JACK BOLT ACTIVATED TENSILE STRENGTH TEST MACHINE

Abstract

A tensile strength testing machine comprises a frame assembly that defines a test zone. The frame assembly includes a frame member that has first and second opposed ends. The ends have inner sides that generally face one another across the test zone, and outer sides that are generally opposed to one another and the test zone. An arbor element is mounted for generally axial movement relative to the first end. The arbor element is slidably mounted in the first end. The arbor element projects inwardly into the test zone and outwardly from the outer side of the first end. The arbor element is adapted to being attached to a test specimen, which mounted in the test zone. A portion of the arbor element that projects outwardly from the outer side of the first end is generally surrounded by an array of jack bolts. The jack bolts are threadably mounted in a collar member that is substantially axially fixed relative to the arbor element. The jack bolts are positioned to bear generally against the outer side of the first end. Typically, at least a thrust collar, and, preferably, a load determining assembly are interposed between this outer side and the bearing ends of the jack bolts. Torquing down the jack bolts against the outer side of the first end places the arbor element in tension. This tensile load is applied to a test specimen mounted in the test zone, and the magnitude of the load is determined.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention provides its benefits across a broad spectrum of tensile strength testing machines. While the description which follows hereinafter is meant to be representative of a number of such applications, it is not exhaustive. As those skilled in the art will recognize, the basic apparatus taught herein can be readily adapted to many uses. This specification and the claims appended hereto should be accorded a breadth in keeping with the scope and spirit of the invention being disclosed despite what might appear to be limiting language imposed by the requirements of referring to the specific examples disclosed.

Referring particularly to the drawings for the purposes of illustrating the invention and its presently understood best mode only and not limitation:

FIG. 1 is an exploded perspective view of a preferred embodiment of the tensile strength testing machine invention with a swiveling hoist ring test specimen mounted therein.

FIG. 2 is an exploded perspective view of the arbor assembly, without the arbor element, of the embodiment of FIG. 1.

FIG. 3 is a front view of the tensile strength testing machine of FIG. 1.

FIG. 4 is a side view of the tensile strength testing machine of FIG. 1.

Claims

1. A tensile strength testing machine comprising: a frame assembly including a crosshead element, a footing element, and at least two column elements engaged with and extending between said crosshead and footing elements and adapted to maintaining said crosshead and footing elements spaced from one another;an arbor assembly mounted to said crosshead element and including an arbor element extending axially slidably through said crosshead element from a first to a second side thereof, a first specimen mounting fixture attached to said arbor element on said second side, a thrust collar element mounted around said arbor element on said first side in a generally axially fixed position relative to said crosshead element, a load imposing flange element adapted to being mounted around said arbor element on said first side in a generally axially fixed location relative to said arbor element and having a plurality of threaded bores extending therethrough, a plurality of jack bolts threadably received in said threaded bores and adapted to bearing axially on said thrust collar element;a load measuring member measuringly associated with said arbor element;a load indicating member indicatingly associated with said load measuring member; anda mounting fixture assembly mounted to said footing element and including a second specimen mounting fixture, said first and second specimen mounting fixtures being adapted to securing a test specimen therebetween in a tensile strength testing configuration.

2. A tensile strength testing machine of claim 1 wherein said crosshead and footing elements are adjustably spaced from one another.

3. A tensile strength testing machine of claim 1 wherein said load measuring member comprises a load cell located on said first side.

4. A tensile strength testing machine of claim 1 wherein said load measuring member comprises a strain gauge measuringly associated with said arbor element.

5. A tensile strength testing machine comprising: a frame assembly including a crosshead element, a footing element, and at least two column elements engaged with and extending between said crosshead and footing elements and adapted to maintaining said crosshead and footing elements adjustably spaced from one another, said crosshead element having a first side generally opposed to said footing element, and a second side generally facing said footing element;an arbor assembly mounted to said crosshead element and including an arbor element axially slidably mounted to said crosshead element, a first specimen mounting fixture attached to said arbor element on said second side, a thrust collar element mounted around said arbor element in a generally axially fixed position relative to said crosshead element on said first side, a load imposing flange element adapted to being mounted around said arbor element in a generally axially fixed location relative to said arbor element on said first side and having a plurality of threaded bores extending therethrough, and a plurality of jack bolts threadably received in said threaded bores and adapted to bearing axially on said thrust collar element; anda mounting fixture assembly mounted to said footing element and including a second specimen mounting fixture, said first and second specimen mounting fixtures being adapted to securing a test specimen therebetween in a tensile strength testing configuration.

