The present invention relates to municipal castings and more particularly to municipal casting frames that support covers, and to method for manufacturing the same.
Municipal castings are a broad range of products used in conjunction with municipal and construction applications to enclose, trim and/or provide access to infrastructure, such as drainage and sewer infrastructure. Some of the most common municipal castings include manholes, covers and frames.
In many applications, municipal casting are used in connection with an access point to underlying infrastructure. For example, municipal casting may be used to provide a frame and cover over an access point to the infrastructure. Typically, the frame will be securely affixed to the infrastructure in an essentially permanent manner. The cover will be removably fitted to the frame to close the access opening.
If desired, a cover and frame may be configured to allow the cover to be bolted to the frame. This provides improved security and helps to avoid unauthorized and inadvertent removal of the cover from the frame. In conventional applications where a bolt-down cover is desired, a specially configured frame is installed. The frame is typically provided with lugs that are drilled and tapped to provide structure for threadedly receiving a bolt. The process of a preparing a frame for use in a bolt-down application adds additional cost. Accordingly, it is desirable to prepare a frame for bolts only when a bolt-down cover is expected. As a result, the majority of existing and new frame installations do not include a frame that is configured for a bolt-down cover.
It is not uncommon for a customer to request conversion of an installation from a standard cover to a bolt-down cover. If the installation includes a frame prepared for a bolt-down cover, the conversion process is simple and straightforward, However, if the installation does not include such a frame, it is necessary to either replace the frame or perform field modifications to the frame. Typical field modifications include drilling and tapping holes in the frame capable of receiving the cover bolts. In some applications, the frame may not be suitable for field modifications of this type. For example, the frame may not include a wide enough support flange to be drilled and tapped for this purpose. Further, with repeated use, threads can be damaged. If the threads become damaged, it may be necessary to replace the frame or to undergo even more extensive field modifications.
In an effort to facilitate the use of bolt-down covers, some existing frames include one or more nut shelves on the undersurface of the frame in alignment with the bolt holes. The nut shelves include a plurality of walls that define a nut compartment beneath each bolt hole. In use, a nut is slid sideways into the nut compartment. The nut shelf loosely holds the nut beneath the bolt hole and prevents it from rotating when a bolt is installed. Although an improvement in some respects, experience has revealed that it can be difficult to align the nut with the bolt hole and that the nut can move within the slot making it difficult to install the bolts.
The aforementioned problems are overcome by the present invention wherein a municipal casting frame is provided with cast nut retainers that allow the frame to be retrofitted with a bolt-down cover. The frame defines one or more bolt holes of sufficient dimension to allow free passage of the cover bolts. The undersurface of the frame defines a cast nut retainer adapted to securely receive a nut.
In one embodiment, the nut retainer includes a plurality of beads that are spaced a sufficient distance to permit a nut to be forced into the nut retainer, but close enough so that the nut with not fall from the nut retainer once on place. In this embodiment, the spacing between the beads is slightly smaller than the width of the nut. According the nut can be pushed past the beads up into the nut retainer if sufficient force is applied. In this embodiment, the nut retainer may include defined a nut-shaped void and may include a single bead an each wall of the void. In this embodiment, the nut may be somewhat loosely held in the nut retainer so that the nut is able to move to facilitate alignment with the cover bolt.
In one embodiment, the nut retainer is configured to frictionally receive the nut in a wedge-like manner. In this embodiment, the retainer corresponds in shape to the nut and includes angled walls that exceed the dimensions of the nut at the retainer opening but are smaller than the dimensions of the nut at the retainer base. Accordingly, when a nut in inserted into the cast nut retainer, it becomes wedged in place in the frame so that bolts can be installed from above the cover.
In one embodiment, the frame includes one or more lugs that define the cast bolt hole and the cast nut retainer. The lugs may be positioned wherever a bolt is desired.
The present invention also provides a method for manufacturing a frame with integral cast nut retainers. The method generally includes the steps of (a) providing a mold for casting a frame, (b) providing a core corresponding in shape to the bolt hole and the cast nut retainer, (c) positioning the core within the mold at the desired location, (d) casting the frame in the mold about the core, (e) removing the cast frame from the mold and (f) removing the core from the cast frame. In one embodiment of this process, the core is configured to define a cast nut retainer that corresponds in shape with the nut and includes angled walls that exceed the dimensions of the nut at the retainer opening but are smaller than the dimensions of the nut at the retainer base. In this embodiment, the process may also include the step of inserting a nut into the cast nut retainer until the nut is firmly wedged in place.
