FR2849389A1 - Inclination mechanism for conveyor belt used for physical exercise has lever arm whose crosspiece is displaced by a control rod of actuating assembly, to change inclination of rolling surface frame - Google Patents

Abstract

Inclination mechanism for a conveyor belt having a rolling surface frame (11) comprises a base framework (21), a lever arm (36), a frame (32), and an actuating assembly. A crosspiece (361) of the lever arm is displaced by a control rod of the actuating assembly, to change the inclination of the rolling surface frame of the conveyor belt. The base framework (21) has a cross-piece (211), a crest, two opposed sides that can be mounted and fixed below the front of the rolling surface frame (11), and two posts (23) formed respectively in a vertical manner from the crest of the base framework (21) at each side. The lever arm (36) has a cross-piece with a center and two coupling arms (362). Each coupling arm (362) has a coupling end designed to be connected in a pivoting manner to the front of the rolling surface frame (11) of the conveyor belt. Each coupling arm (362) is fixed in a pivoting manner to one of the posts (23) of the base framework at a point between the cross-piece (361) and the coupling end of the coupling arm (362). The frame (32) has first and second opposite sides and is fixed in a pivoting manner to the cross-piece (211) of the base framework (21). The actuation assembly is fixed to the second side of the frame (32). A control rod is mounted so as to be movable in the actuating assembly and has a front end fixed in a pivoting manner to the cross-piece (361) of the lever arm (36).

Description

TILT MECHANISM FOR A TREADMILL

  The present invention relates to a tilting mechanism for a treadmill, and more particularly to a tilting mechanism for a treadmill which can suitably adjust the inclination of the running surface relative to the surface on which the treadmill rests.

  A treadmill is part of an exercise machine having a rotating tread surface mounted on a tread surface frame used by a person to exercise physically while running or jogging on the spot.

  To meet the needs of different people or the changing needs of a single person using the same treadmill, the inclination of the frame of the running surface is adjustable.

  FIG. 7 illustrates a conventional incline device for a treadmill which has a tread surface frame 60 comprising a front support 61, a coupling 62, a control screw 63, a drive device 64 and a lever 65 The rolling surface frame 60 has a front (not numbered) and the front support 61 is mounted under the rolling surface frame 60, near the front.

  The front support 61 has a front spacer 611. The coupling 62 has a longitudinal hole (not referenced) which is fixed to the front spacer 611. The drive device 64 is rotatably fixed to the coupling 62 and has a threaded longitudinal hole (not shown) aligned with the longitudinal hole in the coupling 62.

  The control screw 63 has a rear end (not referenced) and a front threaded end (not referenced). A transmission (not referenced) is pivotally connected to the rear end of the control screw 63. The front threaded end of the feed screw 63 extends through the longitudinal hole in the coupling 62 and screws through the longitudinal hole 10 threaded in the drive device 64. The lever 65, L-shaped, has an upper arm (not referenced) and a lower arm (not referenced). The lever 65 is pivotally connected 15 to the front support 61 at the perpendicular junction of the upper arm and the lower arm.

  The upper arm is pivotally connected to the running surface frame 60 near the front.

  The lower arm is pivotally connected to the transmission at the rear end of the control screw 63.

  To operate this tilting device, the driving device 64 is rotated to axially move the control screw 63 forwards or backwards. The axial movement of the control screw 63 then pivots the lever 65 which raises or lowers the front of the rolling surface frame 60 to adjust the inclination of the rolling surface frame 60.

  However, this conventional tilting mechanism for the treadmill has certain shortcomings. First, the control screw 63 is manually operated by turning the drive device 64. Manual operation of the lever 63 is inconvenient and can be difficult. Second, the control screw 63 is only accessible from the front of the treadmill at a lower position. A person really cannot turn the drive device 64 to adjust the inclination of the running surface frame 60 while running on the treadmill. Instead, the person should stop running and move forward on the treadmill in order to turn the training device 64. When the person resumes running on the treadmill, the inclination of the surface frame bearing 60 may not be suitable. The person must repeat the process until the inclination of the running surface frame 60 is suitable. Repeated adjustment of the conventional tilt mechanism for the treadmill frame is not practical and pleasant.

  The object of the present invention is to solve the problems mentioned above.

  For this, the main objective of the invention is to provide an inclination device for a treadmill running surface frame which uses an electric motor to adjust the inclination of the tread surface frame such as a Adjusting the inclination of the rolling surface frame is easy for an operator.