6. A tensile strength testing machine for imposing a tensile load on a test specimen mounted in a test zone comprising: a frame assembly including generally opposed first and second ends, each of said ends having an inner side and an outer side, said inner sides generally facing one another across said test zone and said outer sides being generally opposed to one another, said frame assembly having an axis extending generally between said ends through said test zone;an arbor assembly mounted to said first end, said arbor assembly including an arbor element extending generally axially from said outer side of said first end into said test zone, a first specimen mounting fixture mounted to said arbor element and located generally in said test zone, a thrust receiving element supported by said outer side of said first end, a load imposing flange element generally around said arbor element and supported by said arbor element axially outwardly of said outer side of said first end, a plurality of threaded bores extending generally axially through said load imposing flange, and a plurality of jack bolts threadably engaged with said threaded bores and positioned to bear in compression against said thrust receiving element;a mounting fixture assembly secured to said second end and extending into said test zone, said mounting fixture assembly including a second specimen mounting fixture, said first and second specimen mounting fixtures being adapted to holding said test specimen in a tensile strength testing configuration in said test zone; anda load determining assembly adapted to determining a tensile load that has been applied to said test specimen.

7. Method of imposing a tensile load on a test specimen comprising: providing a frame assembly including generally opposed first and second ends, an arbor assembly mounted to said first end, a mounting fixture assembly mounted to said second end, said arbor assembly and mounting fixture being adapted to holding a test specimen therebetween in tensioning configuration, said arbor assembly including an arbor element with a shank portion and a thrust receiving element mounted around said shank portion in a generally axially fixed position relative to said first end;providing a load imposing flange element mounted around and in generally axially fixed position to said arbor element, said load imposing flange element including an array of threaded bores extending generally axially therethrough;providing a plurality of jack bolts threadably received in said threaded bores and positioned to bear generally axially against said thrust receiving element;mounting said test specimen in said tensioning configuration;applying a tensile load to said test specimen by threadably tightening said jack bolts against said thrust receiving element; anddetermining when said tensile load has been applied to said test specimen.

8. Method of imposing a tensile load on a test specimen comprising: providing a frame assembly including first and second ends mounted in a spaced apart relationship with a test zone therebetween, an arbor assembly mounted to said first end, said arbor assembly including an arbor element having a shank portion, a thrust receiving element generally around said shank portion and supported by said first end on an outer side of said first end, said outer side being opposed to said test zone, a load imposing flange element located on said outer side generally around and supported by said arbor element, a plurality of threaded bores extending generally axially through said load imposing flange, and a plurality of jack bolts threadably engaged with said threaded bores and positioned to bear in compression against said thrust receiving element, said arbor element extending from said outer side into said test zone;mounting said test specimen in said test zone in a tensioning configuration between said arbor element and said second end;applying a tensile load to said test specimen by threadably tightening said jack bolts against said thrust receiving element; anddetermining when said tensile load has been applied to said test specimen.

9. Method of imposing a tensile load on a test specimen of claim 8 wherein said determining includes providing a load cell positioned to receive a compressive load that is generated by said threadably tightening.

10. Method of imposing a tensile load on a test specimen of claim 8 wherein said determining includes torquing said jack bolts to a predetermined value.

11. Method of imposing a tensile load on a test specimen of claim 8 wherein said determining includes providing a strain gauge measuringly associated with said shank portion.

12. Method of imposing a tensile load on a test specimen comprising: selecting a said test specimen;providing a frame assembly that defines a test zone and includes a frame member that has an outer side generally opposed to said test zone;providing an arbor element that is mounted for generally axial movement relative to said outer side;allowing said arbor element to project inwardly into said test zone and outwardly from said outer side of said frame member;mounting said test specimen in said test zone including attaching said test specimen to said arbor element;generally surrounding a portion of said arbor element that projects outwardly from said outer side with an array of jack bolts threadably mounted in a collar member that is axially fixed relative to said arbor element; andapplying said tensile load to said specimen by tightening said jack bolts generally against said outer side.

13. A tensile strength testing machine comprising: a frame assembly that defines a test zone and includes a frame member having an outer side generally opposed to said test zone;an arbor element mounted for generally axial movement relative to said outer side, said arbor element projecting inwardly into said test zone and outwardly from said outer side and adapted to being attached to a test specimen mounted in said test zone; anda portion of said arbor element that projects outwardly from said side and being generally surrounded by an array of jack bolts threadably mounted in a collar member that is substantially axially fixed relative to said arbor element, said jack bolts being positioned to bear generally against said outer side.