|Publication number||US3606002 A|
|Publication date||Sep 20, 1971|
|Filing date||Feb 12, 1970|
|Priority date||Feb 12, 1970|
|Publication number||US 3606002 A, US 3606002A, US-A-3606002, US3606002 A, US3606002A|
|Inventors||James A Miller|
|Original Assignee||James A Miller|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (7), Classifications (14)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Sept. 20, 1971 J. A. MILLER 3,606,002
STABILIZER FOR A PLURALITY OF ABUTTING REGTILINEAR SURFACES Filed Feb. .12, 1970 2 Sheets-Sheet 1 lNV TOR ATTORNEY STABILIZER FOR A PLURALITY 0F ABUTTING RECTILINEAR SURFACES Filed Feb. .12, 1970 J. A. MILLER Sept. 20, 1971 2 Sheets-Sheet 2 ATTORNEY United States Patent O Int. Cl. B65g N14 US. Cl. 20665R 10 Claims ABSTRACT OF THE DISCLOSURE A stabilizer for a plurality of abutting rectilinear surfaces, so as to hold the surfaces in longitudinal and lateral alignment in a desired support plane, particularly a method for so stabilizing a plurality of squared spool ends. The stabilizer includes the notching one of two opposed abutting surfaces so as to define a cylindrical shoulder downwardly inclined away from one surface and its abutting with the other surface, then securing the abutting surfaces against lateral movement by imposing a cylindrical force within the aperture and securing the abutting surfaces against longitudinal movement by applying opposed lateral forces radially outwardly of said aperture on both sides of said abutting surfaces.
CROSS-REFERENCES TO RELATED APPLICATIONS A continuation-in-part of applicants Method for Stabilizing a Plurality of Abutting Rectilinear Surfaces, Ser. No. 816,205, filed Apr. 15, 1969. The present application is directed to a particular stabilizer apparatus disclosed in FIG. 6 of the parent application.
BACKGROUND OF THE INVENTION (1) Field of the invention Sheet fabric and sheet plastic, such as is trademarked Cellophane, Plyafilm, and Koraseal, are shipped conventionally on spools or mandrels supported in square end boards. A principal problem has been in stacking the spool end boards side-by-side and vertically one upon the other, while maintaining the end boards in lateral and longitudinal alignment. The end boards are made of hardboard or other material having thicknesses varying from /2 to 3 inches with a hole cut in the center of the board for attachment of the center pole or mandrel around which the material is wrapped. When several rolls are so stacked and shipped on a skid the end boards are inclined to slip out of longitudinal or lateral alignment, with the sharp cornered end board engaging and cutting into the adjacent fabric or plastic sheet material. The only effective albeit expensive, alternative has been to package each individual spool separately.
(2) Description of the prior art Prior art has not directed itself specifically to the problem of stabilizing a stack of squared spool ends, but has addressed itself to stabilizers or indexing means which fit "ice within complementary recesses in opposed crates or packages. Prior art searching has developed:
Lagasse, 1,782,307 McKelligon, 1,881,822 Chandonia, 2,198,106 Haack, 2,358,160 Pizzi, 2,998,940 Miller, 3,216,538 Cannon, 3,384,228
Lagasse is typical of the prior art concept of fitting stabilizers or indexing means within complementary recesses in opposed crates or packages. However, none of these prior inventors have approached applicants technique of providing both lateral and longitudinal stability in the abutting surfaces. Chandonia stabilizes baking pans by means of his triangular clips. Haack stabilizes beehives by means of a vertical dowel pin. Pizzi shows a reel-supporting pallet and Miller shows a bracket for securing metal awning panels.
Both McKelligon and Cannon relate to four sided boxes which are secured to each other by spools extending through at least two sides of the boxes. There are no vertically abutting surfaces, and no suggestion of inclined notching to keep spools from slipping out of vertically abutting surfaces.