The present invention provides an inexpensive and practical frame that can be used with or without a bolt-down cover. The bolt holes and nut retainers are formed as an integral part of the casting process. Accordingly, the present invention does not require drilling, tapping or other operations following casting. As a result, a frame can incorporate the present invention without adding significant cost. This permits the frame to be used in all application whether or not a bolt-down cover is anticipated. The initial installation may include a bolt-down cover or the installation can be easily retrofitted to include a bolt-down cover. The frame is retrofitted simply by seating a nut into each cast nut retainers, placing a bolt-down cover over the frame and installing bolts through the cover and bolt holes into the nuts. Unlike drilled and tapped arrangements, damage to the threads of the nut can be remedied simply by replacing the nut.
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 municipal casting frame and cover installation 120 in accordance with an embodiment of the present invention is shown in
The cover 100 is generally conventional and therefore will not be described in detail. Although the illustrated cover 100 is a bolt-down cover having bolt holes 130 configured to receive standard cover bolts 112a-b, the frame 10 can be utilized to support a standard cover (i.e. a non-bolted cover). When the frame 10 is to be used with a standard cover, it is not necessary to install the nuts 110a-b. In the illustrated embodiment, the nuts 110a-b are forcefully inserted into the nut retainers 12a-b until they are retained by interaction with nut retainers 12a-b, and the cover 100 is placed on the frame 10. The cover bolts 112a-b are fitted through bolt holes 130 in the cover 100 and are threadedly installed in the nuts 110a-b. In this way, the bolts 112a-b secure the cover 100 on the frame 10.
In the illustrated embodiment, the frame 10 is generally peripheral structure defining a central opening 70. The frame 10 generally includes a flange 72 shaped to receive the cover 100 and a shoulder 74 shaped to rest on an underlying structural component. Although the frame 10 and cover 100 of this embodiment are generally square, the present invention can be easily incorporated into installations of other shapes, such as circular or rectangular installations. The frame 10 includes a plurality of lugs 14a-b, each defining a bolt hole 16a-b and a coaxial cast nut retainer 12a-b. The lugs 14a-b provide an enlarged region in the frame 10 having sufficient structural integrity to receive the bolts 112a-b. The size, shape, and configurations of the lugs 14a-b may vary from application to applications. The lugs 14a-b may be eliminated when the frame 10 is otherwise capable of defining the cast nut retainer and 12a-b and of bearing the forces associated with bolting down the cover 100. The cast nut retainers 12a-b are essentially identical to one another. Accordingly, only a single cast nut retainer 12a will be described in detail. Referring now to
Referring now to
The frame 10 may be manufactured using conventional casting techniques and apparatus modified to provide for the nut retainers 12a-b of the present invention. For example, the frame 10 may be formed from iron using conventional casting techniques using a core configured to define the nut retainers 12a-b. The method includes the steps of (a) providing a pattern (not shown) corresponding in shape to the frame 10, (b) using the pattern to define a mold cavity (not shown) in the shape of the frame 10, which in this example includes lug portions (not shown) to define lugs 14a-b, (c) providing one or more cores (not shown) corresponding in shape to the bolt hole 16a-b and the cast nut retainer 12a-b,(d) positioning the cores within the mold cavity at the desired location, which in this embodiment are within the lug portions, (e) introducing molten material (e.g. iron) into the mold cavity, the molten material filling the mold cavity and at least partially surrounding the cores, (f) curing the molten material to form the cast frame, (g) removing the cast frame from the mold cavity, (h) removing the cores from the cast frame 10 to leave the bolt holes 16a-b and cast nut retainers 12a-b. In one embodiment, each core (not shown) includes a nut retainer portion to define the cast nut retainer 12a-b and a bolt hole portion to define the bolt hole 16a-b. The nut retainer portion and holt hole portion may be in coaxial alignment. In this embodiment, the nut retainer portion generally corresponds in shape with the nut 110a and includes at least one angled wall that exceeds the dimensions of the nut at one end but is smaller than the dimensions of the nut at the other end. Accordingly, the nut retainer portion defines a cast nut retainer 12a-b in the frame 10 that is capable of frictionally receiving the nut 110a. In this embodiment, the process of using the frame 10 may include the step of inserting a nut 110a into the cast nut retainer 12a-b until the nut 110a is firmly wedged in place. The nut 110a can be removed from the cast nut retainer 12a-b when desired, for example, if the threads become damaged.
In the illustrated embodiment, the frame 10 and cover 100 include two bolts 112a-b that are intended primary for security (e.g. to deter unauthorized removal of the cover 100). The number of bolts may, however, vary from application to application as desired. For example, the installation may include three or four bolts, which will typically be spaced evenly around the frame and cover. The present invention may be incorporated into watertight applications. In watertight applications (not shown), a gasket may be fitted between the frame and cover and a rubber washer may be fitted over each bolt. Installation of this type are likely to include three, four or more bolts. For example,
The present invention is described above in connection with a hexagon shaped nut 110a. The present invention may alternatively be confirmed for use with nuts having other shapes. For example,
Another alternative embodiment of the invention is shown in
This alternative frame 410 may be manufactured using the methods described above in connection with frame 10 using cores (See
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 considered as limiting the element to the singular.