US3359034A - Reclining chair - Google Patents

Reclining chair Download PDF

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US3359034A
US3359034A US608133A US60813367A US3359034A US 3359034 A US3359034 A US 3359034A US 608133 A US608133 A US 608133A US 60813367 A US60813367 A US 60813367A US 3359034 A US3359034 A US 3359034A
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rest
leg rest
seat
leg
link
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US608133A
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Frank M Re
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Dual Manufacturing and Engineering Inc
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Dual Manufacturing and Engineering Inc
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Priority to US608133A priority Critical patent/US3359034A/en
Priority to GB3704/67A priority patent/GB1156386A/en
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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47CCHAIRS; SOFAS; BEDS
    • A47C1/00Chairs adapted for special purposes
    • A47C1/02Reclining or easy chairs
    • A47C1/031Reclining or easy chairs having coupled concurrently adjustable supporting parts
    • A47C1/034Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts including a leg-rest or foot-rest
    • A47C1/035Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts including a leg-rest or foot-rest in combination with movably coupled seat and back-rest, i.e. the seat and back-rest being movably coupled in such a way that the extension mechanism of the foot-rest is actuated at least by the relative movements of seat and backrest
    • A47C1/0355Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts including a leg-rest or foot-rest in combination with movably coupled seat and back-rest, i.e. the seat and back-rest being movably coupled in such a way that the extension mechanism of the foot-rest is actuated at least by the relative movements of seat and backrest actuated by linkages, e.g. lazy-tongs mechanisms

Definitions

  • the present invention relates generally to reclining chairs and particularly to an operating mechanism for a reclining chair incorporating a fully-articulated, two-part, fold-away type of leg-rest, and inclusive of a seat and back-rest and leg-rest each so mounted relative to a chassis or base and interrelated by cooperant interconnecting means as to achieve smooth reclining movements of the seat and back-rest and leg-rest relative to the chassis and in coordination with each other.
  • a primary object hereof is to provide a reclining chair including a two-part leg-rest interconnected through a linkage mechanism with the cooperant stationary and reclining elements of the chair for movements between retracted and extended positions and intermediate positions therebetween, simultaneous with coordinated movements of the reclining elements relative to the stationary elements, all coacting and so controlled as to allow smooth action, particularly in the reclining motion wherein the objectionable falling sensation, experienced in so many prior art reclining chairs, is obviated.
  • Another salient object is to provide an improved reclining chair inclusive of a two-part, fold-away leg-rest or leg-supporting unit constituted by a major leg-rest portion and a minor leg-rest portion, which portions may be moved unitarily between a stored non-operative position and a forwardly-extended operative position when the body-supporting sub-assembly of the chair assumes a tilted relationship with respect to the stationary element normally constituting a base or chassis or support, and wherein the body-supporting sub-assembly incorporates a novel control and braking means wherein smooth coordinated reclining movements are insured.
  • FIG. 1 is a fragmentary side elevational view of a reclining chair incorporating the structure of the invention, with the chair shown in the upright or sitting position;
  • FIG. 2 is a side elevational view of the linkage mechanism incorporated into the chair shown in FIG. 1, with the mechanism being shown in the intermediate reclining or TV position;
  • FIG. 3 is a side elevational view of the linkage mechanism shown in FIG. 2, with the mechanism being shown in fully reclining position;
  • FIG. 4 is an enlarged, fragmentary, top plan view of the linkage mechanism of FIG. 3, with certain portions being broken away and with other portions being omitted for the purpose of clarity.
  • FIG. 1 a reclining chair comprising a supporting framework 10, a seat 12, and a back-rest 14.
  • the 'back-rest will be observed to be secured pivotally relative to the seat.
  • the seat and back-rest will be understood to form a body-supporting sub-assembly which has a pivotal relationship to supporting framework 10.
  • the linkage mechanism is one of a pair, one being located at each side of the chair between the supporting framework and the respective adjacent sides of the seat and back-rest.
  • the linkage mechanism rests upon a brace 16 extendable transversely relative to and between the opposite sides of the supporting framework and 'being secured to the said sides.
  • Spacer blocks 17 are fixed to and extend upwardly from brace 16 at opposite ends thereof adjacent the supporting framework 10.
  • a substantially horizontal-extending base bracket 18 is stationarily fixed at its forward end to spacer block 17 by a bolt 20 which extends through the base bracket, spacer block and supporting framework 10 and has a nut 21 threaded thereon.
  • Base bracket 18 is fixed at its opposite or rearward end to supporting framework 10 by a bolt 22 which extends through the base bracket and supporting framework and has a nut 23 threaded thereon.
  • Base bracket 18 extends lengthwise or in a front-rear dimension of the chair and stop 24 sleeved upon bolt 20 extends outwardly from the base bracket adjacent its forward end and serves to limit movement of the linkage mechanism, as will appear.
  • a seat bracket 26 is stationarily secured to the lower edge of seat 12 as by screws 28 or equivalent.
  • the seat and back-rest are pivotally supported for movement relative to the supporting framework by means of a primary pivot link 38 which is pivotally connected at 40 at its upper end to boomerang link 32 and thereby to back-rest 14, and is pivotally connected at 42 at its lower end to base bracket 18 and thereby to supporting framework 10.
