-shaped and includes a cover boss 17 configured to operatively interconnect with the swing assembly 16. The cover 14 includes a main body 70 with an interior face 64 that faces the substructure when the cover 14 is installed on the frame 12. The interior face 64 of the cover 14 includes an outer circumferential margin 65 that rests on the cover support rim 26. The cover 14 also includes an exposed exterior face 65. The exterior face 65 may include treads, lugs, texturing or other surface treatments as desired. For example, the exterior face 65 may include a repeating pattern of protrusions configured to provide improved traction in applications where individuals are likely to walk on the cover 14.
In the illustrated embodiment, the cover boss 17 is generally cylindrical and projects downwardly from the interior face 64 of the cover 14. The cover boss 17 may be shaped to define the cover ramp 18. More specifically, in the illustrated embodiment, the cover boss 17 has an interior end 66 that is sloped with respect to the general extent of the cover 12 to define the cover ramp 18. The cover ramp 18 may slope toward the substructure as the interior end 66 moves in toward the center of the cover 14 (See
In the illustrated embodiment, the cover boss 17 defines a cover post hole 58. The illustrated cover post hole 58 extends from the interior end 66 of the cover boss 17 partially through the thickness of the cover 14. The cover post hole 58 may be located at or near the center of the cover boss 17 or the part of the cover 14 that interfaces with the frame ramp 20. As illustrated, the diameter of the cover post hole 58 generally matches the diameter of the frame post hole 54. In the illustrated embodiment, the pivot post 82 is threadedly secured to the cover 14 within the cover post hole 58. Accordingly, the internal surface 68 defining the cover post hole 58 is threaded to receive a threaded end of the pivot post 82 as described in more detail below. For example, the cover post hole 58 may be drilled and tapped after molding the cover 14.
In the embodiment of
In applications where a leak-tight seal is desired, the assembly 10 may including a seal 46 and channel 44 in the cover support rim 26, the cover 14 may rest on top of the seal 46. When the cover 14 is in place on the cover support rim 26, the seal 46 is compressed to form a leak-tight seal between the cover 14 and frame 12. Alternatively, the seal 46 (or alternative seal) may be mounted to the cover 14, for example, in a seal receiving channel (not shown) defined in the outer circumferential margin 65.
In one embodiment, the cover 14 is cast from iron, but alternative materials or fabrication methods providing suitable performance could also be utilized.
III. Swing Assembly
As discussed above, the swing assembly 16 rotatably connects the cover 14 to the frame 12. In the embodiment of
In the illustrated embodiment, the pivot post 82 includes a first end 88, a midsection 92 and second end 90. The longitudinal axis of the pivot post 82 defines a pivot axis about which the cover 14 rotates. In one embodiment, the first end 88 of the illustrated pivot post 82 is threaded to provide a mechanism for securing the pivot post 82 to the cover 14. The cover post hole 58 threadedly receives the first end 88 of the pivot post 82. Alternatively, the first end 88 may be cast in place in the cover post hole 58. As shown, a composite bushing 98 is disposed in the frame post hole 54. The bushing 98 may reduce friction between the pivot post 28 and the frame post hole 54. The midsection 92 of the pivot post 82 may be substantially smooth and swing freely within the composite bushing 98. In the illustrated embodiment, the swing assembly additionally include a pair of synthetic washers 99, 101 such as Nylatron® washers, disposed about the pivot post 82 between the frame ramp 20 and the cover ramp 18. The washers 99, 101 act to reduce friction between the frame ramp 20 and cover ramp 18. In an alternative embodiment, the assembly 16 may include one or more washers, or no washers at all. In one embodiment, the washers 99, 101 swing freely about the post 82, however, they could be attached to each other, the cover ramp 18 or the frame ramp 20.