  More specifically, the subject of the invention is a tilting mechanism for a treadmill having a running surface frame with a front, the tilting mechanism comprising: - a base frame having a crosspiece, a top, two sides opposites adapted to be mounted and fixed below the front of the rolling surface frame and two uprights respectively formed vertically from the top of the base frame at each side; a lever arm having a cross member 10 with a center and two coupling arms, each coupling arm having a coupling end adapted to be pivotally connected to the front of the treadmill frame and each coupling arm pivotally attached to one of the uprights of the base frame at a point between the cross member and the coupling end of the coupling arm; a frame having a first side and a second side opposite the first side and pivotally attached to the cross member of the base frame of the treadmill; and - an actuating assembly fixed to the second side of the chassis and having a control rod, the control rod being movably mounted in the actuating assembly and having a front end pivotally fixed to the cross member of the lever arm; - in which the cross member of the lever arm is moved by the control rod thus changing the inclination of the tread surface frame of the treadmill. According to a preferred embodiment of the present invention, the control rod is a rack having the front end, the front end of the rack is pivotally fixed 5 to the center of the cross member of the lever arm, and the assembly actuator further comprises: - a motor with a shaft fixed to the first side of the chassis and the motor shaft extending through the chassis from the first side to the second side; and 10 - a pinion fixed to the motor shaft at the second side of the chassis and engaging the rack in order to cause the rack to move. According to another embodiment of the invention, the control rod is a worm screw having the front end, the front end of the worm screw is pivotally fixed to the center of the cross member of the lever arm , and the actuation assembly further comprises: - a motor with a shaft fixed to the first side of the chassis, the motor shaft extending through the chassis from the first side to the second side, and - a gear worm gear attached to the motor shaft at the second side of the chassis and engaging the worm gear to cause the worm gear to move.

  Preferably, the tilting mechanism further comprises: - an adapter spacer adapted to be slidably mounted in the base frame of the treadmill, the front end of the rack being fixed to the spacer adapter, and - a curved lifting rod with a first end and a second end, the first end being pivotally fixed to the adapter spacer corresponding to the front end of the rack and the second end being fixed from pivoting in the center of the lever arm cross member.

  Other characteristics, details and advantages of the invention will emerge on reading the description made with reference to the accompanying drawings given by way of example which respectively represent: - Figure 1, a side plan view of a treadmill having a tilt mechanism according to the present invention; - Figure 2, an enlarged perspective view of the tilting mechanism of Figure 1; - Figure 3, an enlarged operational side plan view of the tilt mechanism of Figure 2, with a minimum tilt of the rolling surface frame; FIG. 4, an enlarged operational side plan view of the tilt mechanism of FIG. 2, with a maximum tilt of the rolling surface frame; - Figure 5, an operational side plan view of the treadmill of Figure 1 illustrating that the treadmill is foldable; - Figure 6a, an enlarged side plan view of a second embodiment of the mechanism according to the present invention; - Figure 6b, an enlarged side plan view of an alternative embodiment of a second embodiment of the mechanism according to the present invention; and - Figure 7, a side plan view of a treadmill with a conventional tilting mechanism according to the prior art.

  Referring to Figure 1, a treadmill (not referenced) according to the present invention comprises a tread surface assembly 10, a pedestal assembly 20, a tilt mechanism 30 and a front support 40.

  The rolling surface assembly 10 is connected to the base assembly 20 by means of the tilting mechanism 30 which regulates the inclination of the rolling surface assembly 10 relative to a surface 20 (not referenced) on which the treadmill is positioned. The front support 40 has an apex (not referenced), is mounted in the base assembly 20 opposite the rolling surface assembly 10 and is adapted to support handles (not referenced) and a screen (not referenced) ) on the top of the front support 40. The rolling surface assembly 10 comprises a rolling surface frame 11, a movable rolling surface 12 and rollers 13. The rolling surface frame 11 has a top (not referenced), a background (not referenced), a front (not referenced) and a back (not referenced).

  The movable rolling surface 12 is mounted in the rolling surface frame 11 to form a flat movable surface (not referenced) on the top of the rolling surface frame 11 on which a user walks or walks in place. The rollers 13 are respectively mounted on the bottom of the rolling surface frame 11 to conveniently move the rolling surface frame 11.

  Referring to FIG. 1, the base assembly 20 comprises a base frame 21, rollers 22 and two uprights 23. The base frame 21 has a spacer 211, a top (not referenced), a bottom 15 ( not referenced), a front (not referenced), a rear (not referenced) and two opposite sides (not referenced).

  The rollers 22 are respectively mounted on the bottom near the rear of the base frame 21.

  The uprights 23 are respectively mounted on the top of the opposite sides of the base frame 21.

  The tilt mechanism 30 in accordance with the present invention is movably mounted between the rolling surface assembly 10 and the pedestal assembly 20. The tilt mechanism 30 includes an actuation assembly (not referenced) , a frame 32, an adapter bar 34, a lifting rod 35 and a lever arm 36.

  The frame 32 has a first side (not referenced) and a second side (not referenced) opposite the first side and is mounted in the spacer 211.

  The actuation assembly is fixed to the chassis 32 and includes a motor 31 and a control bar (not referenced). The motor 31 has a shaft (not shown) and is fixed to the first side of the chassis 32.

  The motor shaft extends through the chassis 32.

  The control rod is movably mounted on the second side of the frame 32 and is coupled to and driven by the motor shaft to drive the control rod in one of the directions forwards or backwards . The control rod can be installed with a rack 331 and a pinion 332 which is fixed to the motor shaft 31 or equivalent, such as a worm gear 332 'and a worm 331' illustrated in the figure 6b. Thus the motor shaft 31 can pivot the pinion 332 to move the rack 331 on the second side of the chassis 32.

