GB2494198A - Foldable leg rest - Google Patents

Abstract

A foldable leg rest, suitable for fitting to the front of a chair, includes a base 10, a first folding assembly 20 and a second folding assembly 30. The base 10 has a mounting board 11 with a first-stage driving device mounted thereon. The first folding assembly 20 is pivotally connected to the base 10 and has a first frame (21, figure 2) with a second-stage driving device mounted thereon. The second folding assembly 30 is pivotally connected to the first folding assembly 20, being foldable toward a top of the first folding assembly. In use, the first-stage driving device is operated to drive the first folding assembly 20 to rotate relative to the base 10 and the second-stage driving device is operated to drive the second folding assembly 30 to rotate relative to the first folding assembly 20.

Description

FOLDABLE LEG REST

1. Field of the Invention

The present invention relates to a leg rest, and more particularly to a foldable leg rest mounted on a front end of a chair for supporting the egs of a sitter in a stretched condition.

2. Description of the Prior Arts

Chairs allow people to sit thereon and support weights of sitters. A chair substantially comprises a seat and a backrest for supporting the back of a sitter. The backrest may be adjustable in angle relative to the seat by an angle adjuster to fit different needs of different sitters.

However, when a person sits on the chair for a long time, for example on a long vehicle trip, the legs of the sitter on the conventional chair will become tired, numb or pained due to long time of bending. Accordingly, the conventional chair should be further improved to provide an enhanced comfort.

The main object of the present invention is to provide a foldaHe leg rest that supports the legs of a sitter in a stretched condition.

To achieve the foregoing objective, the foldable leg rest in accordance with the present invention comprises a base, a first folding assembly and a second folding assembly. The base inclLides a mounting board and a first-stage driving device mounted on the mounting board. The first folding assembly is pivotally connected to the base and includes a first frame and a second-stage driving device. The first frame has a rear end pivotally connected to the base.

The second-stage driving device is mounted in the first frame. The second folding assembly is pivotally connected to the first folding assembly and includes a second frame. The second frame has a rear end pivotally connected to a front end of the first frame. In use, the first-stage driving device is operated to drive the first folding assembly to rotate relative to the base, the second-stage driving device is operated to drive the second folding assembly to rotate relative to the first folding assembly, and the second folding assembly can be folded toward a top of the first folding assembly. Therefore, the legs of a sitter can be stretched and placed on the folding assemblies so as to enhance comfort and minimize fatigue.

IN THE DRAWINGS: Fig. 1 is a perspective view of a foldable leg rest in accordance with the present invention shown in a folded state; Fig. 2 is a perspective view of the foldable leg rest in Fig. I shown in an unfolded state; Fig. 3 is an enlarged perspective view of a base of the foldable leg rest iii Fig. 1; Fig. 4 is a partially edarged perspective view of the base of the foldable leg rest in Fig. 1; Figs. 5 to 7 are partially enlarged perspective views of a second-stage driving device of the foldaHe leg rest in Fig. 1; Fig. 8 is an enlarged perspective view of a third driving device and a footrest of the foldable leg rest in Fig. 1; Fig. 9 is a partially enlarged exploded perspective view of the third driving device of the foldable leg rest in Fig. 1; and Figs. 10 to 15 are operational side views of the foldable leg rest in Fig. With reference to Figs. I mid 2, a foldable leg rest in accordance with the present invention comprises a base 10, a first folding assembly 20, a second folding assembly 30 and a footrest 40.

With further reference to Fig. 10, the base 10 is mounted on a front end of a seat 50 and includes a mounting board 11 and a first-stage driving device.

The first-stage driving device is mounted on the mounting board 11 and has a first-stage direct current machine 12, two gear drives 13 and two first-stage angle adjusters 14. The first-stage direct current machine 12 is secured to a middle portion of the mounting board 11 and has two ends and two flexible shafts 121. The flexible shafts 121 are respectively connected to the ends of the first-stage direct current machine 12. With reference to Figs.3 and 4, the gear drives 13 are respectively disposed at two sides of the mounting board 11. Each gear drive 13 has a mounting bracket 131 secured to the mounting board 11 and receiving a first-stage worm 132, a first-stage worm gear 133, a small gear 134, a large gear 135 and a pivotal shaft 136. The first-stage worm 132 is driven by a corresponding flexible shaft 121 of the first-stage direct current machine 12.

