Novel reaction fixtures and adaptors are known through recent patent application disclosures and applied to inverted applications such as for example underground mining, excavation and tunneling operations. Need exists for novel reaction fixture solutions for inverted socket head cap screw (SHCS) bolting applications, particularly joint closure at main stop valve (MSV) pressure seal heads.
Current methods require heavy and bulky equipment to hold the flange and torque power tools up to the joint-to-be-closed to tighten or loosen the threaded fasteners. Other methods include suspending the necessary equipment from adjacent structures, using articulated arms or other support fixtures. Often several operators are needed to carry out one tightening or loosening operation, which may take several hours of challenging work. Operator injuries also are prevalent.
What are needed are reaction mechanisms which overcome the deficiencies of the prior art.
The present invention has therefore been devised to address these issues.
Apparatus for use with a tool assembly in operations of tightening or loosening threaded fasteners about an axis are disclosed, and in one example includes: a lower clamp assembly; an upper clamp assembly; a reaction adaptor assembly; and a spring assembly formed between the upper clamp assembly and the reaction adaptor assembly. Advantageously an operator can tighten or loosen all fasteners without having to change the initial setup. of the apparatus. The lower clamp assembly eliminates the need for extra operators and heavy and bulky equipment to hold the apparatus near the fasteners. The upper damp allows the operator to rotate the apparatus around with ease. The spring assembly stabilizes and eases vertical height adjustment of the apparatus. The reaction adaptor substantially negates reaction turning forces of the tool assembly during the operations. Drive knobs provide easy alignment of and quick and safe mounting of the tool assembly on the fasteners. Bolting operations about an axis are completed faster, cheaper and with little or no risk of operator injury.
For a fuller understanding of the nature and advantages of the present invention, as well as the preferred mode of use, reference should be made to the following detailed description read in conjunction with the accompanying drawings:
Referring to
Apparatus 100 includes a lower clamp assembly 110, an upper clamp assembly 120, a reaction adaptor assembly 130 and a spring assembly 140 formed between upper clamp assembly 120 and reaction adaptor assembly 130. Lower clamp assembly 110, such as for example a fixed clamp, includes an annular hollow body 111 which has a first portion 112 and a second portion 113. First and second portions 112 and 113 are connected on one side by a hinge (not shown) and connected on the other side by a closing mechanism 114, such as for example a setscrew. Lower clamp assembly 110 is non-rotatably connected to and may have an interference fit against pipe stem 210 which prevents vertical and rotational movement upon installation. It supports the weight of the rest of apparatus 100 and tool assembly 300 which includes tools 310 and 320 and other ancillary components including hex sockets 311 and 321 and drive knobs 312 and 322. Lower clamp assembly 110 is used to set apparatus 100 and tool assembly 300 at a pre-determined height H100 needed to engage male hex sockets 311 and 321 in the cap screws of fasteners 230. Note that lower clamp assembly 110 has a height H110. Lower clamp assembly 110 makes the apparatus hands free after setup.
Upper clamp assembly 120, such as for example an adjustable clamp, includes an annular hollow body 121 which has a first portion 212 and a second portion 213. First portion 212 includes a platform 124. First and second portions 212 and 213 are connected in a similar manner as first and second portions 112 and 112 of lower clamp assembly 110. As shown in
Reaction adaptor assemblies are thoroughly disclosed and discussed in commonly owned international patent application PCT/US10/032139, having filing date of Apr. 23, 2010, that is entitled “Apparatus for Tightening or Loosening Fasteners” (the '139 Application), an entire copy of which is incorporated herein by reference. Such reaction adaptor assemblies are used in commerce under Applicant's trade name TWIN TORQUE®. Reaction adaptor assembly 130, a type similar to those described in the '139 Application, connects tools 310 and 320 such that the reaction forces created during operation are absorbed and cancel one another. The torque being applied to fasteners 230, and therefore the reaction forces, are substantially equal and opposite. Note that that various changes, combinations, alterations, and variations of aspects of the '139 Application may be used in conjunction with the present invention.
Formed between and connecting platform 124 of upper clamp assembly 120 and reaction adaptor assembly 130 is a spring assembly 140. Spring assembly 140 includes three spring coils with telescoping cores which allows reaction adaptor assembly 130 and therefore tools 310 and 320 and other ancillary components including hex sockets 311 and 321 and drive knobs 312 and 322 to move up and down. Spring assembly 140 keeps constant pressure on reaction adaptor assembly 130 and therefore tool assembly 300 to maintain engagement of male hex sockets 311 and 321 and SHCSs 230 at location 200. Furthermore spring assembly 140 allows male hex sockets 311 and 321 to be removed from SHCSs 230 upon loosening. An operator is able to remove male hex sockets 311 and 321 from one set of SHCSs 230 and rotate and replace the sockets onto another set of SHCSs 230. The operator can thus tighten all the SHCSs 230 at location 200 without having to change the initial setup.
