This invention relates to a hand-operated, powered tool system for cutting coupling grooves in the ends of plastic pipes in the field without moving the pipes. Large diameter plastic pipes are commonly used in water supply systems and other liquid and gas transmission systems where the pipes are buried underground or are otherwise difficult to move. Commonly, such pipes are produced in sections which are coupled together end-to-end to form the required length of a pipeline.
A conventional form of pipe coupling comprises a ring which fits around the adjacent ends of a pair of aligned pipe sections to hold the ends together. Typically, such coupling rings have radially inwardly extending flanges formed at their opposite ends. These flanges fit into grooves that are cut into the pipes near their ends. In coupling a pair of pipes, their ends are aligned end-to-end. Then the coupling ring, which is typically formed of a pair of half-circular sections, is applied around the adjacent pipe ends. With the coupling ring encircling the pipe ends, the flanges are arranged in the pre-cut grooves that are formed in the pipe ends. Next, the two halves of the coupling are bolted together to connect the pipes. Hence, the grooves must be accurately located relative their pipe ends for a good connection.
Pipe sections are normally produced in standard lengths. Thus, the lengths of specific pipe sections may have to be varied, i.e. shortened, in order to fit within a particular place in a pipeline. Also, if an already installed pipe section end portion is damaged and that damaged portion has to be cut off and replaced, it may be desirable to cut off the damaged portion of the pipe section and replace it without removing the remaining part of the pipe from the pipeline or otherwise moving the pipe. Consequently, it is desirable, at such times, to form the coupling grooves in the pipe ends in the field without moving the pipe. For example, when a pipe is buried underground, and only its end portion is exposed, or the pipe is connected into a line of pipes, it may be difficult to uncover or to disconnect a pipe section from its location in order to take the section to a workplace where suitable machinery is available for accurately forming a coupling groove in its end. Similarly, it may be difficult or time-consuming to transport a replacement pipe section from the site where it is to be installed in order to form grooves in the section.
Hence, it is desirable to provide portable equipment which can accurately and quickly provide grooves in the end of a pipe in the field or construction site, without moving the pipe if the pipe is substantially covered or if it is attached in a pipeline to another pipe section.
Grooving equipment that is presently available, is generally large, unwieldy and difficult to use in the field. Hence, it would be desirable to provide equipment which is lightweight, easily transported and moved to, and usable in the field, as a hand-type tool, without moving or uncovering an entire pipe where an accurately located groove is needed on an end of the pipe for coupling purposes. Also, it is desirable that such a tool be self-powered and relatively inexpensive, as well as sufficiently compact to enable a workman to move and to use the tool without undue effort and without needing the assistance of a crane or other lifting equipment. The present invention is concerned with providing such a lightweight, portable, self-powered tool system which can be easily used by a workman to cut a coupling groove on the end portion of a pipe at an installation site, without requiring moving or uncovering the pipe.
Examples of prior grooving equipment are disclosed in U.S. Pat. No. 2,634,643, issued Apr. 14, 1953, to John A. Krooss for a “Pipe Grooving Tool,” and U.S. Pat. No. 3,699,828, issued Oct. 24, 1972, to Edward Walter Piatek, et al. for a “Pipe Groover.” Each of these patents disclose a relatively complex tool which is heavy and difficult and time-consuming to use in the field, and particularly, would be difficult to use to cut a pipe groove that is accurately positioned within a plane that is perpendicular to the axis of the tube. A conventional pipe coupling ring requires that the coupling grooves encircle the pipe and be arranged in a plane that is perpendicular to the axis of the pipe. It appears that it would be difficult, with the equipment disclosed in the above patents, to accomplish that arrangement automatically as is desirable.
This invention contemplates the provision of a tool which includes a ring, that can be easily secured around the end portion of a pipe without exposing more than a minimal length of the pipe end for this purpose. The ring is formed with a channel which encircles the pipe. A cutting tool, such as a conventional router with a cutter bit, is mounted upon a carrier which has a channel guide portion that fits into the channel. Preferably, the carrier also has a pipe surface guide portion that is concave and is arranged to contact and slide along the curved outer surface of the pipe while the channel guide portion slides along the inside of the channel. Thus, the cutter bit is guided along a precise path for cutting a uniform depth, accurately located groove in the outer surface of the pipe.