SUMMARY OF THE INVENTION According to the present invention, a plurality of horizontally and vertically stacked spool ends are stabilized both laterally and longitudinally, so as to maintain the spool ends within a limited vertical plane. Within the abutting surfaces of the spool ends complementary notches are cut so as to define a cylindrical aperture. One side of the spool end is provided with an inclined notch which is used to secure a locking spool end in vertical alignment with another vertically aligned and abutting surface. The abutting surfaces adjacent the aperture are secured against lateral movement by imposing a cylindrical force in said aperture and they are secured against longitudinal movement by applying opposed lateral forces radially outwardly of said aperture on the inside and outside of the abutting surfaces. A suggested stacking stabilizer includes a cylindrical core having peripherally extending flanges at either end so as to define an annular recess about the core. The core is inserted within the cylindrical notch defined in the opposed abutting surfaces and the peripherally extending flanges abut the front and rear of the abutting surfaces radially outwardly of the aperture, so as to support the spool ends in longitudinal alignment.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a proposed stacking stabilizer construction;
FIG. 2 is a perspective view of four rolls of film material having their end boards stabilized laterally and longitudinally, according to the present invention;
FIG. 3 is a vertical sectional view of the four end boards stacked in FIG. 2;
FIG. 4 is a fragmentary enlarged vertical section of the FIG. 1 lateral stabilizer positioned within a cylindrical aperture defined in abutting surfaces of the end boards in FIG. 2;
FIG. 5 is fragmentary enlarged vertical section showing the stacking stabilizer positioned in an inclined notch defined in one of two vertically abutting surfaces, the inclined notch preventing the stabilizer from slipping out, as the abutting surfaces are parted;
FIG. 6 is a like vertical section showing inclined notching of the spool end board wherein the abutting surfaces are aligned against longitudinal displacement by positioning a stabilizer in a modified and inclined notch defined in one of the abutting surfaces;
FIG. 7 is a transverse section taken along section line 77 of FIG. 3;
FIG. 8 is a vertical section taken along section line 88 of FIG. 3; and
FIG. 9 is a front elevation of a proposed spool end board, having an axial aperture for the mandrel or spool and stabilizer notches defined in three of its four sides.
DESCRIPTION OF THE PREFERRED EMBODIMENTS In FIG. 1, a proposed stacking stabilizer is illustrated as comprising a cylindrical core 12 having peripherally extending flanges 14 and 16 at either end of the core. Flanges 14 and 16 define an intervening annular recess. Dimensions of core length, diameter, and the peripheral flanges, of course, may be varied to suit a variety of end board materials.
In FIG. 2, stacking stabilizers of the type illustrated in FIG. 1 are shown positioned in the abutting rectilinear surfaces of the spool end boards. In FIGS. 2 and 3, four spools 18 positioned in end boards 20, 24, 26, and 28 are shown as laterally and longitudinally aligned by the use of the stacking stabilizers 42, 44, 46, 48, 50', 55, 57 and 58. As illustrated in FIG. 4, stacking stabilizer 42 is shown positioned in complementary notches 30 and 32 defined in the opposed abutting surfaces of end boards 20 and 26, so as to define a cylindrical aperture 43. The stabilizer core 12 is thrust longitudinally through the aperture and the stabilizer periperal flanges 16 and 14 abut, respectively, the inside and the outside of the end board 20 and 26 surfaces. Lateral slipping of end boards 20 and 26 is prevented by the core extending through the opposed abutting surface line 33 and longitudinal slipping is prevented by the flanges 16 and 14 abutting the inside and outside of the end board.
In FIG. 5, this concept of stabilizing vertically abutting surfaces is further carried out wherein a modified inclined notch 36 is formed in end board 20. The inclined notch shoulder 37 prevents the core 12 from slipping out and falling, as the end boards are separated. In normal practice the end boards are separated one by one hence the necessity for a vertical retainer means such as shoulder 37.
In FIG. 6, the basic inclined notch is illustrated wherein increased stability is obtained by having an inclined notch 38 with a partially cylindrical base defined in end board 20 so that spool 12 does not fall out of place, as one of the spool end boards is removed from the pack illustrated in FIG. 2.
In the FIG. 7 transverse sectional view, stacking stabilizers 42, 44, 46, 48, and the lower stabilizer 50 are shown positioned in end boards 26 and 28 each having an axial aperture 22 for receipt of the spool mandrel.
In FIG. 8, vertical stabilizers 58 and 50 are illustrated as engaging end boards 20 and 26.
