Claims
- 1. A method for checking reciprocative devices (10) including door closer systems (10) comprising a rod (16) that functions reciprocatively from within a body (12) having a biasing means (11), that, upon extension of said rod (16) from within said body (12), said device (10) normally acting to control the reciprocation of said rod (16); said checking is performed frictionally by means of a checking mechanism (22) composed of a predetermined, hardened and tempered sheet metal gauge (37) for mounting axially (17) onto said rod (16), comprising an aperture configuration (26) bounded within a central structure (34) disposing a fulcrum locus (26-A) opposing a counter locus (26-B), both diametrically composed upon a common axis of symmetry (32) and each providing at least one substantial opposing friction point (28) for urging upon the surfaces (16-A) (16-B) of said rod (16) a substantial direct frictional pressure (29) created within an axial plane (30); said mechanism (22) further including at least one trigger appendage (38) angularly attached to said central structure (34) to form a fixated joint (42) projectable by projecting one axis (42-A) upon the face of said central structure (34), and projecting the other axis (42-B) from the origin of said fixated joint (42); said trigger appendage (38) disposing a trigger point (40) to abut against said body (12) upon a trigger plane (42-C) projected from the origin axis (42-B) and projected to the abutting trigger point (40); wherein said common axis of symmetry (32) coincides upon a diametric cross-section of said rod (16) engaged thereto, comprising the steps of
- applying a force (11-A) to cause the rod (16) to be at least partially extended from within said body (12), thereby creating a reciprocative counter-force (11-B);
- leveraging said mechanism (22) to pivotally engage (24) said rod (16) responsive to said trigger point (40) abutting said body (12), wherein said trigger plane (42-C) comprises the means to substantially vary as the abutting trigger point (40) also varies upon the surface of said trigger appendage (38), and wherein the distance from said trigger point (40) to a friction point (28) upon said fulcrum locus (26-A) comprises a substantially greater distance than the distance between the opposing friction points (28) within the loci (26-A) and (26-B);
- torquing said surfaces (16-A) (16-B) of said rod (16) between said opposing friction points (28) within the loci (26-A) and (26-B), to comprise a cross-sectional distance created between the points (28) which is substantially less than the cross-sectional diameter of said rod (16) upon said common axis of symmetry (32);
- urging said points (28) upon the rod surfaces (16-A) (16-B) wherein said direct frictional pressure (29) within said axial plane (30) is not in substantial linear alignment upon said common axis of symmetry (32);
- resisting the movement of said biasing means (11) normally acting to control the reciprocation of said rod (16), responsive to said direct frictional pressure (29) urged between said opposing friction points (28).
- 2. The method for checking reciprocative devices (10) of claim 1, wherein
- said step of leveraging said mechanism (22) is performed by said trigger appendage (38) comprising a substantial curvature surface selected from the group consisting of an substantial arching, ovoid, and convex design (40-A), an installed pad or clip (40-B), and an adjustable screw means (40-C), whereby said curvature surface is also projected from said origin axis (42-B) and projected to the abutting trigger point (40).
- 3. The method for checking reciprocative devices (10) of claim 1, wherein
- said fixated joint (42) angularly attaching said trigger appendage (38) onto said central structure (34) comprising an angle at substantially 90 degrees or less.
- 4. The method for checking reciprocative devices (10) of claim 3, wherein
- said fixated joint (42) further comprising a strengthening means (43) selected from the group consisting of tempering, hardening, and crimping.
- 5. The method for checking reciprocative devices (10) of claim 1 wherein
- said loci (26-A) and (26-B) are composed upon separate and variable bodies comprising said central structure (34), whereby varying the distance between said opposing points (28) within said axial plane (30).
- 6. A checking mechanism (22) composed of a predetermined, tempered and hardened metal gauge (37) for frictionally checking reciprocative devices (10) including door closer systems (10) comprising a rod (16) that functions reciprocatively from within a body (12) having a biasing means (11), that, upon displacement of said rod (16) from within said body (12), said device (10) normally acting to control the reciprocating of said rod (16); said checking mechanism (22) axially (17) mountable onto said rod (16) wherein a common axis of symmetry (32) coincides upon a diametric cross-section of said rod (16) engaged thereto, comprising
- an aperture configuration (26) bounded within a central structure (34) disposing a fulcrum locus (26-A) opposing a counter locus (26-B), both diametrically composed upon said common axis of symmetry (32) and each providing at least one substantial opposing friction point (28) for urging upon the surfaces (16-A) (16-B) of the rod (16) a substantial direct frictional pressure (29) created within an axial plane (30);
- a trigger appendage (38) for abutting against said body (12) disposing a trigger point (40) upon a variable trigger plane (42-C) projecting from an axis (42-B) originating an angular fixation of said trigger appendage (38) onto said central structure (34), and projected to the abutting trigger point (40), wherein said trigger plane (42-C) comprising the means to vary substantially as said abutting trigger point (40) also varies upon the surface of said trigger appendage (38);
- said angular fixation comprising a fixated joint (42) to form an angle of substantially 90 degrees or less comprising an axis (42-A) projected upon the face of said central structure (34), and comprises the other axis (42-B) projected from the origin said fixated joint (42).
- 7. The checking mechanism (22) for frictionally checking reciprocative devices (10) of claim 6 wherein
- said fixated joint (42) further comprising a strengthening means (43) selected from the group of tempering, hardening, and crimping.