  • the seat and back-rest are pivotally supported for movement relative to the supporting framework by means of secondary and tertiary pivot links 44 and 46 respectively, subsequently to be described.
  • a fully-articulated, two-part, fold-away leg-rest or leg-supporting unit is positioned at the forward end of the chair and is inclusive of a major leg-rest portion 52 and a minor leg-rest portion 54 pivoted thereto adjacent its lower end.
  • the leg-rest unit is mounted by means of a control linkage, subsequently to be delineated, on the forward end of seat 12 for movements between a retracted position, as
  • FIG. 1 An extended position, as is shown in FIGS. 2 and 3, and a plurality of intermediate positions therebetween.
  • major leg-rest portion 52 is disposed flush with the forwardly-facing vertical wall of seat 12, which cooperant minor leg-rest portion 54 extends rearwardly from the lower end of said major legrest portion in manner as to be hidden from view beneath seat 12.
  • the leg-rest unit is suspended from seat 12 by a means inclusive of tertiary pivot link 46, including primary actuator link 56, and a secondary actuator link 58.
  • Tertiary pivot link 46 is pivoted at 60 at its upper end to seat bracket 26 and is pivoted at 62 at its opposite lower end to the forward end of a rise bar 111, to be described.
  • An impeller link 59 is pivoted at 62 at its rearward end to rise bar 111 and is pivoted at 63 at its opposite forward end to the approximate midsection of primary actuator link 56.
  • Primary actuator link 56 is pivoted at 57 at its upper end to seat bracket 26 and at 65 at its opposite lower end to the lower end of a tertiary actuator link 67.
  • Secondary actuator link 58 is pivoted at 64 at its upper end to seat bracket 26, at 66 at its approximate midsection to the approximate midsection of tertiary actuator link 67 and at 68 at its opposite lower end to the lowermost extremity of a primary lifter link 70.
  • Said primary lifter link 70 is pivoted at 72 at its opposite forward end to a major leg-rest plate 74 which functions as a support for major leg-rest portion 52 and is fixed thereto as by screws 76.
  • Primary lifter link 70 is pivoted at 78, at its approximate midsection, to the approximate midsection of a secondary lifter link 80.
  • Said secondary lifter link 80 is pivoted at 82 at its upper end to the upper end of tertiary actuator link 67 and is pivoted at 84 at its opposite lower end to the lower end of a primary control link 90.
  • Said primary control link 90 is pivoted at 92 at its forward end to a minor leg-rest plate 94 which functions as a support for minor leg-rest portion 54 and is fixed thereto as by screws 95.
  • Major and minor leg-rest plates, 74 and 94 respectively, are articulately interlinked by a pivotal connection 96.
  • a secondary control link 100 extending between major leg-rest plate 74 and primary control link 90, is pivoted at 102 at one of its ends to said major leg-rest plate and is pivoted at 104 at its opposite end to said primary control link.
  • Rise bar 111 interconnects the aforedescribed leg-rest linkage means to the chair base by means of tertiary pivot link 46 which is pivoted at 62 to a forward portion of the rise bar.
  • Rise bar 111 rotates about a pivot 114 at its rearward portion relative to base bracket 18.
  • the lower edge of said rise bar is provided adjacent its forward end with a recess 116, which recess is adapted to abut stop 24 on base bracket 18 so as to preclude downward movement of the rise bar beyond the desired limits prescribed by the upright position of the chair.
  • a friction plate is pivoted at 122 to rise bar 111 and is provided with an arcuate forward edge 124 which terminates adjacent its upper extremity in an offset lip or flange 126. Said lip functions as a stop in the fullyreclined position of the chair upon engagement'in a notch 128 provided in the upper edge of rise bar 111, as will be evident subsequently.
  • a portion of rise bar 111 adjacent arcuate edge 124 of friction plate 120 is deformed so as to provide an offset friction finger 130, the friction finger and rise bar being so cooperant as to allow the insertion of a portion of friction plate 120 therebetween, with one planar face of friction plate 120 being flush with the inner planar face of rise bar 111, and with the other planar face of said friction plate being flush with the inner planar face of friction finger 130.
  • a bolt 132 is extendable laterally through friction finger with a wing nut 134 being threadedly engageable therewith and tightened against a washer 136, said washer being of appropriate size to bridge the opening in rise bar 111 created therein by the formation of friction finger 130, and to rest flush against the rise bars outer planar face.
  • Said wing nut may be tightened against Washer 136 wherefore friction finger 130 is drawn inwardly in manner to increase the frictional engagement between friction plate 120 and rise bar 111, and conversely, by loosening Wing nut 134, the frictional engagement between friction plate 120 and rise bar 111 may be decreased, an especially desirable feature wherewith persons of relatively lighter weight may adjust the device for easier chair operation, as will appear.
  • wing nut 134 and washer 136 in combination with friction finger 130, may be delineated as an adjust able braking device whereby the force or weight required to move both the seat and back-rest to one of a plurality of reclining positions may be varied, all in accordance with the desires or requirements of the chair occupant.