The first-stage worm gear 133 engages the first-stage worm 132. The small gear 134 is coaxially mounted on the first-stage worm gear 133. The large gear engages the small gear 134. The pivotal shaft 136 is coaxially mounted on the large gear 135. A limiting block 137 is secured to a sidewall of one mounting bracket 131. A first abutting block 138 is secured around one pivotal shaft 136 and is able to abut a top or a bottom of the limiting block 137. With frirther reference to Fig. 2, two first-stage contact switches 139,1 39A are respectively secured to a sidewall of the other mounting bracket 131 A. A second abutting block 138A is secured around the other pivotal shaft 136A and is contactable with one of the first-stage contact switches 139,139A.

With reference to Figs. 2 and 4, the first f&ding assembly 20 is pivotally connected to the base 10 and includes a first frame 21 and a second-stage driving device. The first frame 21 has a front end and a rear end pivotally connected between the two gear drives 13. Each first-stage angle adjuster 14 is mounted between one side of the rear end of the first frame 21 and a corresponding mounting bracket 13 1 and is driven by a corresponding pivotal shaft 136 to allow tile first folding assembly 20 to be stably pivoted relative to the base 10. The angle adjuster 14 is conventional and thus a detailed description thereof will be omitted. The second-stage driving device is mounted in the first frame 21 and has a second-stage direct current machine 22, two worm drives 23 and two second-stage angle adjusters 24. The second-stage direct current machine 22 is secured to a middle portion of the rear end of the first frame 21 and has two ends and two flexible shafts 221. The flexible shafts 221 are respectively connected to the ends of the second-stage direct current machine 22. The worm drives 23 are respectively disposed at two sides of the first frame 21.

With reference to Figs. 5 to 7, each worm drive 23 has a second-stage first worm 231, a second-stage first worm gear 232, a second-stage second worm 233, a second-stage second worm gear 234, a driving pulley 235, a driven pulley 236, a belt 237 and a driving shaft 25. The second-stage first worm 231 is connected to a corresponding flexible shaft 221 of the second-stage direct current machine 22 so that the second-stage direct current machine 22 can drive the second-stage first worm 231 to rotate. The second-stage first worm gear 232 engages the second-stage first worm 231. The second-stage second worm 233 is coaxialiy mounted on the second-stage first worm gear 232. The second-stage second worm gear 234 engages the second-stage second worm 233. The driving pulley 235 is coaxially mounted on the second-stage second worm gear 234. The driven pulley 236 is rotatabiy mounted on the front end of the first frame 21. The belt 237 is mounted around tile driving pulley 235 and the driven pulley 236. The driving shaft 25 is coaxially mounted on the driven pulley 236. Two second-stage contact switches 238,238A are respectively mounted at the rear end of the first frame 21 and are disposed at one side adjacent to one of the worm drives 23. A threaded rod 239 is coaxially mounted on the driving pulley 235 adjacent to the second-stage contact switches 238,238A. A nut 2391 is screwed onto the threaded rod 239, is longitudinally movabie thereon and has a contacting segment 2392. The contacting segment 2392 protrudes from the nut 2391 and is contactable with one of the second-stage contact switches 238,238A.

With reference to Fig. 2, the second foiding assembly 30 is pivotaliy connected to the first folding assembly 20 and includes a second frame 3 1 and a third-stage driving device. The second frame 3 1 has a front end and a rear end pivotally connected to the front end of the first frame 21. Each second-stage angle adjuster 24 is mounted between one side of a rear end of the second folding assembly 30 and a corresponding side of a front end of the first folding assembly 20, and is driven by a corresponding driving shaft 25 to allow the second folding assembly 30 to be stably pivoted relative to the first folding assembly 20 and to be foldable toward a top of the first f&ding assembly 20.

With further reference to Fig. 8, the third-stage driving device is mounted in the second frame 3 I and has a third-stage direct current machine 32, two rear worm drives 33 and two front worm drives 34. The third-stage direct current machine 32 is secured to a middle portion of the rear end of the second frame 31 and has two ends and two flexible shafts 321. The flexible shafts 32 are respectively connected to the ends of the third-stage direct cm-rent machine 32.

The rear worm drives 33 are respectively disposed at two sides of the rear end of the second frame 31. The front worm drives 34 are respectively disposed at two sides of the front end of the second frame 31.

With reference to Fig. 9, each rear worm drive 33 has a third-stage rear worm 331 and a third-stage rear worm gear 332. The third-stage rear worm 331 is connected to a corresponding flexible shaft 321 of the third-stage direct current machine 32 so that the third-stage direct current machine 32 can drive the third-stage rear worm 33 1 to rotate. The third-stage rear worm gear 332 engages the third-stage rear worm 331 and is comiected to one of two ends of a third-stage flexible shaft 35. Each front wonhi drive 34 has a third-stage front worm 341, a third-stage front worm gear 342, a third-stage gear 343 and a driving rod 344. The third-stage front worm 341 is connected to the other end of the third-stage flexible shaft 35. The third-stage front worm gear 342 engages the third-stage front worm 341. The third-stage gear 343 is coaxi&ly mounted on the third-stage front worm gear 342. The driving rod 344 has an end and a gear formed on the end and engaging the third-stage gear 343. With reference to Figs. 2 and 8, two third-stage contact switches 36,36A are respectively mounted at two sides of the front end of the second frame 31 and are respectively adjacent to the two front worm drives 34.

The footrest 40 is pivotally connected to the second folding assembly and includes two sides mid two pivotal ears 41. The pivotal ears 41 are formed respectively on the sides of the footrest 40 and are respectively secured to the driving rods 344 disposed at the front end of the second frame 31. The driving rods 344 can drive the footrest 40 to rotate relative to the second folding assembly 30 and drive one pivotal ear 41 to contact one third-stage contact switch 36A. The other pivotal ear 41 has a contacting block 411. The contacting block 411 protrudes from the pivotal ear 41 and is contactable with the other third-stage contact switch 36.

To unfold the leg rest in accordance with the present invention, with reference to Figs. 5 to 7 and 11, the second-stage direct current machine 22 is switched on and drives the second-stage first worms 23 1 to rotate, and the second-stage angle adjusters 24 can be driven to make the second folding assembly 30 pivoted relative to the first folding assembly 20 with the transmission of the second-stage first worm gears 232, the second-stage second worms 233, the second-stage second worm gears 234, the driving pulleys 235, the belts 237, the driven pulleys 236 and the driving shafts 25. With reference to Figs. 4 and 12, when the second folding assembly 30 is pivoted forward 45 degrees relative to the first folding assembly 20, the first-stage direct current machine 12 is switched on and drives the first-stage worms 132 to pivot, and the first-stage angle adjusters 14 can be driven to make the first folding assembly 20 pivoted relative to the base 10 with the transmission of the first-stage worm gears 133, the small gears 134, the large gears 1 35 and the pivotal shafts 136.

With reference to Figs. 2 and 3, when the first folding assembly 20 is being pivoted relative to the base 10, the one pivotal shaft 136 drives the first abutting block 138 and the other pivotal shaft 136A drives the second abutting block l38A. With reference to Fig. 13, as the first folding assembly 20 is pivoted forward 90 degrees relative to the base 10, the first abutting block 138 will abut the top of the limiting block 137 and the second abutting block l38A will contact one first-stage contact switch 139. An electric circuit coirnected to the first-stage contact switch 139 can be detected to determine if the electric circuit is a loop circuit and to see if the first folding assembly 20 has completed degrees of pivoting. With reference to Figs. 2 and 5,when the second folding assembly 30 is being pivoted relative to the first folding assembly 20, the threaded rod 239 secured to the drivthg pufley 235 drives the nut 2391 to move longitudinally. With further reference to Fig. 14, as the second folding assembly 30 is pivoted forward 180 degrees relative to the first folding assembly 20, the contacting segment 2392 of the nut 2391 will contact one second-stage contact switch 238. An &ectric circuit connected to the second-stage contact switch 238 can be detected to determine if the electric circuit is a ioop circuit and to see if the second folding assembly 30 has completed 180 degrees of pivoting.

With reference to Figs. 8, 9 and 15, the third-stage direct current machine 32 is switched on and drives the third-stage rear worms 33 1 to rotate, arid the footrest 40 can be pivoted relative to the second folding assembly 30 with the transmission of the third-stage rear worm gears 332, the third-stage flexible shafts 35, the third-stage front worms 341, the third-stage front worm gears 342, the third-stage gears 343 and the driving rods 344. The footrest 40 can be pivoted relative to the second folding assembly 30 until the contacting block 411 of the pivotal ear 41 contacts one third-stage contact switch 36. An electric circwt connected to the third-stage contact switch 36 can be detected to determine if the electric circuit is a ioop circuit and to see if the footrest 40 has completed its pivoting movement.

The leg rest in accordance with the present invention includes a till-ce-stage folding structure to extend its length. Therefore, the legs of a sitter can be stretched and placed on the f&ding assemblies 20,30 and feet of the sitter can step onto the footrest 40 so as to enhance comfort and minimize fatigue.

To f&d the leg rest in accordance with the present invention, with reference to Fig. 8, the third-stage direct current machine 32 is switched on and drives the footrest 40 to pivot toward a top of the second folding assembly 30.

When the footrest 40 is adjacent to the top of the second folding assembly 30 and the pivotal ear 41 without the contacting block 411 contacts one third-stage contact switch 36A, the footrest 40 has completed its f&ding movement. With reference to Fig. 5, the second-stage direct current machine 22 is switched on and drives the second folding assembly 30 to pivot toward the top of the first folding assembly 20. When the threaded rod 239 secured to the driving pulley 235 drives the contacting segment 2392 of the nut 2391 to contact the other second-stage contact switch 238A, the second folding assembly 30 has completed its folding movement. With reference to Figs. I and 3, tile first-stage direct current machine 12 is switched on and drives the first folding assembly to pivot rearward. When one pivotal shaft 136 drives the first abutting block 138 to abut the bottom of the limiting block 137 and the other pivotal shaft 136A drives the second abutting block 138A to contact the other first-stage contact switch I 39A, the first folding assemNy 20 completes its folding movement. Therefore, an area of the leg rest is reduced and arranging or storing the leg rest is convenient.

Claims (1)

1. <claim-text>CLAIMS: 1. A foldable leg rest comprising: a base (10) including a mounting board (11) and a first-stage driving device mounted on the mounting board (11); a first folding assembly (20) pivotally connected to the base (10), driven by the first-stage driving device and including a first frame (21) having a front end and a rear end pivotally connected to the base (10); and a second-stage driving device mounted iii the first frame (21); and a second folding assembly (30) pivotally connected to the first folding assembly (20), being foldaHe toward a top of the first folding assembly (20), driven by the second-stage driving device and including a second frame (3 1) having a rear end pivotally connected to the front end of the first frame (21).</claim-text> <claim-text>2. The foldable leg rest as claimed in claim 1, wherein the first-stage driving device has a first-stage direct cm-rent machine (1 2) secured to the mounting board (11); two gear drives (13) respectively disposed at two sides of the mounting board (11) and each gear drive (13) having a mounting bracket (131) secured to the mounting board (11) and receiving a first-stage worm (132) driven by the first-stage direct cm-rent machine (12); a first-stage worm gear (1 33) engaging the first-stage worm 032); a small gear (134) coaxially moirnted on the first-stage worm gear (133); a large gear (1 35) engaging the small gear ( 34); and a pivotal shaft (136) coaxially mounted on the large gear (135); and two first-stage angle adjusters (14) and each first-stage angle adjuster ( 4) mounted between one side of the rear end of the first frame (2) and a corresponding moirnting bracket (131) and driven by a corresponding pivotal shaft (136).</claim-text> <claim-text>3. The foldable leg rest as claimed in claim 2, wherein the second-stage driving device has a second-stage direct current machine (22) secured to the rear end of the first frame (2 1); two worm drives (23) respectively disposed at two sides of the first frame (21) and each worm drive (23) having a second-stage first worm (23) driven by the second-stage direct current machine (22); a second-stage first worm gear (232) engaging the second-stage first worm (231); a second-stage second worm (233) coaxially mounted on the second-stage first worm gear (232); a second-stage second worm gear (234) engaging the second-stage second worm (233); a driving pulley (235) coaxially mounted on tile second-stage second worm gear (234); a driven pulley (236) rotataHy mounted on the front end of the first frame (21); a belt (237) mounted around the driving pulley (235) and the driven pulley (236); and a driving shaft (25) coaxially mounted on the driven pulley (236); and two second-stage angle adj usters (24) and each second-stage angle adjuster (24) mounted between one side of a rear end of the second folding assembly (30) and a corresponding side of a front end of the first folding assembly (20) and driven by a corresponding driving shaft (25).</claim-text> <claim-text>4. The foldable leg rest as claimed in any claim of claims 1 to 3 further comprising a footrest (40) pivotally connected to the second folding assembiy (30).</claim-text> <claim-text>5. The foldable leg rest as claimed in claim 4, wherein the second foiding assembly (30) further includes a third-stage driving device mounted in the second franie (3 1) and having a third-stage direct current machine (32) secured to the rear end of the second frame (31); two rear worm drives (33) respectiv&y disposed at two sides of the rear end of the second frame (31) and each rear worm drive (33) having a third-stage rear worm (331) driven by the third-stage direct current machine (32); and a third-stage rear worm gear (332) engaging the third-stage rear worm (331) and connected to one of two ends of a third-stage flexible shaft (35);and two front worm drives (34) respectively disposed at two sides of the front end of the second frame (31) and each front worm drive (34) having a third-stage front worm (341) connected to the other end of the third-stage flexible shaft (35); a third-stage front worm gear (342) engaging the third-stage front worm (341); a third-stage gear (343) coaxially moimted on the third-stage front worm gear (342); and a driving rod (344) having an end and a gear formed on the end and engaging the third-stage gear (343); and the footrest (40) includes two sides and two pivotal ears (41) formed respectively on the sides and respectively secured to the driving rods (344) disposed at the front end of the second frame (31).</claim-text> <claim-text>6. The foldable leg rest as claimed in claim 2 or 3, wherein two first-stage contact switches (139,1 39A) are respectively secured to a sidewall of one mounting bracket (13 IA) and a second abutting block (138A) is secured around one pivotal shaft (13 6A) and is contactable with one of the first-stage contact switches (139,1 39A).</claim-text> <claim-text>7. The foldable leg rest as claimed in claim 3, wherein two second-stage contact switches (238,23 8A) are respectively mounted at tile rear end of the first frame (21) and are disposed at one side adjacent to one of the worm drives (23); and a threaded rod (239) is coaxially mounted on the driving pulley (235) adjacent to the second-stage contact switches (238,238A) and a nut (2391) is screwed onto the threaded rod (239), is ongitudina1iy movable thereon and has a contacting segment (2392) protruding from the nut (2391) and being contactable with one of the second-stage contact switches (238,238A).</claim-text> <claim-text>8. The foldable eg rest as claimed in c'aim 5, wherein two third-stage contact switches (36,36A) are respectively mounted at two sides of the front end of the second frame (31) and are respectively adjacent to the two front worm drives (34); one of the pivotal ears (41) of the footrest (40) has a contacting block (411) protruding from the pivotal ear (41) and being contactable with one third-stage contact switch (36); and the footrest (40) is foldable toward a top of the second folding assembly (30) to allow the other pivot& ear (41) to contact the other third-stage contact switch (36A).</claim-text>