US3697103A

US3697103A - Telescopic tube locking and unlocking system

Info

Publication number: US3697103A
Application number: US86575A
Authority: US
Inventors: William D Mostyn
Original assignee: Defense Australia
Current assignee: Defense Australia
Priority date: 1970-11-03
Filing date: 1970-11-03
Publication date: 1972-10-10
Anticipated expiration: 1989-10-10

Abstract

A telescopic tube locking and unlocking system in which one square tube is slidable within another square tube of larger diameter. The outer tube is provided with a transverse slot and a pin mounted in a slide which slides laterally in a guideway plate fixed to the wall of the outer tube. The pin extends through the slot to engage the edges of a series of vertically arranged and vertically spaced cams fixed to at least one wall of the inner tube. By pulling the tubes apart then pushing them together the pin cooperates with the cams to lock the inner tube in an extended position or permit telescoping thereof in the outer tube.

Description

United States Patent Mostyn [541 TELESCOPIC TUBE LOCKING AND UNLOCKING SYSTEM [72] lnventor: William D. Mostyn, Canberra, Australia [73] Assignee: The Government of the Commonwealth of Australia as represented [58] Field of Search ..285/396, 302, 303, 362, 361,

[56] References Cited UNITED STATES PATENTS 1,278,100 9/1918 Bruning ..287/58 CT 2,799,344 7/1957 Muse ..285/396X [451 Oct. 10,1972

2,884,270 Carlberg ..287/58 Cl 3,097,001 7/1963 Le Bus ..285/

36l

3,21 1,479 10/1965 Brown ..285/360 3,470,524 9/1969 Culver ..285/362 X Primary Examiner-Thomas F. Callaghan Attorney-Harry M. Saragovitz, Edward J. Kelly, Herbert Berl and Robert P. Gibson ABSTRACT A telescopic tube locking and unlocking system in which one square tube is slidable within another square tube of larger diameter. The outer tube is provided with a transverse slot and a pin mounted in a slide which slides laterally in a guideway plate fixed to the wall of the outer tube. The pin extends through the slot to engage the edges of a series of vertically arranged and vertically spaced cams fixed to at least one wall of the inner tube. By pulling the tubes apart then pushing them together the pin cooperates with the cams to lock the inner tube in an extended position or permit telescoping thereof in the outer tube.

6 Clains, 5 Drawing Figures PATENTEMBI 10 I972 SHEET 1 [IF 2 I NVENTOR M m m p w .W J% m MJM w M #2 w 1 TELESCOPIC TUBE LOCKING AND UNIDCKING SYSTEM The invention described herein may be manufactured, used and licensed by or for the Government for governmental purposes without the payment to me of any royalty thereon.

The present invention relates to a telescopic tube locking and unlocking system and more particularly to a mechanism by which one or more telescopic tube sections may be locked or unlocked in an extended position automatically by a single pull-push action and is designed for tubes having flat sides, i.e., tubes that are of square, triangular, etc. in cross section, such as masts, adjustable legs for furniture and the like.

Previous telescoping tubes having means to maintain sections in extended position are round in cross section and require rotation of one of the sections to operate them. This is often not practical since rotation of the telescoping tube would cause whatever load it was supporting to be rotated also, such as a table top or an antenna. Furthermore, a telescoping flat sided tube section which is slidable within another flat sided tube section is not capable of rotation for locking or unlocking.

The present invention eliminates the need for rotation of the tube sections by providing a series of pattern cam plates that are fixed to one or more sides of the inner tube and a laterally sliding pin mounted on the outer tube which engages the edges of the cams so that by a simple pull-push of the inner tube it may be locked in an extended position or collapsed within the outer tube.

It is therefore an object of this invention to provide a mechanism to enable locking or unlocking telescoping tubes having flat sides in extended positions automatically by a pull-push motion of the tubes.

It is another object to provide a series of pattern cams vertically spaced and fixed to a side wall of a flat sided telescoping tube and a laterally slidable pin mounted in a flat sided socket tube whereby when the tubes are pulled apart, the pin will travel through a complete cycle to maintain the telescoping tube in an extended position and when the motions are repeated the telescoping tube may be collapsed within the socket tube.

Still another object is to provide quick and automatic action in the extension or collapse of the tubes.

In the drawings:

FIG. 1 is a side elevation view of the fiat sided tubes of this invention;

FIG. 2 is a view of the tubes turned ninety degrees and the outer tube being in section to expose the pattern cams on the inner tube, the sliding pin arrangement being in elevation;

FIG. 3 is a cross sectional view taken along the lines 3-3 of FIG. 1;

FIG. 4 is a schematic view of the pattern cam arrangement and illustrating the cycle of the sliding pin in its travel through the cams for the locking and unlocking operation, and,

FIG. 5 is an exploded view of the sliding pin supporting elements.