  • a cut-away lowermost portion of friction plate 120 forms a link portion 138 which is pivoted at 140 to the lower end of secondary pivot link 44, with the secondary pivot link in turn being pivoted at 142 at its upper end to seat bracket 26.
  • a limit link is pivoted at 152 at its lower end to base bracket 18 and at 154 at its opposite or upper end to friction plate 120.
  • Limit link 150 functions to limit the degree of angularization of the body-supporting unit in the fully-reclined chair position.
  • FIG. 1 is illustrated the relative positions of the components of the linkage, Whenthe chair is in fully upright position, and therein it will be observed that leg-rest unit 50 is retracted, with major legrest portion 52 positioned flush with the forward end of seat 12, and with minor leg-rest portion 54 disposed rearwardly thereof beneath seat 12.
  • rise bar 111 in a generally-horizontal position, rests on stop 24 with'friction finger 130 and bolt 132 being disposed adjacent the lower end of the arcuate edge of friction plate 120.
  • the chair occupant may bring rearward pressure to bear upon backrest 14, causing the seat and back-rest structures to move in substantially rearward directions relative to chair brace 16 by the coordinated swinging movements of primary pivot link 38 and secondary pivot link 44 and tertiary pivot link 46, each upon its respective pivot points.
  • the body-supporting unit By so mounting the seat and back-rest, the body-supporting unit will be observed to be movable from the upright or sitting position of FIG. 1 to the positions of FIGS. 2 and 3 and/or to any intermediate position therebetween.
  • pivot links 38, 44 and 46, and the actuator links 56 and 58 pivot unisonly in a clockwise direction (as viewed in FIG. 1) concomitantly with the movement of seat bracket 26 and seat 12.
  • impeller link 59 also rotates to urge primary actuator link 56 forwardly and upwardly, which, in turn, urges tertiary actuator link forwardly and upwardly, thereby to cause a corresponding movement of secondary actuator link 58 and primary lifter link 70, all whereby major leg-rest plate 74 and major leg-rest portion 52 are motivated toward a generally-horizontal position.
  • minor leg-rest plate 94 A smoothly swinging motion of minor leg-rest plate 94 is assured by secondary control link 100 which acts to constrain the forward movement of primary control link 90 and to bring minor leg-rest plate 94 into axial alignment with major leg-rest plate 74, all wherewith major leg-rest portion 52 and minor leg-rest portion 54 are placed in axial alignment as to each other to form a unit when the chair is in a semi-reclining position such as is illustrated in FIG. 2, or in a fully-reclining position such as is illustrated in FIG. 3.
  • rise bar 111 will not have changed its generally horizontal position relative to base bracket 18 and will continue to rest on stop 24, even though the leg-rest unit is now fully extended so that major leg-rest plate 74 and minor leg-rest plate 94 are axially-aligned.
  • leg-rest unit 50 With ample leg support being provided by major leg-rest portion 52.
  • the chair occupant may once again bring additional rearward pressure to bear upon back-rest 14 by pushing with the hands upon the arms of the chair, or for example if in the upright or TV position by hooking the heel in the leg-rest unit and pushing rearwardly, whereupon the forward end of the rise bar will be urged upwardly by tertiary pivot link 46 through pivotal connection 62 to cause the rise bar to swing at its rearward end on its pivot 114.
  • seat 12 and seat bracket 26 are urged forwardly and upwardly by toe portion 32 of boomerang link 32 through its pivotal connection 36.
  • Limit link 150 extending between friction link 120 and base bracket 18, precludes angularization of the bodysupporting unit beyond the limits prescribed by the chair fully-reclined position.
  • Friction finger 130 controls the ease of rotation of friction plate 120 upon pivot 122 depending upon the tension set up in the friction finger by the adjustment of wing nut 134 relative to bolt 132 and washer 136. By this simple adjustment coupled with the rise of the seat, the objectionable falling sensation, so often experienced in reclining chairs, is precluded.
  • the occupant may return the chair from this fully reclined position of FIG. 3 to the semi-reclined position of FIG. 2, with the leg-rest unit remaining extended by exerting a slight downward pressure upon seat 12 or by simply bringing the shoulders away from the back of the chair, causing rise bar 111 to move downwardly into contact with stop 24 of bracket 18 and causing secondary pivot link 44 to exert a downward pressure upon link portion 138 of friction plate whereupon the friction plate rotates upon its pivot 122 and the arcuate edge 124 moves upwardly relative to friction finger and bolt 132.
  • the occupant may return directly to the fully-upright position of FIG. 1 by exerting a slight downward pressure of the heels upon the leg-rest unit.
  • a reclining article of furniture having a stationary frame, a body-supporting unit including a back-rest and a seat pivotal relative to said frame and pivotal each relative to the other, means mounting said body-supporting unit for movement relative to said frame successively between a sitting position and an intermediate resting position and a fully reclined position and positions therebetween,
  • a two-part leg rest formed of a major portion and minor portion hingedly interconnected for turning movement relative to each other
  • control linkage constituted by a pair of spaced links with one of the spaced links of said pair thereof being pivotally connected to the main portion of said leg rest and the other of the spaced links of said pair thereof being pivotally connected to the auxiliary portion of said leg rest and a control link pivotally interconnecting between the main portion of said leg rest and the one of the spaced links of said pair thereof pivotally connected to the auxiliary portion of said leg rest for efiecting a rotative movement of the auxiliary portion of said leg rest relative to the main portion of said leg rest,
  • actuating means connecting between the seat and frame and connected to said control linkage for actuating said control linkage to move said leg rest responsively to movement of the body supporting member with the main portion of said leg rest being projected between the retracted position and one of a plurality of extended positions with the auxiliary portion of said leg rest being turned in coordinated movement relative to the main portion of said leg rest,
  • said actuating means comprising a first actuator link pivotally connected to the seat and to said one of said spaced links connected to the main portion of the leg-rest,
  • a friction plate pivoted to said rise bar and pivotally connected to said seat
  • said adjustable brake means in combination with said friction plate and said limit link adapted to control the ease and range and rate of reclining movement of said body-supporting unit.

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Description

Dec. 19, 1967 RECLINING CHAIR 3 Sheets-Sheet 1 Filed Jan. 9, 1967 INVENTOR FRANK M. RE
ATTORNEY.
Dec. 19, 1967 F. M. RE 3,359,034
RECLINING CHAIR Filed Jan. 9, 1967 5 Sheets-Sheet 2 INVENTOR.
FRANK M. RE
. ATTORNEY.
Dec. 19, 1967 F. M. R 3,359,034
REGLINING CHAIR Filed Jan. 9, 1967 5 Sheets-Sheet 5 INVENTOR.
FRANK M. RE
ATTORNEY.
United States Patent Ofitice 3,359,34 Patented Dec. 19, 1967 ABSTRACT OF THE DISCLOSURE A control and braking means integral with the operating linkage of a reclining chair having a two-part legrest interconnected through the operating linkage with a stationary base and a seat and back-rest, the control and braking means permitting coordinated movement of the two-part leg-rest with movement of the seat and backrest.
Background of the invention The present invention relates generally to reclining chairs and particularly to an operating mechanism for a reclining chair incorporating a fully-articulated, two-part, fold-away type of leg-rest, and inclusive of a seat and back-rest and leg-rest each so mounted relative to a chassis or base and interrelated by cooperant interconnecting means as to achieve smooth reclining movements of the seat and back-rest and leg-rest relative to the chassis and in coordination with each other.
A primary object hereof is to provide a reclining chair including a two-part leg-rest interconnected through a linkage mechanism with the cooperant stationary and reclining elements of the chair for movements between retracted and extended positions and intermediate positions therebetween, simultaneous with coordinated movements of the reclining elements relative to the stationary elements, all coacting and so controlled as to allow smooth action, particularly in the reclining motion wherein the objectionable falling sensation, experienced in so many prior art reclining chairs, is obviated.
Another salient object is to provide an improved reclining chair inclusive of a two-part, fold-away leg-rest or leg-supporting unit constituted by a major leg-rest portion and a minor leg-rest portion, which portions may be moved unitarily between a stored non-operative position and a forwardly-extended operative position when the body-supporting sub-assembly of the chair assumes a tilted relationship with respect to the stationary element normally constituting a base or chassis or support, and wherein the body-supporting sub-assembly incorporates a novel control and braking means wherein smooth coordinated reclining movements are insured.
Brief description of the drawings FIG. 1 is a fragmentary side elevational view of a reclining chair incorporating the structure of the invention, with the chair shown in the upright or sitting position;
FIG. 2 is a side elevational view of the linkage mechanism incorporated into the chair shown in FIG. 1, with the mechanism being shown in the intermediate reclining or TV position;
FIG. 3 is a side elevational view of the linkage mechanism shown in FIG. 2, with the mechanism being shown in fully reclining position; and
FIG. 4 is an enlarged, fragmentary, top plan view of the linkage mechanism of FIG. 3, with certain portions being broken away and with other portions being omitted for the purpose of clarity.
Description of the preferred embodiment In the drawings, I have shown in FIG. 1, a reclining chair comprising a supporting framework 10, a seat 12, and a back-rest 14. The 'back-rest will be observed to be secured pivotally relative to the seat.
The seat and back-rest will be understood to form a body-supporting sub-assembly which has a pivotal relationship to supporting framework 10.
The linkage mechanism, now to be described, is one of a pair, one being located at each side of the chair between the supporting framework and the respective adjacent sides of the seat and back-rest.
The linkage mechanism rests upon a brace 16 extendable transversely relative to and between the opposite sides of the supporting framework and 'being secured to the said sides.
Spacer blocks 17 are fixed to and extend upwardly from brace 16 at opposite ends thereof adjacent the supporting framework 10.
A substantially horizontal-extending base bracket 18 is stationarily fixed at its forward end to spacer block 17 by a bolt 20 which extends through the base bracket, spacer block and supporting framework 10 and has a nut 21 threaded thereon.
Base bracket 18 is fixed at its opposite or rearward end to supporting framework 10 by a bolt 22 which extends through the base bracket and supporting framework and has a nut 23 threaded thereon.
Base bracket 18 extends lengthwise or in a front-rear dimension of the chair and stop 24 sleeved upon bolt 20 extends outwardly from the base bracket adjacent its forward end and serves to limit movement of the linkage mechanism, as will appear.
A seat bracket 26 is stationarily secured to the lower edge of seat 12 as by screws 28 or equivalent.
A boomerang link 22 fixed to a side of back-rest 14 as by screws 34, includes a lowermost forwardly-extending foot portion 32', the forwardly-facing end of which is pivotally connected to seat bracket 26 as by a connection 36.
The seat and back-rest are pivotally supported for movement relative to the supporting framework by means of a primary pivot link 38 which is pivotally connected at 40 at its upper end to boomerang link 32 and thereby to back-rest 14, and is pivotally connected at 42 at its lower end to base bracket 18 and thereby to supporting framework 10.
Additionally, the seat and back-rest are pivotally supported for movement relative to the supporting framework by means of secondary and tertiary pivot links 44 and 46 respectively, subsequently to be described.
A fully-articulated, two-part, fold-away leg-rest or leg-supporting unit, generally indicated by 50, is positioned at the forward end of the chair and is inclusive of a major leg-rest portion 52 and a minor leg-rest portion 54 pivoted thereto adjacent its lower end.
The leg-rest unit is mounted by means of a control linkage, subsequently to be delineated, on the forward end of seat 12 for movements between a retracted position, as
is shown in FIG. 1, and an extended position, as is shown in FIGS. 2 and 3, and a plurality of intermediate positions therebetween.
In the fully upright or sitting position of the chair, as illustrated in FIG. 1, major leg-rest portion 52 is disposed flush with the forwardly-facing vertical wall of seat 12, which cooperant minor leg-rest portion 54 extends rearwardly from the lower end of said major legrest portion in manner as to be hidden from view beneath seat 12.
When major leg-rest portion 52 is elevated and advanced, cooperant minor leg-rest portion 54 is moved to a position forwardly thereof and in axial alignment therewith.
The leg-rest unit is suspended from seat 12 by a means inclusive of tertiary pivot link 46, including primary actuator link 56, and a secondary actuator link 58.
Tertiary pivot link 46 is pivoted at 60 at its upper end to seat bracket 26 and is pivoted at 62 at its opposite lower end to the forward end of a rise bar 111, to be described.
An impeller link 59 is pivoted at 62 at its rearward end to rise bar 111 and is pivoted at 63 at its opposite forward end to the approximate midsection of primary actuator link 56.
Primary actuator link 56 is pivoted at 57 at its upper end to seat bracket 26 and at 65 at its opposite lower end to the lower end of a tertiary actuator link 67.
Secondary actuator link 58 is pivoted at 64 at its upper end to seat bracket 26, at 66 at its approximate midsection to the approximate midsection of tertiary actuator link 67 and at 68 at its opposite lower end to the lowermost extremity of a primary lifter link 70.
Said primary lifter link 70 is pivoted at 72 at its opposite forward end to a major leg-rest plate 74 which functions as a support for major leg-rest portion 52 and is fixed thereto as by screws 76.
Primary lifter link 70 is pivoted at 78, at its approximate midsection, to the approximate midsection of a secondary lifter link 80.
Said secondary lifter link 80 is pivoted at 82 at its upper end to the upper end of tertiary actuator link 67 and is pivoted at 84 at its opposite lower end to the lower end of a primary control link 90.
Said primary control link 90 is pivoted at 92 at its forward end to a minor leg-rest plate 94 which functions as a support for minor leg-rest portion 54 and is fixed thereto as by screws 95.
Major and minor leg-rest plates, 74 and 94 respectively, are articulately interlinked by a pivotal connection 96.
A secondary control link 100, extending between major leg-rest plate 74 and primary control link 90, is pivoted at 102 at one of its ends to said major leg-rest plate and is pivoted at 104 at its opposite end to said primary control link.
Any unwanted rearward movement of the leg-rest unit is precluded when the lower end of primary actuator link 56 abuts the adjacent side edge of secondary actuator link 58, positive stop action being assured by a unique configuration of said primary actuator link 56 in that its lower end is provided on its leading side edge with a toe 106, whith the adjacent side edge of secondary actuator link 58 being provided with a longitudinallyextending notch 108. In the chairs upright position, toe 106 is receivable in notch 108 wherewith a positive stop action is achieved.
Rise bar 111 interconnects the aforedescribed leg-rest linkage means to the chair base by means of tertiary pivot link 46 which is pivoted at 62 to a forward portion of the rise bar.
Rise bar 111 rotates about a pivot 114 at its rearward portion relative to base bracket 18.
The lower edge of said rise bar is provided adjacent its forward end with a recess 116, which recess is adapted to abut stop 24 on base bracket 18 so as to preclude downward movement of the rise bar beyond the desired limits prescribed by the upright position of the chair.
A friction plate is pivoted at 122 to rise bar 111 and is provided with an arcuate forward edge 124 which terminates adjacent its upper extremity in an offset lip or flange 126. Said lip functions as a stop in the fullyreclined position of the chair upon engagement'in a notch 128 provided in the upper edge of rise bar 111, as will be evident subsequently.