- 8. The checking mechanism (22) for frictionally checking reciprocative devices (10) of claim 6 wherein
- the distance between the opposing points (28) within the opposing loci (26-A) and (26-B) comprises a substantially lesser distance than the distance between the trigger point (40) to the fulcrum locus (26-A).
- 9. The checking mechanism (22) for frictionally checking reciprocative devices (10) of claim 6 wherein
- said trigger appendage (38) comprises a substantial curvature surface disposing said trigger point (40) thereupon, selected from the group consisting of a substantial arching, ovoid, and convex design (40-A), an installed pad and clip (40-B), and an adjustable screw means (40-C), whereby said curvature surface is also projected from said origin axis (42-B) and projected to the abutting trigger point (40).
- 10. The checking mechanism (22) for frictionally checking reciprocative devices (10) of claim 6 wherein
- said opposing friction points (28) comprising a modification selected from the group of tempering, hardening, plating, coating, tipping, and separately inserting said points (28) into said central structure (34).
- 11. The checking mechanism (22) for frictionally checking reciprocative devices (10) of claim 6 wherein
- said central structure (34) forming said aperture (26) so shaped to comprise that certain areas which do not define said opposing friction points (28) dispose notches (36) to expand said aperture (26), wherein said mechanism (22) may mount upon a rod (16) comprising diametrically widened supporting hub (18) or protruding lugs (20) greater than the diameter of said rod (16).
- 12. The checking mechanism (22) for frictionally checking reciprocative devices (10) of claim 6 further comprising
- said central structure (34) separated upon different bodies, wherein the distance between said opposing points (28) within said loci (26-A) and (26-B) comprise variability within said axial plane (30).
- 13. An improved checking mechanism (22) for checking reciprocative devices (10) including door closer systems (10) comprising a rod (16) that functions reciprocatively from within a body (12) having a biasing means (11), that, upon extension of said rod (16) from within said body (12), said device (10) normally acting to control the reciprocation of said rod (16); said checking is performed frictionally by means of a checking mechanism (22) for mounting axially (17) onto said rod (16), comprising an aperture configuration (26) bounded within a central structure (34) disposing a fulcrum locus (26-A) opposing a counter locus (26-B), both diametrically composed upon a common axis of symmetry (32) and each providing at least one substantial opposing friction point (28) for urging upon the surfaces (16-A) (16-B) of said rod (16) a substantial direct frictional pressure (29) created within as axial plane (30); said mechanism (22) further including at least one trigger appendage (38) angularly attached to said centrol structure (34) to form a fixated joint (42) projectable by projecting an axis (42-A) upon the face of said central structure (34), and projecting the other axis (42-B) from the origin of the fixated joint (42); said trigger appendage (38) disposing a trigger point (40) to abut against said body (12) upon a trigger plane (42-C) projected from the origin axis (42-B) and projected to the abutting trigger point (40); wherein said common axis of symmetry (32) coincides upon a diametric cross-section of said rod (16) engaged thereto, in combination the improvements comprising
- the opposing friction points (28) comprise a modification means selected from the group of tempering, hardening, plating, coating, tipping, and a separate insertion into said central structure (34);
- the surface of said trigger appendage (38) disposing said trigger point (40) upon said trigger plane (42-C) variably, wherein said trigger plane (42-C) comprising the means to substantially vary as said abutting trigger point (40) varies upon the surface of said trigger appendage (38);
- said fixated joint (42) composed to form an angle of substantially 90 degrees or smaller, and said fixated joint (42) further comprising a strengthening means (43) selected from the group of tempering, hardening, and crimping;
- whereby said improvements comprise a superior checking mechanism (22) for frictionally checking said device (10), by providing the maximum direct frictional pressure (29) created between said opposing points (28) within said axial plane (30).
- 14. The improved checking mechanism (22) of claim 13 wherein
- said surface of said trigger appendage (38) disposing said trigger point (40) comprises a substantial curvature surface selected from the group consisting of a substantial arching, ovoid, and convex design (40-A), an installed pad and clip (40-B), and an adjustable screw means (40-C) whereby said curvature surface is also projected from said origin axis (42-B) and projected to the abutting trigger point (40).
- 15. The improved checking mechanism (22) of claim 14 wherein
- the distance between said trigger point (40) to the fulcrum locus (26-A) comprise a substantially greater distance than the distance between the opposing points (28) within the opposing loci (26-A) and (26-B).
- 16. The improved checking mechanism (22) of claim 13 wherein
- said central structure (34) forming said aperture (26) so shaped to comprise that certain areas which do not define said opposing friction points (28) dispose notches (36) to expand said aperture (26), wherein said mechanism (22) may mount upon a rod (16) comprising diametrically widened supporting hub (18) or protruding lugs (20) greater than the sectional diameter of said rod (16).
- 17. The improved checking mechanism (22) of claim 13 wherein
- said central structure (34) separated upon different bodies, wherein the distance between said opposing points (28) within said loci (26-A) and (26-B) comprises the means for variability within said axial plane (30).
- 18. The improved checking mechanism (22) of claim 13 wherein
- composition for said mechanism (22) selected from the group of natural and synthetic metals, fibers, ceramics, and plastics.
Parent Case Info
This is a division of Ser. No. 08/677,101, filed on Jul. 9, 1996 (07-09 -96), now abandoned.
US Referenced Citations (9)
Foreign Referenced Citations (1)
Number |
Date |
Country |
623038 |
Apr 1961 |
CAX |
Divisions (1)
|
Number |
Date |
Country |
Parent |
677101 |
Jul 1996 |
|