With reference to the drawings in detail wherein like reference numerals denote like parts throughout the several views, reference character designates generally the tubes of the invention and includes a socket tube 16 and a telescoping tube 17. Tube 16 is of larger diameter than tube 17 and both tubes are illustrated as square in cross section, see FIG. 2. Socket tube 16 is provided with a top cap 18 while the inner or telescoping tube 17 is provided with a band 19 at its lower end acting to fill in the space between the two tubes to prevent play therebetween. Spacing plates 20 may be fixed to the inner tube sides to steady the tube 3 in its sliding movement as shown in FIG. 3.

Locking pattern cams are provided and consists of three vertically spaced flat plates as shown in FIG. 2, and are fixed to at least one of the walls of tube 17, and preferably also to an opposite wall thereof. The uppermost plate 21 is triangular in shape and defines a downwardly inclining edge 22 and an upwardly inclining edge 23. The middle plate 24 defines an upwardly inclining edge 25, a downwardly inclining edge 26 at its upper portion, a pair of

vertical edges

27 and 28 and at its bottom portion an upwardly inclining edge 29 which terminates in a locking recess 30, then a vertical edge 31 as shown.

The bottom plate 32 is of a saw tooth contour at its upper portion and includes a pair of

pin stopping recesses

33 and 34.

Plates

21, 24 and 32 provide a path through which a laterally sliding locking pin 35 must travel in its cycle for locking or unlocking the tubes in extended position and this pin 35 is supported by means generally indicated by 36 which is attached to at least one side of tube 16 as shown in FIG. 3, and preferably to an opposite side also. Means 36 comprises an elongated, transversely disposed slot 37 in a side wall of socket tube 16. Only one means 36 is illustrated in FIG. 5 since the means is identical on either side. A guide plate 38 having an elongated slot 39 of the same size as slot 37 is adapted to be fastened to the wall of tube 16 with the

slots

37 and 39 in registry by any suitable means, such as welding, etc. Plate 38 is provided with outwardly directed

guideways

40 and 41 which may be portions bent at right angles at the top and bottom thereof. Pin 35 is carried by a slide plate 42 and slide plate 42 is adapted to slide laterally in

guideways

40 and 41 of plate 38 with the pin 35 protruding through

slots

37 and 39 to a distance in tube 16 where it will engage against the edges of

plates

21, 24 and 32 when the

tubes

16 and 17 telescope. A cover plate 43 is provided to abut the

guideways

40 and 41. The entire assembly of 38 and 43 may be by welding or screws when fastening them to 16.

OPERATION Assuming that the

tubes

16 and 17 are collapsed within one another, the operator will pull the tubes apart as far as possible. During this operation, each locking pin 35 will engage either a triangular plate 21 or plate 24, which is the locking pattern peice and will slide laterally to align with the right hand gap position and be guided to engage in pin stop recess 34 of plate 32. Next, the

tubes

16 and 17 are pushed together. Each locking pin 35 will engage edge 29 of plate 24 and slide to the left and engage in the locking recess 30 to maintain tube 17 in its extended position.

To unlock

tubes

16 and 17 for collapsing, the tubes are first pulled apart. Each pin 35 will slide to the left and engage in pin stop recess 33. Secondly, the

tubes

16 and 17 are pushed together and each pin 35 will follow the left hand edge of plate 24 until it engages edge 23 of triangular piece 21 and slide to the right and the tubes will then be permitted to collapse.

In F IG. 4, the path of pin 35 is shown. In position A, the pin 35 is in the left hand side of

slots

39 and 37. Position B shows a median position in the slots and also the position reached when the collapsing cycle is finished. Position C shows the pin 35 in a right hand point in

slots

39 and 37. In the last named position, pin 35 will engage directly in pin stop recess 34.

The progressive positions of pin 35 in the locking and unlocking cycles are labeled 1-14 as shown.

While only two sections of tubing are shown, several sections can be used, each operating in the same manner.

Only

square tubes

16 and 17 have been shown, but other tubes having a triangular cross section, octagonal, etc., cross section could be used if desired. The invention could even be applied to round tubing if means for preventing rotation of the tubes were used, such as a keyway, not shown. Many applications to various uses are possible such as masts, furniture legs, shelter supports, etc.