A portion of rise bar 111 adjacent arcuate edge 124 of friction plate 120 is deformed so as to provide an offset friction finger 130, the friction finger and rise bar being so cooperant as to allow the insertion of a portion of friction plate 120 therebetween, with one planar face of friction plate 120 being flush with the inner planar face of rise bar 111, and with the other planar face of said friction plate being flush with the inner planar face of friction finger 130.
A bolt 132 is extendable laterally through friction finger with a wing nut 134 being threadedly engageable therewith and tightened against a washer 136, said washer being of appropriate size to bridge the opening in rise bar 111 created therein by the formation of friction finger 130, and to rest flush against the rise bars outer planar face.
Said wing nut may be tightened against Washer 136 wherefore friction finger 130 is drawn inwardly in manner to increase the frictional engagement between friction plate 120 and rise bar 111, and conversely, by loosening Wing nut 134, the frictional engagement between friction plate 120 and rise bar 111 may be decreased, an especially desirable feature wherewith persons of relatively lighter weight may adjust the device for easier chair operation, as will appear.
In effect, wing nut 134 and washer 136, in combination with friction finger 130, may be delineated as an adjust able braking device whereby the force or weight required to move both the seat and back-rest to one of a plurality of reclining positions may be varied, all in accordance with the desires or requirements of the chair occupant.
A cut-away lowermost portion of friction plate 120 forms a link portion 138 which is pivoted at 140 to the lower end of secondary pivot link 44, with the secondary pivot link in turn being pivoted at 142 at its upper end to seat bracket 26.
A limit link is pivoted at 152 at its lower end to base bracket 18 and at 154 at its opposite or upper end to friction plate 120. Limit link 150 functions to limit the degree of angularization of the body-supporting unit in the fully-reclined chair position.
As aforementioned, in FIG. 1 is illustrated the relative positions of the components of the linkage, Whenthe chair is in fully upright position, and therein it will be observed that leg-rest unit 50 is retracted, with major legrest portion 52 positioned flush with the forward end of seat 12, and with minor leg-rest portion 54 disposed rearwardly thereof beneath seat 12. In such chair position, rise bar 111, in a generally-horizontal position, rests on stop 24 with'friction finger 130 and bolt 132 being disposed adjacent the lower end of the arcuate edge of friction plate 120.
Now, to reach the intermediate reclining position, as shown in FIG. 2, from this upright position, the chair occupant may bring rearward pressure to bear upon backrest 14, causing the seat and back-rest structures to move in substantially rearward directions relative to chair brace 16 by the coordinated swinging movements of primary pivot link 38 and secondary pivot link 44 and tertiary pivot link 46, each upon its respective pivot points.
By so mounting the seat and back-rest, the body-supporting unit will be observed to be movable from the upright or sitting position of FIG. 1 to the positions of FIGS. 2 and 3 and/or to any intermediate position therebetween.
In the course of movement from upright position to a reclining position and with the leg-rest unit extended, the
pivot links 38, 44 and 46, and the actuator links 56 and 58 pivot unisonly in a clockwise direction (as viewed in FIG. 1) concomitantly with the movement of seat bracket 26 and seat 12.
As tertiary pivot link 46 rotates, impeller link 59 also rotates to urge primary actuator link 56 forwardly and upwardly, which, in turn, urges tertiary actuator link forwardly and upwardly, thereby to cause a corresponding movement of secondary actuator link 58 and primary lifter link 70, all whereby major leg-rest plate 74 and major leg-rest portion 52 are motivated toward a generally-horizontal position.
Similarly, as tertiary actuator link 67 rotates, rotation is imparted to secondary lifter link 80 whereby control links 90 and 100 are moved forwardly and outwardly to urge minor leg-rest plate 94 to pivot at 96 relative to major leg-rest plate 74.
A smoothly swinging motion of minor leg-rest plate 94 is assured by secondary control link 100 which acts to constrain the forward movement of primary control link 90 and to bring minor leg-rest plate 94 into axial alignment with major leg-rest plate 74, all wherewith major leg-rest portion 52 and minor leg-rest portion 54 are placed in axial alignment as to each other to form a unit when the chair is in a semi-reclining position such as is illustrated in FIG. 2, or in a fully-reclining position such as is illustrated in FIG. 3.
In FIG. 2, it will be appreciated that by the sequence of movements just described, rise bar 111 will not have changed its generally horizontal position relative to base bracket 18 and will continue to rest on stop 24, even though the leg-rest unit is now fully extended so that major leg-rest plate 74 and minor leg-rest plate 94 are axially-aligned.
It is to be here noted that, had he so desired, the chair occupant might have positioned the body-supporting unit at any position of reclination between the positions of FIGS. 1 and 2, with a concomitant partial extension of leg-rest unit 50 with ample leg support being provided by major leg-rest portion 52.
To reach the fully-reclining position of FIG. 3 from the semi-reclining position of FIG. 2, the chair occupant may once again bring additional rearward pressure to bear upon back-rest 14 by pushing with the hands upon the arms of the chair, or for example if in the upright or TV position by hooking the heel in the leg-rest unit and pushing rearwardly, whereupon the forward end of the rise bar will be urged upwardly by tertiary pivot link 46 through pivotal connection 62 to cause the rise bar to swing at its rearward end on its pivot 114.
