US2596320A

US2596320A - Container and corner locking means therefor

Info

Publication number: US2596320A
Application number: US3856A
Authority: US
Inventors: James G Witte
Original assignee: WILLIAM I EVANS
Current assignee: WILLIAM I EVANS
Priority date: 1948-01-23
Filing date: 1948-01-23
Publication date: 1952-05-13
Anticipated expiration: 1969-05-13

Description

May 13, 1952 J. G. WIT-TE 2,596,320

CONTAINER AND CORNER LOCKING MEAN S THEREFOR Filed Jan. 23, 1948 2 SHEETS-SHEET 1 4. J m E m w/ r N F M m N m 4% m a r W H m W V L B WW 4 a U V a M Z M b 6 L 0 4.! 9 4 d 41 6M w P. 7 W

May 13, 1952 J. G. WlTTE CONTAINER AND CORNER LOCKING MEANS THEREFOR 2 SHEETS-SHEET 2 Filed Jan. 23, 1948 INVENITOR. W FWM Patented May 13, 1952 CONTAINER AND CORNER LOCKING MEAN THEREFOR James G. Witte, Wheaton, Ill., assignor to William I. Evans and Elias Blanco, Los Angeles,

Calif.

Application January 23, 1948, Serial No. 3,856

7 Claims. 1

This invention relates to structures and the method of joining one or more elements, and particularly to the construction of articles such as boxes, crates, and furniture without the use of nails, screws, glue, or the other usual means of attaching portions or sections of a structure.

In Evans and Blanco copending application, Ser. No. 589,390, filed April 30, 1945, now U. S. Patent No. 2,464,743 of March 15, 1949, a method of joining two or more elements to construct a shelf or shelves is disclosed and claimed. The present invention utilizes the joint of this copending application in the construction and assembling of boxes, crates, and furniture. It is used to join two elements lying side by side or parallel and to join two elements having their axes at right angles to one another. Specifically, the joining elements are in the form of spindles having flat-sided cylindrical sections of diiferent diameters or transverse dimensions. The cylindrical sections are inserted in holes having side openings or mouths, the spindles then being rotated approximately 90 degrees, which locks the elements having the holes therein in position. In boxes, crates, and furniture, the spindles may serve as braces or ties between vertical and horizontal stud and cross members. When the sides, top, and bottom of a box or crate are pre formed, the spindles are all that are required to complete the assembly without nails, screws, glue, clamps, or the like. It is only necessary to insert the spindles and rotate them to position as disclosed and claimed in the above-mentioned copending application.

The principal object of the invention, therefore, is to facilitate the construction and assembling of articles such as boxes, crates, furniture, and the like. 9

Another object of the invention is to provide an improved method of and means for joining a plurality of elements to assemble boxes, crates, furniture, and similar articles.

A further object of the invention is to provide an improved crate, box, and similar article.

A still further object of the invention is to provide an improved knock-down crate or box.

Although the novel features which are believed to be characteristic of this invention will be pointed out with particularity in the appended claims, the manner of its organization and the mode of its operation will be better understood by referring to the following description read in conjunction with the accompanying drawings, forming a part hereof, in which:

Fig. 1 is a perspective view of a crate or box embodying the invention.

Fig. 2 is a veiw of a corner section of the box of Fig. 1.

Fig. 3 is a perspective view of one form of the spindle used in the invention.

Fig. 4 is a cross-sectional view taken along the line 4-4 of Fig. 2.

Fig. 5 is a cross-sectional view taken along the line 5-5 of Fig. 2.

Fig. 6 is a cross-sectional view taken along the line 6-6 of Fig. 2.

Fig. 7 is an exploded view of the box as shown in Fig. 1.

Fig. 8 is a perspective view of a modification of the spindle of Fig. 3, and

Fig. 9 is a cross-sectional view of the spindle of Fig. 8 taken along the line 9-9 of Fig. 8.