What is claimed is:

1. In a telescopic tube locking and unlocking mechanism including a flat sided socket tube and a flat sided telescoping tube of smaller diameter slidable within said socket tube and comprising, a series of locking pattern cams fixed on at least one side of said telescoping section, at least one laterally sliding locking pin carried by said'socket tube and cooperating with said locking cams whereby said telescoping tube may be locked or unlocked in said socket tube by vertical pull-push motions thereof and means fixed on at least one side of said socket tube for slidably supporting said pin thereon.

2. A mechanism as set forth in claim 1 wherein said socket tube and said telescoping tube are square in cross-section.

3. A mechanism as set forth in claim 1 wherein said series of locking pattern cams comprise three flat plates fixed to at least one side of said telescoping tube and disposed in vertical spaced arrangement thereon, said plates having a thickness substantially equal to the space between the outside perimeter of said telescoping tube and the inside perimeter of said socket tube, said plates being contoured to provide a path for guiding said pin into locking and unlocking positions by the alternate lifting and pushing of said telescoping tube to hold said tube in an extended position or to move into a collapsed position therein.

4. A mechanism as set forth in claim 3 wherein the uppermost plate defines downwardly and upwardly inclining edges, the middle plate downward and upper inclining edges at its upper end, a pair of vertical side edges and an undercut locking recess, and the lower plate defining a saw tooth contour at its upper edge to form a pair of pin stopping recesses, said upper plate acting to guide said pin into a position for downward travel into one of said pin stopping recesses when said telescoping tube is lifted from its collapsed position within said socket tube, and when said telescoping tube is pushed downward said pin will be positioned in said locking recess to maintain it in an extended position,

and whe d tele n t e 'slif edw eni said extended p o sft ion, 521% gin w i ll b e gu ided i nto t e other pin stopping recess whereby upon a downward push on said telescoping tube said pin will be guided upward to the upward inclining edge of said uppermost plate and guided outward of said plates to permit collapse of said telescoping tube within said socket tube.

5. A mechanism as set forth in claim 1 wherein said means for slidably supporting said pin on said socket tube comprises a transverse slot in a] least one of the walls thereof, a guideway plate having a transverse slot of the same size as said slot in said socket tube and adapted to be secured thereto whereby said slots are mated, a slide plate supporting said pin centrally thereon and adapted to slide laterally therein and a cover plate fixed to said guideway plate, said pin adapted to ride in said slots in said guideway and said socket tube and extend into said socket tube a distance whereby it will engage the edges of said locking pattern cams.

6. A mechanism as set forth in claim 1 wherein said telescoping tube may be moved and locked in an extended position from a collapsed position relative to said socket tube by a pull-push movement of said telescoping tube and to be collapsed into said socket tube by a repitition of said movements.

Claims

1. In a telescopic tube locking and unlocking mechanism including a flat sided socket tube and a flat sided telescoping tube of smaller diameter slidable within said socket tube and comprising, a series of locking pattern cams fixed on at least one side of said telescoping section, at least one laterally sliding locking pin carried by said socket tube and cooperating with said locking cams whereby said telescoping tube may be locked or unlocked in said socket tube by vertical pull-push motions thereof and means fixed on at least one side of said socket tube for slidably supporting said pin thereon.

4. A mechanism as set forth in claim 3 wherein the uppermost plate defines downwardly and upwardly inclining edges, the middle plate downward and upper inclining edges at its upper end, a pair of vertical side edges and an undercut locking recess, and the lower plate defining a saw tooth contour at its upper edge to form a pair of pin stopping recesses, said upper plate acting to guide said pin into a position for downward travel into one of said pin stopping recesses when said telescoping tube is lifted from its collapsed position within said socket tube, and when said telescoping tube is pushed downward said pin will be positioned in said locking recess to maintain it in an extended position, and when said telescoping tube is lifted when in said extended position, said pin will be guided into the other pin stopping recess whereby upon a downward push on said telescoping tube said pin will be guided upward to the upward inclining edge of said uppermost plate and guided outward of said plates to permit collapse of said telescoping tube within said socket tube.

5. A mechanism as set forth in claim 1 wherein said means for slidably supporting said pin on said socket tube comprises a transverse slot in al least one of the walls thereof, a guideway plate having a transverse slot of the same size as said slot in said socket tube and adapted to be secured thereto whereby said slots are mated, a slide plate supporting said pin centrally thereon and adapted to slide laterally therein and a cover plate fixed to said guideway plate, said pin adapted to ride in said slots in said guideway and said socket tube and extend into said socket tube a distance whereby it will engage the edges of said locking pattern cams.