As back-rest 14 is further angularized, seat 12 and seat bracket 26 are urged forwardly and upwardly by toe portion 32 of boomerang link 32 through its pivotal connection 36.
As seat bracket 26 moves forwardly and upwardly, the lower end of link portion 138 will be pulled upwardly by secondary pivot link 44 through its pivotal connection 140 whereupon friction plate 120 will pivot relative to rise bar 111 on its pivot point 122 until flange 126 of the friction plate will become engaged in notch 128 in the upper edge of the rise bar whereupon further rotation of friction plate 120 is precluded.
Limit link 150, extending between friction link 120 and base bracket 18, precludes angularization of the bodysupporting unit beyond the limits prescribed by the chair fully-reclined position.
Friction finger 130 controls the ease of rotation of friction plate 120 upon pivot 122 depending upon the tension set up in the friction finger by the adjustment of wing nut 134 relative to bolt 132 and washer 136. By this simple adjustment coupled with the rise of the seat, the objectionable falling sensation, so often experienced in reclining chairs, is precluded.
The occupant may return the chair from this fully reclined position of FIG. 3 to the semi-reclined position of FIG. 2, with the leg-rest unit remaining extended by exerting a slight downward pressure upon seat 12 or by simply bringing the shoulders away from the back of the chair, causing rise bar 111 to move downwardly into contact with stop 24 of bracket 18 and causing secondary pivot link 44 to exert a downward pressure upon link portion 138 of friction plate whereupon the friction plate rotates upon its pivot 122 and the arcuate edge 124 moves upwardly relative to friction finger and bolt 132.
Alternatively, the occupant may return directly to the fully-upright position of FIG. 1 by exerting a slight downward pressure of the heels upon the leg-rest unit.
By the novel interconnection between rise bar 111, secondary and tertiary pivot links 44 and 46 respectively, and friction plate 120, the reclining movements of the body-supporting unit are smooth and effortless and are perfectly controlled and balanced and coordinated.
While I have shown and described a preferred embodiment of the invention herein, it will be obvious to those skilled in the art to which the invention pertains that certain omissions or changes may be made therein, all Without departing from the spirit and scope of the invention.
I claim:
1. A reclining article of furniture having a stationary frame, a body-supporting unit including a back-rest and a seat pivotal relative to said frame and pivotal each relative to the other, means mounting said body-supporting unit for movement relative to said frame successively between a sitting position and an intermediate resting position and a fully reclined position and positions therebetween,
a two-part leg rest formed of a major portion and minor portion hingedly interconnected for turning movement relative to each other,
and a control linkage mounting said leg rest on the seat and guiding said leg rest between retracted position with the main portion of said leg rest disposed in a substantially vertical position beneath the seat and with the auxiliary portion of said leg rest disposed in an inverted substantially horizontal position beneath the seat and a plurality of extended positions forwardly of the seat,
said control linkage constituted by a pair of spaced links with one of the spaced links of said pair thereof being pivotally connected to the main portion of said leg rest and the other of the spaced links of said pair thereof being pivotally connected to the auxiliary portion of said leg rest and a control link pivotally interconnecting between the main portion of said leg rest and the one of the spaced links of said pair thereof pivotally connected to the auxiliary portion of said leg rest for efiecting a rotative movement of the auxiliary portion of said leg rest relative to the main portion of said leg rest,
actuating means connecting between the seat and frame and connected to said control linkage for actuating said control linkage to move said leg rest responsively to movement of the body supporting member with the main portion of said leg rest being projected between the retracted position and one of a plurality of extended positions with the auxiliary portion of said leg rest being turned in coordinated movement relative to the main portion of said leg rest,
said actuating means comprising a first actuator link pivotally connected to the seat and to said one of said spaced links connected to the main portion of the leg-rest,
a first lifter link pivotally connected to said pair of spaced links,
a second actuator link pivotally connected to said first lifter link,
and to said first actuator link,
a third actuator link pivotally connected to said second actuator link and to the seat,
a rise bar,
an impeller link pivotally connected to said third actuator link and to said rise bar,
means pivotally connecting said rise bar to said seat and to said frame,
a friction plate pivoted to said rise bar and pivotally connected to said seat,
a limit link extending between said friction plate and said frame, and adjustable brake means integral with said rise bar in frictional contact with said friction plate,
said adjustable brake means in combination with said friction plate and said limit link adapted to control the ease and range and rate of reclining movement of said body-supporting unit.
2. In a reclining article of furniture as set forth in .claim 1 including stop means on said actuating means,
stop means on said frame,
and stop means on said friction plate limiting the range of movement of said control linkage and said bodysupporting unit.
References Cited UNITED JAMES T. MCCALL,
STATES PATENTS Martin et al 297-85 Schliephacke 29783 Rosmarin 297-85 Fletcher 297-87 Primary Examiner.

