This apparatus relates to meter pits; and more particularly relates to a novel and improved apparatus for manufacturing a precast concrete meter pit.
Meter pits for water meters are customarily fabricated out of plastic or multiple stacked concrete sections in the form of a cylindrical pipe. The plastic meter pits typically sell at a higher price than concrete pits and tend to deform under certain conditions. The concrete-sectioned meter pits are assembled in segments using a tongue-and-groove connection which is labor intensive and also poses a safety risk when assembling the meter pits by hand which must be transported and assembled on site. The pipes are then buried in the ground, typically below frost level, and have an upper end which is adapted to receive a cover in order to withstand extremely cold temperatures and particularly to insulate the water meter from cold temperatures. However, there is a need for a meter pit having a plurality of precast sections fabricated in a one-step slip form operation and which will allow for easy placement and removal of the meter pit sections.
In addition, packerhead assemblies have been devised for slip forming concrete pipe including a trowel assembly at one end of the packerhead assembly to form an outwardly directed, offset end but for several reasons are not practical for use as a meter pit. Accordingly, there is also a need for a novel and improved apparatus for fabricating meter pits with a removable slip ring.
There is provided a novel and improved meter pit which can be fabricated out of concrete in a one-step slip forming operation in a simple and efficient manner. Accordingly, a meter pit is comprised of elongated precast wall sections of generally cylindrical configuration in end to end relation to one another and wherein the pit is made from the steps of securing a slip ring within a concentric jacket, positioning a pallet with the concentric jacket attached thereto on a turntable, lowering a packerhead assembly within the jacket, the packerhead having a concentric rollerhead provided with a trowel, the trowel having a radially inwardly and downwardly inclined lower edge, injecting concrete into an annular space between the jacket and the rollerhead for downward flow until the space is entirely filled, raising the rollerhead and trowel as the annular space is being filled followed by removing the jacket, and removing the slip ring from the wall sections.
The apparatus for making a precast concrete meter pipe wherein a packerhead assembly includes a trowel assembly and a rollerhead assembly, a jacket in outer spaced concentric relation to the packerhead assembly, a slip ring positioned within the jacket and means for rotating the rollerhead assembly, the improvement comprising the trowel assembly being of generally cylindrical configuration and terminating in a radially inwardly and downwardly inclined lower edge, and an annular pallet positioned beneath the trowel assembly having a riser circumscribing an inner annular edge thereof and extending upwardly within the trowel assembly.
In practice, the pallet is vibrated as the concrete is advanced by gravity flow through the space between the jacket and packerhead assembly to rapidly fill and pack the entire space beginning with the enlarged area between the lower end of the trowel and jacket.
The above and other objects, advantages and features will become more readily appreciated and understood from a consideration of the following detailed description together with the accompanying drawings in which:
There is illustrated in
Dual spaced notches 15 are formed in an opposite lower edge 17 for receiving water lines, not shown. Although a single notch is illustrated, there is a diametrically opposed notch and which together receive the water lines for water flow into and out of the water meter. The terminal end 14 of the beveled edge 13 is substantially flat and squared to the longitudinal axis of the pipe so as to form a ledge or seat for supporting a generally bell-shaped cover 16. The cover 16 is of standard construction including spaced projections or posts 18 which fit inside the ledge 13 and help to position and situate the cover 16 on the support ledge 13. The cover 16 is commonly referred to as a double lid cover which provides a dead air space between the top lid and the interior of the pit 10. The dead air space acts as an insulator, retaining pit heat and keeping outside cold air from entering. The meter pit as described is equally conformable for use with single lid covers and flat covers which may be utilized in milder climates. Grade rings (not shown) may also be inserted between the cover 16 and the support ledge 13 to adjust the height of the cover 16 to match the surface grade.
One form of apparatus 20 for manufacturing meter pits 10 is illustrated in
In use, the pallet 34 and the jacket 22 are mounted with a forklift onto a bottom centering plate 24 having upright centering blades 26 at uniformly spaced circumferential intervals along with shims 28 around the outside of the jacket 22. The jacket 22 has the slip ring 77 positioned therein with the levers 81 causing the pin members 79, 79′ to engage with the slip ring 77. The centering plate 24 has been previously mounted on a turntable 32. The meter pit pallet 34 which is of special design allowing a trowel 44 to extend along an outer circumference of the pallet 34 is aligned for contact with a vibrator unit 36. The vibrator unit used is manufactured by Besser International Pipe Machinery of Sioux City, Iowa, Part No. 2100917 having a vibrational maximum of 3,600 rpm and an impact maximum of 10,000 lbs. An 18″ turning and vibrating standard or TV stand 53 also manufactured by Sesser International Pipe Machinery, Part No. 0801433 is mounted above the vibrator unit 36. The pallet 34 rests on the TV stand allowing for both rotation and vibration of the pallet 34. A packerhead assembly 39 includes a rollerhead assembly 38 which is of special design and is mounted for rotation on a packer shaft 40 and a longbottom assembly 42 which is comprised of a mounting flange (not shown) and the trowel or trowel assembly 44. The jacket 22 is in outer spaced concentric relation to the rollerhead and trowel assemblies. The rollerhead assembly 38 is also of special design comprising a plurality of rollerheads defined by a plurality of rollers 90 mounted to plate 42′ which is connected to the longbottom assembly 42. Each roller 90 has a fin or paddle member 92 mounted thereon. However, the longbottom assembly 42 which is positioned directly beneath the rollerhead assembly and joined for rotation therewith includes the trowel 44 which inclines somewhat diagonally and inwardly in a downward direction with a lower edge 46 bearing lightly against a riser portion 48 of the pallet 34. The pallet 34 is annular and positioned beneath the trowel assembly 44, an inner annular edge 49 of the riser 48 extending upwardly within the trowel assembly 44. The pallet 34 is also provided with radially inwardly projecting teeth 50 at spaced intervals around the inner surface of the riser 48, and downwardly projecting flanges 52 which serve to aid in rotation and vibration of the pallet and also serve to act as stabilizers when the pallet 34 is placed on an uneven surface. A top centering plate or cover plate 54 is bolted to a top table 55 and is positioned on the jacket 22 with centering blades 26′ and has downwardly projecting lobes 56 at spaced circumferential intervals to form the notches 15 for insertion of the water lines as described.