The swing assembly 16 may optionally include a spring 84 or other biasing component. In one embodiment, the spring 84 is fitted over the second end 90 of the pivot post 82. In this embodiment, the second end 90 of the pivot post 82 may define a bore 94 through the diameter of the pivot post 82 to receive the cotter pin 86 or other spring 84 securing means. The pivot post 82 may be fabricated from steel, but any material providing suitable performance may be utilized. In the illustrated embodiment, the spring 84 is a compression spring. However, the compression spring 84 may be replaced by alternative biasing components. In the illustrated embodiment, the cotter pin 86 extends through the bore 94 in the pivot post 82 and holds the spring 84 in compression against the interior face 50 of the frame ramp 20. Various alternative spring securing means are suitable for use and are well-known in the art. In use, the spring 84 biases the cover 14 in the closed position and provides tactile indication to the operator when the cover 14 is in the closed position. The strength of the spring is selected to provide the cover 14 with the desired bias and the desired resistant to rotation.
In an alternative embodiment, the pivot post may be fixed with respect to the frame instead of the cover. In another alternative embodiment, the swing assembly is a rotational interface between the cover and the frame. In other words, the geometry of the cover and frame interfit to promote rotational motion between the cover and the frame. In still further embodiments, the swing assembly may be any suitable rotational linkage between the frame and cover.
IV. Optional Lock Assembly
In the illustrated embodiment, the manhole cover assembly 10 includes a locking mechanism 74 to prevent unauthorized access to infrastructure beneath the manhole cover assembly 10. Various locking mechanisms are well-known in the art and will be recognized by those skilled in the art. In one embodiment, the locking mechanism 74 includes a cover lock interface 76, a frame lock interface 78 and a lock 80. The cover lock interface 76 may be a hole defined through the outer circumference 65 of the cover 14 beyond the area of the cover 14 in contact with cover support rim 26. The frame lock interface 78 may also include a hole through the outer face 25 of the frame 12 beyond the cover support rim 26. In this embodiment, when the cover 14 is closed over the frame 12, the cover lock interface 76 aligns with the frame lock interface 78. To secure the manhole cover assembly 10, a lock 80 may be inserted through both the cover lock interface 76 and the frame lock interface 78 and secured. Essentially, any type of lock 80 may be utilized for the locking mechanism 74. In the illustrated embodiment, a padlock 80 is used and the shank of the padlock 80 is fitted through the cover lock interface 76 and the frame lock interface 78.
V. Operation
Operation of the manhole cover assembly 10 will now be described with reference to the embodiment of
In embodiments utilizing only a frame ramp 20, as the cover 14 rotates open away from the frame 12, a portion of the cover 14 or a protrusion therefrom rides against the frame ramp 20 separating the cover 14 from the frame 12 slightly. In embodiments utilizing only a cover ramp 18, as the cover 14 rotates open away from the frame 12, the cover ramp 20 engages the frame 12 or a protrusion therefrom at points along the cover ramp 20, separating the cover 14 from the frame 12 slightly.
When the cover 14 closes by swinging back in to the frame 12, the cover 14 lowers back down to the frame 12 using the ramp or ramp(s). In embodiments including a spring 84, the spring 84 applies a force along the pivot axis directed toward the substructure the frame 12 is mounted to as the cover 14 rotates closed. This force assists the rotation of the cover 14 about the swing assembly 16 and provides a tactile indication when the cover 14 is in the closed position over the frame 12. This force also biases the cover 14 in the closed position over the frame 12.
The above description is that of the current embodiment of the invention. Various alterations and changes can be made without departing from the spirit and broader aspects of the invention as defined in the appended claims, which are to be interpreted in accordance with the principles of patent law including the doctrine of equivalents. Any reference to claim elements in the singular, for example, using the articles “a,” “an,” “the” or “said,” is not to be construed as limiting the element to the singular.
The present invention is a continuation-in-part of U.S. application Ser. No. 11/420,083, which was filed on May 24, 2006 (now U.S. Pat.______).
Number | Date | Country | |
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Parent | 11420083 | May 2006 | US |
Child | 11945725 | Nov 2007 | US |