During installation of apparatus 100 and tool assembly 300 about location 200, the operator installs lower clamp assembly 110 at pre-determined height H100 from flange 220. The operator then installs upper clamp assembly 120. Spring assembly 140 is installed between platform 124 of upper clamp assembly 120 and reaction adaptor assembly 130. Tools 310 and 320 are attached to reaction adaptor assembly 130 and male hex sockets 311 and 321 are installed on the drive shafts of the tools. The operator performs the reverse of this installation process to uninstall apparatus 100 and tool assembly 300 from location 200.
During operation of apparatus 100 the operator orients male hex sockets 311 and 321 with the female hex engagements of two of SHCSs 230 using drive knobs 312 and 322. Drive knobs 312 and 311 allow the operator to turn and position reaction adaptor assembly 130 without removing tools 310 and 320. These hexes, once aligned and positioned, will keep their engagement with the selected two SHCSs 230. The operator then tightens or loosens the selected two SHCSs 230 as desired. The operator disengages male hex sockets 311 and 321 from the selected two SHCSs 230 by applying pressure to spring assembly 140 then rotates upper clamp assembly 120 and therefore all other attached components to fit two other SHCSs 230 on flange 220. The operator repeats this operation process until all SHCS 230 are tightened or loosened.
Apparatus 100 includes: lower clamp assembly 110; upper clamp assembly 120; reaction adaptor assembly 130; and spring assembly 140 formed between upper clamp assembly 120 and reaction adaptor assembly 130. Advantageously the operator can tighten or loosen all of SHCSs 230 at location 200 without having to change the initial setup. of apparatus 100. Lower clamp assembly 110 eliminates the need for extra operators and heavy and bulky equipment to hold apparatus near location 200. Upper clamp 120 allows the operator to rotate apparatus 100 around pipe stem 210 with ease. Spring assembly 140 stabilizes and eases vertical height adjustment of apparatus 100. Reaction adaptor 130 substantially negates reactionturning forces of tool assembly 300 during the operations. Drive knobs 312 and 322 provide easy alignment of and quick and safe mounting of tool assembly 300 on SHCSs 230. Bolting operations about an axis are completed faster, cheaper and with little or no risk of operator injury.
Apparatus 100 is described in this specification for use with inverted SHCS bolting applications, particularly joint closure at MSV pressure seal heads. Apparatus 100, and modifications thereof, may be used with many other bolting applications.
When used in this specification and claims, the terms “comprises”, “includes” and variations thereof mean that the specified features, steps or integers are included. The terms are not to be interpreted to exclude the presence of other features, steps or components.
The features disclosed in the foregoing description, or the following claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately, or in any combination of such features, be utilized for realizing the invention in diverse forms thereof.
It is to be understood that the above is merely a description of preferred embodiments of the present application and that various changes, combinations, alterations, and variations may be made without departing from the true spirit and scope of the invention as set for in the appended claims. The reaction adaptors for torque power tools, tools having the adaptors, and methods of using the same of the present application are described in relation to fasteners and connectors as examples. However, the reaction adaptors for torque power tools, tools having the adaptors, and methods of using the same are viable for use in other residential, commercial, and industrial applications, as well as other devices all together. Few if any of the terms or phrases in the specification and claims have been given any special meaning different from their plain language meaning, and therefore the specification is not to be used to define terms in an unduly narrow sense.
This Application is a continuation and/or continuation-in-part application of the following U.S. and PCT applications, entire copies of which are incorporated herein by reference: Ser. No. 12/428,200, having filing date of Apr. 22, 2009, that is entitled “Reaction Adaptors for Torque Power Tools and Methods of Using the Same”; Ser. No. 12/574,784, having Filing date of Oct. 7, 2009, that is entitled “Reaction Adaptors for Torque Power Tools and Methods of Using the Same”; 61/261,378, having filing date of Nov. 16, 2009, that is entitled “Reaction Adaptors for Torque Power Tools”; 61/267,694, having filing date of Dec. 8, 2009, that is entitled “Apparatus for Tightening or Loosening Fasteners”; PCT/US10/032139, having filing date of Apr. 23, 2010, that is entitled “Apparatus for Tightening or Loosening Fasteners”; PCT/US10/56907, having filing date of Nov. 16, 2010, that is entitled “Apparatus for Tightening or Loosening Fasteners”; and 61/443,736, having filing date of Feb. 17, 2011, that is entitled “Apparatus for Tightening Threaded Fasteners”.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US12/25747 | 2/17/2012 | WO | 00 | 8/19/2013 |
Number | Date | Country | |
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61443736 | Feb 2011 | US |