It is necessary to locate the groove at a uniform distance relative to the free end of the pipe and within a plane that is perpendicular to the axis of the pipe in order to properly receive the corresponding flange of a coupling device. Hence, the cutter is guided, first, by the channel which forms a track that is arranged around the pipe in a plane that is perpendicular to the axis of the pipe and is located at a fixed distance from the pipe free end. In addition, the carrier uses the pipe surface as a guide, so as to precisely locate the groove and to enable the cutter to form a uniform depth groove. This is accomplished with equipment which is light in weight and easy to transport and to manually use in the field.
An object of this invention is to provide a lightweight, relatively inexpensive, easily used, powered tool which can precisely locate and cut a coupling channel in the peripheral surface of a pipe, such as a plastic pipe, rapidly, without having to move or uncover any more than a short length of the end of the pipe.
A further object is to provide equipment which can rapidly cut a coupling groove in the field, with minimal effort and time, without having to move the pipe to a fixed position machine or to a workshop or the like.
Still another object of this invention is to provide the pipe installation workmen with a means for rapidly and easily forming accurate coupling grooves in the ends of pipes at the installation site, in the field, which makes it possible for them to quickly install full pipe sections or portions of pipe sections, without necessarily moving the pipes or requiring the use of the commonly available large pipe grooving machinery that is remotely located from the installation site.
These and other objects of this invention will become apparent upon reading the following description, of which the attached drawings form a part.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The drawings illustrate a typical, large diameter plastic pipe 10 which is commonly used for a variety of purposes, as for example, for carrying water in underground installations. The pipes, for coupling purposes, are provided with grooves 11 near their ends (see
A hand-operated power tool 15 is used for cutting a groove in the pipe. The power tool may be powered by batteries or by a connection to a conventional field type of electrical generator. Preferably, batteries would be utilized for this tool.
The tool includes a guide track 16 which encircles the end of the pipe. The guide track serves to position and guide a cutter support carrier 17, and a conventional router-type cutter device 18 or the like.
The track is formed of a pair of half-circle segments 20 and 21 which are hinged together by hinges 22 (see
The free ends of the segments are releasably connected together by a common toggle lock 24 formed on one of the segments and engaging a toggle clasp 25 formed on the other segment. Thus, the segments may be pivotally swung open to engage around a pipe and then swing closed to encircle and snuggly fit around and tightly grasp the pipe for positioning the track (see
The track is formed with a ring 27 which closely engages the exterior surface of the pipe (see
The cutter support and guide includes a guide block 35 which enters into the channel 28 through the channel opening 32. The guide block 35 slides around the channel and traverses the circumference of the pipe. It is connected to the support block 41 whose lower surface 43 is curved to closely match the curvature of the surface of the pipe. A guide groove 44 is formed between the guide block 35 and the support block 41. Thus, it receives the free end of the outer radial flange 31. The guide block 35 has its upper surface 45 curved to match the curvature of the axially directed flange 30 of the channel.
A plate 47 is positioned on the upper surface of the support block 41 and fastened thereto by screws 48 (see
The hand-operated, power cutter tool 15 is attached to the plate 47. That tool may be a conventional router, which preferably is battery-powered, as mentioned above.
A slot 50 is formed in the support block 41. Thus, a shaft 52 extends downwardly from the router through the slot to the surface of the pipe. At the end of the shaft, a conventional cutter bit 53 is mounted for extending into and cutting the groove. The router tool can be any conventional, commercially available router or similar tool which has a cutter mechanism usable for this purpose.
The circular tracks may be formed in several pre-determined sizes which have curvatures to match commonly used size pipes. Thus, a workman might need one, two, three or four tracks for a job along with correspondingly sized cutter support and guide blocks to fit each of these tracks. Since, typical pipe systems utilize numerous pipes of the same diameters, additional guide blocks and carriers may not be needed.
Significantly, the grooving tool is simple in construction, is lightweight, and is relatively inexpensive. The tool is particularly useful in grooving pipe ends in the field without having to move the pipes elsewhere. The tracks and guides are inexpensive so that a workman can be inexpensively supplied with the one or more sizes needed for a particular pipeline and can carry a small number of extra sizes, if needed.
The particular size grooves that are cut are generally of a standard size when using commercially available coupling devices. Therefore, a single cutter with one or more appropriately sized cutter bits would be sufficient for all purposes in forming grooving in the field.
The foregoing describes a preferred embodiment of this invention. Thus, the specification should be read as being merely illustrative of an operative embodiment and not in a strictly limiting sense. Accordingly, we now claim: