US3713618A

US3713618A - Self centering support

Info

Publication number: US3713618A
Application number: US00126596A
Authority: US
Inventors: P Hendrickson; R Resch
Original assignee: Krueger International Inc
Current assignee: KRUEGER Inc A CORP OF WI
Priority date: 1971-03-22
Filing date: 1971-03-22
Publication date: 1973-01-30
Anticipated expiration: 1990-01-30

Abstract

A support for a seat or the like can be rotated in either direction from its normally centered position. A helical spring extends circuitously around an annular channel concentric with the axes upon which the seat rotates. According to the direction of rotation, a depending arm disposed between seats for the ends of the spring engages one or the other end of the spring to displace the engaged end of the spring from its seat. When the deflecting force is released, the engaged end of the spring returns to its seat and, in so doing, acts on the depending arm to restore the arm to its normal position between the seated ends of the spring.

Description

United States Patent 1 Hendrickson et al.

3,713,618 Jan. 30, 1973 [541 SELF-CENTERING SUPPORT [75] inventors: Philip J. llendrickson; Richard .1.

Resch, both of Green Bay, Wis.

[73] Assignee: Krueger Metal Products, Inc., Green Bay, Wis.

[22] Filed: March 22, 1971 [211 App]. No.: 126,596

[52] U.S. Cl. ..248/417 [51] 1nt.Cl. ..Fl6c 11/00 [58] Field 01 Search ..248/4l7,4l8,4l5

[56] Relerences Cited UNITED STATES PATENTS 1,782,270 11/1930 Mendenhall ..248/417 2,225,735 12/1940 Cederquist..... ....248/4l7 3,055,628 9/1962 Savage ....248/4l7 3,199,826 8/1965 Miller et al..... ....248/417 3,574,372 4/1971 Oxford ..248/417 FOREIGN PATENTS OR APPLICATIONS 840,197 7/1960 Great Britain ..248/4l7 Primary Examiner-Marion Parsons, Jr. Attorney-Wheeler, House & Wheeler [57] ABSTRACT A support for a seat or the like can be rotated in either direction from its normally centered position. A helical spring extends circuitously around an annular channel concentric with the axes upon which the seat rotates. According to the direction of rotation, a depending arm disposed between seats for the ends of the spring engages one or the other end of the spring to displace the engaged end of the spring from its seat. When the deflecting force is released, the engaged end of the spring returns to its seat and, in so doing, acts on the depending arm to restore the arm to its normal position between the seated ends of the spring.

3 Claims, 3 Drawing Figures SELF-CENTERING SUPPORT BACKGROUND OF INVENTION A wide variety of devices have been used to re-center parts which have been displaced rotatively from a normal position. In general, such re-centering devices have tended to use torsion springs.

SUMMARY OF INVENTION The instant device uses a conventional helical spring disposed in an annular channel between seats engaged by its opposite ends and through which a spring-engaging arm is movable. The arm is assumed to be connected with the support controlled by the spring and the seats are so designed as to provide clearance required by the arm while, at the same time, having radial spacing such as to firmly engage the respective ends of the spring.

The assembly is mounted at the upper end of a column so that the entire spring and the actuated arm can all be disposed in immediate proximity to the controlled support.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view partially in side elevation and partially in vertical axial section through the column and a controlled support which is pivotally movable through a predetermined range of oscillation in either direction from a normal centered position.

FIG. 2 is a view taken in section on the line 2-2 of FIG. 1.

FIG. 3 is a view taken in section on the line 3-3 of FIG. 1.

DETAILED DESCRIPTION By way of exemplification, the device is illustrated in a form appropriate for usage to support a seat such as may be used at a lunch counter. A fragment of such a seat is illustrated at 6. A base 8 carries an upright column 10 upon which a support for the seat 6 is rotatable through a limited range in either direction from its normally centered position. The column 10 is designed for this particular service to include an external tube 12 and an internal tube 14 connected by horizontal

annular spacer members

16 and 18 welded between these tubes. Tube 14 is relieved to form shoulders 20 and 22 which act as stops to define the limit of rotation of the oscillatable and normally centered support generically designated by reference character 30. The support comprises a shaft 32 secured to a bracket 34 and having a key way 36 in which a lug 38 of disk 40 is engaged to constrain the disk and the shaft to rotate in unison. The range of rotation is defined by a stud 42 screwed into the shaft to project radially therefrom in a position to engage the stops 20 and 22 provided by the inner tube 14 of the column.

The support 30 is not mounted directly on the column but upon an intervening annular spring housing 44 which provides an annular channel 46 between its inner wall 48 and its external wall 50. The two walls have oppositely projecting bosses 52 and 54, respectively, which provide spring seats 56 and 58 engaged by the terminal coils of the helical spring 60. The spring is disposed within the channel 46 and its length is such that it is under compression circumferentially of the There is clearance between the spring seat bosses52 and 54 between which moves circumferentially of channel 46 the said arm 62. This is preferably an integral part of plate 40 and hence moves with such plate and the support 30 which rests thereon.

When the support and seat post 32 move clockwise from the centered position shown in FIG. 2, the arm 62 engages one end of the spring which is normally in abutment with spring seat 58. In consequence, the spring is compressed circumferentially toward spring seat 56. When the deflecting pressure is relieved, the spring expands to re-engage spring seat 58, thereby restoring the arm 62 and support 32 to their original position.

Assuming this deflection is exerted in a circumferential direction which is counterclockwise, the arm 62 will move the spring away from the seat 56 and increase its compression toward spring seat 58. When rotating pressure is relived, the spring will expand to reengage seat 56 and will restore the arm 62 and support 30 clockwise to the original centered position.

In the preferred arrangement, the spring housing 44 has a central sleeve or bushing 66 within which the shaft or seat post 32 is rotatable. This sleeve or bushing extends upwardly at 48 to define the'inner wall of spring housing 44 and it also serves to cover key way 36 and to prevent the coils of the compression spring from becoming caught therein.

The extremely sturdy construction shown may be unnecessary in some installations. In practically all instances, however, it is desirable that the entire centering spring and arm be confined to a relatively shallow housing immediately below the controlled support 30.

We claim:

1. A self-centering device including a generally upright standard constituting a column having a central bearing, a post requiring centering, said column having an annular channel surrounding the post and provided with generally radially spaced bosses projecting into said channel and providing opposing spring seat shoulders, a helical compression spring disposed in said channel and having its ends engaged with said shoulders,a disc connected with said post, said disc having an arm connected with said post and extending into the channel and normally disposed radially between said shoulders and circumferentially between the ends of said spring, said disc having a key and said post a key way in which said key is engaged, said channel having radially spaced inner and outer walls and being in supporting relation to said disc, the inner wall of the channel intervening between said spring and the key way of said posts.

2. A self-centering device according to claim 1 in which the column has means providing stop surfaces and the post pivotally movable in said bearing has stud means engageable with said stop surfaces to define respective limits of oscillation of said post.

3. A self centering device including a base having walls defining an upstanding column, a concentric tube located within said column and spaced from said walls providing opposing spring seat shoulders, a helical compression spring disposed in said channel and having its ends engaged with said shoulders, and an arm connected to said disc and extending into the channel and normally disposed radially between said shoulders and circumferentially between the ends of said spring.

Claims

1. A self-centering device including a generally upright standard constituting a column having a central bearing, a post requiring centering, said column having an annular channel surrounding the post and provided with generally radially spaced bosses projecting into said channel and providing opposing spring seat shoulders, a helical compression spring disposed in said channel and having its ends engaged with said shoulders, a disc connected with said post, said disc having an arm connected with said post and extending into the channel and normally disposed radially between said shoulders and circumferentially between the ends of said spring, said disc having a key and said post a key way in which said key is engaged, said channel having radially spaced inner and outer walls and being in supporting relation to said disc, the inner wall of the channel intervening between said spring and the key way of said posts.