As shown in FIG. 2, an optional securement consists in the use of elastic lines 62 and 64 which may be inserted through the aperture 22 and through the mandrels (not illustrated) Manifestly, the proposed method provides both longitudinal and lateral stability while permitting the end boards or spool ends to be removed quickly and separately. The stabilizers are positioned easily by inserting them first in one notch and moving the other spool end board into abutment, so as to achieve a positive lock.
The present method eliminates the necessity for further securement by ordinary straps of steel or other tie lines. The stabilizer may be made from two steel straps welded together. However, the stabilizer may be plastic-molded. The dimensions of the spool and notches may be varied without departing from the spirit of invention.
1. Stabilizer for a plurality of abutting rectilinear surfaces comprising:
(A) at least two abutting end boards, each end board having:
(i) a plurality of semi-cylindrical notches in its sides;
(ii) an inclined notch in at least one side defining a cylidnrical seat adjacent said one side; and
(B) a plurality of spools for said semi-cylindrical notches and said inclined notches, said spools having:
(i) a cylindrical axis seatable complementally in opposed semi-cylindrical notches, as well within said cylindrical seat;
(ii) peripheral flanges at each end of said axis, extending at right angles to said cylindrical axis and defining an intervening annular recess engageable with the front and back of said end boards.
2. A stabilizer for a plurality of abutting rectilinear surafces as in claim 1, said annular recess in said spools being of the same width as said end boards.
3. A stabilizer for a plurality of abutting rectilinear surfaces as in claim 2, said semi-cylindrical notches being defined at the top and bottom of said end boards and said inclined notch being defined at a vertical side thereof.
4. A stabilizer for a plurality of abutting rectilinear surfaces as in claim 2, said end board including a central core recess for mounting an article to be supported within opposed and longitudinally spaced end boards.
5. A stabilizer for a plurality of abutting rectilinear surfaces as in claim 4, said inclined notch including an outer shoulder extending above the mid-point of said cylindrical seat, intermediate said seat and said side.
6. A stabilizer for a plurality of abutting rectilinear surfaces as in claim 4, one opposed abutting rectilinear surface extending vertically into said cylindrical seat within the inclined notch of another opposed rectilinear surface.
7. A stabilizer for a plurality of abutting rectilinear surfaces as in claim 6, said spool flanges overlapping said abutting vertical surfaces.
8. A roll of sheet material comprising:
(A) a mandrel upon which said roll of said sheet material is rolled;
(B) a pair of end boards, each end board having:
(i) a central core engaging and supporting an end of said mandrel;
(ii) a plurality of semi-cylindrical notches in its sides;
(iii) an inclined notch in at least one side defining a cylindrical seat adjacent said one side; and
(C) a plurality of spools for said semi-cylindrical notches and said inclined notches, said spools having:
(i) a cylindrical axis seatable complementally in opposed semi-cylindrical notches in abutting end boards, as well as within said cylindrical seat;
(ii) peripheral flanges at each end of said axis, extending at right angles to said cylindrical axis and defining an intervening annular recess encompassing a cross-section of said abutting boards and the flanges being engageable with the front and back of said abutting end boards.
9. A plurality of stacked rolls of sheet material as in claim 8, such that their end boards abut in a rectilinear plane and are stabilized with respeet to each other by means of said spools;
5 10. A plurality of stacked rolls of sheet material as in claim 9, said end boards in a single rectilinear plane being further stabilized with respect to each other by means of a cord extending through adjacent cores and over the front and back of said end boards.
References Cited UNITED STATES PATENTS 1,881,822 10/1932 McKelligon 2207 6 2,698,571 1/1955 Harrison 214-l0.5X 3,384,228 5/1968 Cannon 206-65 GERALD M. FORLENZA, Primary Examiner 5 F. E. WERNER, Assistant Examiner US. Cl. X.R.
|Citing Patent||Filing date||Publication date||Applicant||Title|
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|U.S. Classification||206/391, 206/416, 206/821, 206/493, 206/504, 206/585, 206/509|
|International Classification||B65D85/62, B65D71/02|
|Cooperative Classification||B65D85/62, Y10S206/821, B65D71/02|
|European Classification||B65D85/62, B65D71/02|