Referring now to the drawings, in which the same numerals identify like elements, the box or crate shown has six sections; namely, two

side sections

5 and 6, two end sections 1 and 8, a bottom section 9, and a top section It). The side section 5 has a wall l3, which may be of any ma terial such as fiber board, card board, plywood, or the like, and attached to a plurality of uprights, such as end members l4 and I5 and a central member [6. If the crate is longer, more intermediate uprights may be used. The wall I3 and members l4, l5, and I6 are prefabricated in any suitable manner, such as by gluing or stapling. The side member 6 has a similar wall 20 and similar end members 2| and 22, and an intermediate member 23. A slight mortise is made at the ends of intermediate members l6 and 23, as shown at 25. The upright and cross members may be of wood, plastic, metal, or other material suitable for the construction of any desired article.

The end member I has a wall portion 121 and two

upright members

28 and 29, the wall 21 being suitably attached to

members

28 and 29. The other end section 8 is similarly fabricated. The bottom member 9 is in the form of a skid or platform on which any article to be boxed or crated is placed. It comprises two longitudinal runners 3| and 32, two end cross members 33 and 94, and an intermediate member 35 of which there may be several. The top member I0 is similarly constructed and has a wall 39, two longitudinal members 39 and 40, two

cross members

42 and 43, and an intermediate cross member 44. The

members

39, 40, 42, 43, and M are suitably prefabricated with nails, screws, or glue, and the wall 38 suitably attached thereto.

To attach the six

sections

5, 6, 1, 8, 9, and I0 together or, in other words, assemble them into a crate or box, eight spindles, such as shown in sections 53 and d of one certain diameter, an

intermediate section 55 of the same diameter, a short cylindrical section 56 of a smaller diameter, and a long cylindrical section 5'! of the same small diameter. Although the diameters 56 and 51 have been shown the same, they may be different, which is also true of

end sections

53 and 55,.it being necessary, however, to have the diameters of the end sections 53 and 54 larger than the diameters of sections 56 and 51. 'All sections 53 to 5'1, inclusive, have a common flat side, the remaining annular surface, however; being greater than 180 degrees; that is, this fiat surface may be any width, as long as it does not decrease the angle of the cylindrical surface. below 180 degrees. A cylindrical surface of substantially 200 degrees to 225 degrees is preferred. These spindlesmay be of wood, plastic, metal, or other suitable material, and'the flat side 59 may be corrugated, concave, orhave a design thereon.

Referring now to upright members l4, I5, 21, and 22, these members have holes drilled at the edges thereof at approximately 45 degrees to the vertical, the holes having two diameters which correspond to the diameters of

sections

53 and 55 of spindle 55. For instance, hole-60 has a large diameter section BI and a small diameter section 52, the diameter of section 6f being the same as the diameter of

section

55 or 53 of spindle 55 and the diameter of section 62 being the same as the diameter of sections 56 an'd 5l. Since the same sized spindle is used throughout, the diameters of the two sections of

holes

64, 65, and 66 are the same. This is also true of thejf'our holes in members and 22. Similar holes, such as shown at 6'8 and 69, are formed or drilled in

end members

42 and 53. of the top section [0, and holes, such as shown at 10 and H in

end members

33 and 34 of bottom section 9. These holes are shown drilled at approximately 45 degrees to the vertical, but other angles are workable. It will be noted that the holes have side openings or mouths through the edges of the respective membersjbut the length or width of the mouths of the side openings is less than the diameter ofthe holes. In other words, the annular surface of the holes extends through an angle greater than 180 degrees, and corresponds to the-respective annular surfaces of the various sections of the spindle 50. The dimension of the mouth, perpendicular to and between the edges of the mouths may be either the width or length of the side openings, depending upon the width of the. members in which the holes are placed. r 1

Referring now to the end sections 1 and 8, these sections have. holes, such as shown at 14 to 17, inclusive, in section I, of the same diameter drilled in their uprights and at the same angle as

holes

69, 5d, 65, and 66. Holes F4 to 11, inclusive, also have side openings or mouths, and their cylindrical surfaces correspond to that of section 51 of spindle 50.

To assemble the sections as shown in Fig. 7 to the box of Fig. 1, the

side sections

5 and 6 are first placed on the bottom section 9. One of the end sections is. then placed on section 9 and four spindles inserted. as shown in Fig. 1. Each spindle is inserted as. disclosed in the above mentioned copending application; that is, the axis of one of the spindles is made surface 59 and permits the spindle to pass into alignment when side 5, end 1, and bottom It are in position. The spindle is then moved into the h0les, the smaller dimensions of the spindle sections passingthrough the side openings or mouths to the holes. This smaller dimension, of course, is perpendicular to the flat the holes until the axis of the spindle and the axes of the holes coincide. The spindle is then rotated substantially 90 degrees until the fiat side 57 spans or is substantially flush with the face" of members I4, 29, and 33. The spindle could be rotated in the other direction so that the flat surface is within the hole, but the first mentioned position is preferred.

By this operation, the member is is attached or fastened to member 29, both of which are attached to member 33. Since the diameters of the cylindrical sections are larger than the length or width of the corresponding side openings or mouths to the holes, the spindles are transversely locked in position until rotated approximately 90- d'egreesr Since the end sections 53 and 54 have larger diameters than sections 55 or '51, and these correspond to hole

sections

61 and 62, for instance, the shoulders formed providea longitudinal lock'for the spindleand members M, 2.9, and 33. Thus, one corner is fastenedor attached, and the same pro-, cedure is followed for the lower left-hand corner to lock

members

21, 28, and 33. The end section 8 is then put in position, and the bottom vided, but the crate or box may be assembled in a shorter time period, and it may be knocked down or dis-assembled very quickly without injury to the prefabricated wall sections. The crate may, thus, be used many times, no damage being donein the assembling and unassembling thereof. These operations may be very quickly made, thus saving much time in the crating of manufactured articles to be shipped! When used for shipping, the well-known metal strap band may encircle the crate, the band not only preventingeasy opening, but maintaining the intermediate elements it and 23 in fixed position. The edges may also be sealed or covered with adhesive paper or cloth tape.

Although the invention has been disclosed as embodied in a crate or box, it is to be understood that it may also be used in the construction of furniture whereby the spindles may be covered by an outer side wall of veneer. When the joint is to be permanent, a drop of glue in the holes will provide a lock joint which will not loosen or separate. 7

Referring now to Figs. 8 and 9, the spindle 5| may have the same dimensions as the spindle 50; that is, ends BI and 82 correspond to ends 53 and 54, respectively, portions 8 1 and 85, to portions 56 and 51, respectively, portion 8i! to portion 55, and surface 88 to surface 59/ The difference between the two spindles is in the expanded portion or extension 90 on the portion 81. As shown in Fig. 9, this extension has a flat side 9| which is used for locking the spindle in position to prevent rotation thereof during use of the box or crate. against the wall of the section such as wall 21 and may be so positioned by a slight extra effort in the rotation of the spindle. Normally, the friction of the cylindrical surfaces will maintain the spindles in fixed position so that spindle 50 is satisfactory, but in case of much use, the locking spindle 5| is preferred.

Another feature of the spindles is that the length of sections 55 and 81 just span the distance between the members as shown at 94 and 95 in Fig. 2. This aids the spindles to resist forces which tend to decrease or increase the right angle position of the members such as [4 and 42. In tests, the strength of the corners is much superior to corners fastened by nails, screws, or glue, thus providing a particularly strong shipping crate or box for breakable or fragile articles.

It is also to be understood that, although the spindles have been shown as diagonal braces or ties, they may also extend as ties between side members, such as M and 2|, parallel to

members

33 and 42, or extend between

members

33 and 42 parallel to members I4 and 2|. The small stepped hole sections 6| and 62 to correspond to spindle sections 53 and 56 would be used except the holes would be at right angles to the edge surfaces of the respective members.

I claim:

1. A frame construction comprising a horizontal member having a hole therethrough, said hole having sections of two diameters and side openings through the edge of said member, the J perpendicular distances between the edges of said openings being less than the diameters of said sections, respectively, and the cylindrical surfaces of said holes extending through an angle greater than 180 degrees, a vertical member having a hole therethrough, said hole having sections of two diameters and side openings through the edge of said member, the perpendicular distances between the edges of said openings being less than the diameters of said sections and the cylindrical surfaces of said holes extending through an angle greater than 180 degrees, the axes of the sections of the holes in both ofsaid members being in aligmnent, and a spindle in said holes joining said members, said spindle having cylindrical end sections corresponding to the cylindrical sections of said holes having the larger diameters, intermediate cylindrical sections corresponding to the cylindrical sections of said holes having the smaller diameters, and a substantially flat side of a width approximately corresponding tothe perpendicular distance between the edges of said side openings.