Claims (1)

1. A RECLINING ARTICLE OF FURNITURE HAVING A STATIONARY FRAME, A BODY-SUPPORTING UNIT INCLUDING A BACK-REST AND A SEAT PIVOTAL RELATIVE TO SAID FRAME AND PIVOTAL EACH RELATIVE TO THE OTHER, MEANS MOUNTING SAID BODY-SUPPRTING UNIT FOR MOVEMENT RELATIVE TO SAID FRASME SUCCESSIVELY BETWEEN A SITTING POSITION AND AN INTERMEDIATE RESTING POSITION AND A FULLY RECLINED POSITION AND POSTIONS THEREBETWEEN, A TWO-PART LEG REST FROMED OF A MAJOR PORTION AND MINOR PORTION HINGEDLY INTERCONNECTED FOR TURNING MOVEMENT RELATIVE TO EACH OTHER, AND A CONTROL LINKAGE MOUNTING SAID LEG REST ON THE SEAT AND GUIDING SAID LEG REST BETWEEN RETRACTED POSITION WITH THE MAIN PORTION OF SAID LEG REST DISPOSED IN A SUBSTANTIALLY VERTICAL POSITION BENEATH THE SEAT AND WITH THE AUXILLIARY PORTION OF SADI LEG REST DISPOSED IN AN INVERTED SUBSTANTIALLY HORIZONTAL POSITION BENEATH THE SEAT AND A PLURALITY OF EXTENDED POSITIONS FORWARDLY OF THE SEAT, SAID CONTROL LINKAGE CONSTITUTED BY A PAIR OF SPACED LINKS WITH ONE OF THE SPACED LINKS OF SAID PAIR THEREOF BEING PIVOTALLY CONNECTED TO THE MAIN PORTION OF SAID LEG REST AND THE OTHER OF THE SPACED LINKS OF SAID PAIR THEREOF BEING PIVOTALLY CONNECTED TO THE AUXIALLY PORTION OF SAID LEG REST AND A CONTROL LINK PIVOTALLY INTERCONNECTING BETWEEN THE MAIN PORTION OF SAID LEG REST AND THE ONE OF THE SPACED LINKS OF SAID PAIR THEREROF PIVOTALLY CONNECTED TO THE AUXILIARY PORTION OF SAID LEG REST FOR EFFECTING A ROTATIVE MOVEMENT OF THE AUXILIARY PORTION OF SAID LEG REST RELATIVE TO THE MAIN PORTION OF SAID LEG REST, ACTUATING MEANS CONNECTING BETWEEN THE SEAT AND FRAME AND CONNECTED TO SAID CONTROL LINKAGE FOR ACTUATING SAID CONTROL LINKAGE TO MOVE SAID LEG REST RESPONSIVELY TO MOVEMENT OF THE BODY SUPPORTING MEMBER WITH THE MAIN PORTION OF SAID LEG REST BEING PROJECTED BETWEEN THE RETRACTED POSITION AND ONE OF A PLURALITY OF EXTENDED POSITIONS WITH THE AXILIARY PORTION OF SAID LEG REST BEING TURNED IN COORDINATED MOVEMENT RELATIVE TO THE MAIN PORTION OF SAID LEG REST, SAID ACTUATING MEANS COMPRISING A FIRST ACTUATOR LINK PIVOTALLY CONNECTED TO THE SEAT AND TO SAID ONE OF SAID SPACED LINKS CONNECTED TO THE MAIN PORTION OF THE LEG-REST,
US608133A 1967-01-09 1967-01-09 Reclining chair Expired - Lifetime US3359034A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3819229A (en) * 1970-11-05 1974-06-25 Lane Co Inc Rocker recliner chair
US5503453A (en) * 1993-05-27 1996-04-02 La-Z-Boy Chair Company Two-way high-leg recliner

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AUPM520794A0 (en) * 1994-04-20 1994-05-12 Massello Pty Ltd Recliner chair

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Publication number Priority date Publication date Assignee Title
US3135547A (en) * 1962-03-20 1964-06-02 Anton Lorenz Multiple movement lounger chair
US3163464A (en) * 1963-08-19 1964-12-29 Dual Mfg & Eng Mechanism for recliner-rocker type of chair
US3185520A (en) * 1963-01-10 1965-05-25 Super Sagless Spring Corp Multi-position reclining chair
US3233938A (en) * 1963-11-19 1966-02-08 Anton Lorenz Reclining chair of the multiple movement lounger type
US3244448A (en) * 1964-11-30 1966-04-05 Dual Mfg & Eng Reclining chair mechanism

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3135547A (en) * 1962-03-20 1964-06-02 Anton Lorenz Multiple movement lounger chair
US3185520A (en) * 1963-01-10 1965-05-25 Super Sagless Spring Corp Multi-position reclining chair
US3163464A (en) * 1963-08-19 1964-12-29 Dual Mfg & Eng Mechanism for recliner-rocker type of chair
US3233938A (en) * 1963-11-19 1966-02-08 Anton Lorenz Reclining chair of the multiple movement lounger type
US3244448A (en) * 1964-11-30 1966-04-05 Dual Mfg & Eng Reclining chair mechanism

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3819229A (en) * 1970-11-05 1974-06-25 Lane Co Inc Rocker recliner chair
US5503453A (en) * 1993-05-27 1996-04-02 La-Z-Boy Chair Company Two-way high-leg recliner

Also Published As

Publication number Publication date
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