In the standard pipe making process, concrete is injected into the space between the jacket and rollerhead wherein the longbottom assembly and rollerhead assembly are rotated in opposite directions as they are advanced upwardly, past the slip ring 77, so as to compact the concrete with centrifugal force and packing pressure from the rollerheads in accordance with standard pipe making procedures. Also, when used in association with the pallet in pipe making processes, the pallet is caused to spin and to vibrate. In the present apparatus, however, the pallet typically only vibrates but is capable of spinning.
Accordingly, the meter pit 10 is fabricated upside down by the apparatus 20. Specifically, the pallet 34 permits the longbottom assembly and more specifically the trowel 44 to extend around the outer circumference of the pallet in forming the support ledge 13 with an inner beveled surface portion 14′. For this purpose, the pallet 34 has the beveled edge 49 on the riser 48 to assist in centering and sliding the trowel assembly around the outer edge of the pallet. However, the pallet does not spin as typically required for pipe making but instead is journaled with respect to the table and caused to vibrate in a manner to be described. It is important to note that while the manufactured meter pit of this apparatus does not typically require rotation of the pallet 34, further compaction of the cement may be achieved with rotation as well as vibration of the pallet 34.
Summarizing the steps followed in the meter pit fabrication procedure:
1. Set up machine 10 for meter pit manufacture which consists of mounting the centering plates 24 to the turntable 32 and mounting the TV stand 53 onto the vibrator unit 36.
2. Positioning the slip ring 77 within the jacket 22 using the positioning lever 81.
3. Mounting the jacket 22 onto the pallet 34.
4. Mounting the jacket 22 and the pallet 34 onto the centering plates 24 with a forklift.
5. Rotating the turntable 32 which includes the jacket 22, the pallet 34 and the centering plates 24 into alignment with the TV stand 53.
6. Lowering the packerhead assembly 39 within the interior of the jacket 22.
7. Aligning the trowel assembly 44 with the pallet 34 with the aid of the beveled edge 49 on the riser 48.
8. Start filling the form with concrete as the packerhead starts to spin. Preferably, a zero-slump concrete is utilized which will not tend to run or bulge out, and the concrete is packed in by the packerhead assembly as it starts to spin. The vibrator unit 36 also aids in packing the concrete. Thus, very little compaction time is required in forming the support ledge 13 before the packerhead assembly 39 starts to move upwardly.
9. Complete the filling operation as the rollerhead and trowel assemblies reach the top of the form.
10. Raise the packerhead assembly 39.
11. Rotate the turntable 32 away from the rollerhead and trowel assemblies, release the pin members 79 of the positioning lever 81 and remove the jacket 22 and pallet 34 from the centering plate with a forklift.
12. Release the jacket latches 23, slide the jacket 22 vertically, using the forklift, off of the pallet and continue sliding until the jacket 22 clears the top of the concrete for the meter pit.
13. Remove the slip ring 77 from the meter pit.
Basically, no further finishing steps are required before the meter pit is installed in the ground in a right-side-up position with the support ledge 13 at the upper end and with the notches 15 being at the lower end and straddling the water lines.
It is therefore to be understood that the above and other modifications may be made therein without departing from the spirit and scope of the apparatus as defined by the appended claims and reasonable equivalents thereof.
This application is a divisional of Ser. No. 12/288,172, filed 17 Oct. 2008 entitled PRECAST CONCRETE METER PIT AND METHOD AND APPARATUS FOR MAKING SAME, which is a Continuation-In-Part of U.S. Ser. No. 11/048,544 filed 31 Jan. 2005 entitled PRECAST CONCRETE METER PIT AND METHOD AND APPARATUS FOR MAKING SAME, which applications are incorporated by reference herein.
Number | Date | Country | |
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Parent | 12288172 | Oct 2008 | US |
Child | 13646983 | US |
Number | Date | Country | |
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Parent | 11048544 | Jan 2005 | US |
Child | 12288172 | US |