2. A frame construction in accordance with claim 1, in which a third member is provided between said first mentioned members and hav ing a hole therein with its axis in alignment with said other holes, said hole having a side opening with a perpendicular distance between the edges of said opening less than the diameter of said hole and in which another diameter section of said spindle is positioned.

3. A frame construction in accordance with claim 1, in which a wall is attached to at least one of said members and said spindle is provided The flat side 9| lies 6 with an extension having a flat side in contact with said wall.

4. A container construction comprising top, bottom, andside sections having inter-engaging parts for positioning the section with respect to each other, and corner locking means between the adjacent sections including edge members on the sections having holes therein provided with side openings, said holes and openings having enlarged portions, the perpendicular distance between the edges of said side openings being less than the diameter of said holes and the cylindrical surfaces of said holes extending through an angle greater than degrees, the axes of the holes in the edge members of adjacent sections being in alignment. and a spindle receivable in the aligned holes for locking the adjacent sections, the parts of the spindle receivable in said holes being substantially cylindrical and corresponding to the cylindrical surfaces of said holes and having fiat sides of a width approximately corresponding to the perpendicular distance between the edges of said side openings and hav ing enlarged portions receivable in the enlarged portions of said holes.

5. A container construction comprising top, bottom, side, and end sections having inter-engaging parts for positioning the sections with respect to each other, and corner locking means between the adjacent top, bottom, and side sections and the end sections including edge members on the sections having holes therein provided with side openings, the holes and openings in the edge members of said top, bottom, and side sections having enlarged portions, the perpendicular distance between the edges of said side openings being less than the diameter of said holes and the cylindrical surfaces of said holes extending through an angle greater than 180 degrees, the axes of the holes in the edge members of the adjacent top, bottom, and side sections and the end sections being in alignment, and a spindle receivable in the aligned holes for locking the adjacent top, bottom, and side sections and the end sections, the parts of the spindle receivable in said aligned holes being substantially cylindrical and corresponding to the cylindrical surfaces of said holes and having fiat sides of a width approximately corresponding to the perpendicular distance between the edges of said side openings and having enlarged portions receivable in the enlarged portions of said holes.

6. A frame construction comprising a first member having a hole therein provided with a side opening through the edge of said member, said hole and opening having an enlarged portion, the perpendicular distance between the edges of said side opening being less than the diameter of said hole and the cylindrical surface of said hole extending through an angle greater than 180 degrees, a second member having a hole therein provided with a side opening through the edge of said member, said hole and opening having an enlarged portion, the perpendicular distance between the edges of said side opening being less than the diameter of said hole and the cylindrical surface of said hole extending through an angle greater than 180 degrees, the axes of the holes in said members being in alignment, and a spindle receivable in said holes for joining said members, the parts of the spindle receivable in said holes being substantially cylindrical and corresponding to the cylindrical surfaces of said holes and having fiat sides of a width approximately corresponding to the perpendicular distance between the edges of said side openings and having enlarged portions receivable in the enlarged portions of said holes.

7. A frame construction in accordance with claim 6, in which a third member is provided between said first and second members and having a hole therein with its axis in alignment with the axes of said other holes, said hole having a side opening with a perpendicular distance between the edges of said side opening less than the diameter of said hole and in which another part of said spindle is receivable.

JAMES G. WITTE.

' REFERENCES CITED The following references are of record in the file of this patent:

8 V UNITED STATES PATENTS Number Number Name Date Duryea 1 Sept. 11, 1860 Guttridge Dec. 1, 1903 McGowan Dec. 7, 1909 Hedden June 28, 1910 Stewart Dec. 5, 1911 Farmer Jan. 23, 1912 Cook Apr. 30, 1912 Jones Sept. 16, 1913 Cranston June 11, 1929 Beacher Apr. 28, 1931 Carpenter May 24, 1932 Delaney Aug. 9, 1932 Evans Mar. 15, 1949 FOREIGN PATENTS Country Date Great Britain 1905