  The rack 331 has a front end pivotally connected to the adapter bar 34. The adapter bar 34 has two ends (not referenced) slidably mounted in the base frame 21 at opposite sides, respectively . The lifting rod 35 is curved and has a first end (not referenced) and a second end (not referenced). The first end of the lifting rod 35 is pivotally attached to the adapter bar 34 corresponding to the front end of the rack 331. The lever arm 36 has a cross member 361 and two coupling arms 362. The crosspiece 361 has a center (not referenced). The second end of the lifting rod 35 is pivotally attached to the cross member 361 at the center of the cross member 361 of the lever arm 36.

  Each coupling arm 362 has a coupling end (not referenced) and is respectively pivotally fixed to each upright 23 of the base frame 21 at a pivot point between the crosspiece 361 and the end d coupling of the coupling arm 362. The coupling ends of the coupling arms 362 are respectively pivotally connected to the front of the rolling surface frame 11.

  Referring to Figure 3, the motor 31 rotates the pinion 332 which drives the rack 331 forward. The lifting rod 35 pushes the cross member 361 of the lever arm 36 and the cross member 361 moves upward. As the cross member 361 moves upward, the coupling ends of the coupling arms 362 will move downward and lower the front of the running surface frame 11. While the front of the running surface frame bearing 11 moves down, the inclination of the bearing surface assembly 10 is reduced.

  Referring to Figure 4, the motor 31 reverses and rotates the pinion 332 which drives the rack 331 rearward. The lifting rod 35 pulls the cross member 361 of the lever arm 36 downwards.

  As the cross member 361 moves downward, the coupling ends of the coupling arm 362 on the pendulum-shaped lever arm 36 will lift and raise the front of the running surface frame 11. While the front of the rolling surface frame 11 moves upward, the inclination of the rolling surface assembly 10 is increased.

  Referring to Figure 5, the rolling surface assembly 10 can be folded against the front support 40 because the front of the rolling surface frame 11 is pivotally connected to the coupling ends of the coupling arms 362. 10 Thus, the treadmill will occupy a minimum space while the treadmill is not in use or is being transported.

  Referring to Figure 6a, a second embodiment of a tilt mechanism for a treadmill in accordance with the present invention can be installed with all of the elements of the first embodiment except for the adapter bar 34 and the lifting rod 35. The front end of the rack 331 is directly pivotally connected to the center of the cross-piece 361 of the lever arm 36 and the frame 32 is pivotally fixed to the base frame 21.

  As the rack 331 is driven forward by the pinion 332, the cross member 361 of the lever arm 36 is raised and the front of the running surface assembly 10 is lowered which reduces the tilt of the running surface assembly 10.

  Similarly, the crossmember 361 is lowered and the front of the rolling surface assembly 10 is raised while the rack 331 retracts which increases the inclination of the rolling surface assembly 10. Thus, the inclination of the running surface frame of the treadmill 11 is adjustable.

  Referring to Figure 6b, an alternative embodiment of a tilting mechanism 5 for a treadmill in accordance with the present invention can be installed with all of the elements of the second embodiment. The control rod in the above description can be installed with a worm screw 331 'and a worm gear 332' 10 which is fixed to the motor shaft 31. The worm screw 331 'has a front end (not numbered) which is pivotally directly connected to the center of the cross member 361 of the lever arm 36 and the frame 32 is pivotally attached to the base frame 21. While the worm 331 'is driven towards the 'before by the worm gear 332', the cross member 361 of the lever arm 36 is raised and the front of the rolling surface assembly 10 is lowered which reduces the inclination of the assembly by 20 rolling surface 10. Similarly, the cross member 361 is lowered and the front of the rolling surface assembly 10 is raised while the worm 331 'retracts which increases the inclination of the running surface assembly 10. So the tilt of the surface frame of rolling of the treadmill 11 is adjustable.

  The tilt mechanism for the front of the running surface frame of the treadmill is motorized by the motor 31 which can be electrically connected to a control box (not shown) fixed to the top of the front support 40. The control of the revolutions of the motor shaft is conventional therefore the rack 331 can extend or retract easily in order to increase or reduce the inclination of the running surface assembly 10, even if a 5 person uses the treadmill . In addition, the rolling surface frame 11 is easily folded against the front support 40 to reduce the volume of the treadmill for storage or transport since the rolling surface frame 11 is pivotally attached to the coupling ends. coupling arms 362.

  The invention is in no way limited to the embodiments given solely by way of illustration of the subject of the invention.

Claims (4)

  1. Inclination mechanism for a treadmill having a tread surface frame (11) with a front, the inclination mechanism comprising: - a base frame (21) having a crosspiece (211), a top, two opposite sides adapted to be mounted and fixed below the front of the rolling surface frame (11) and two uprights (23) respectively formed vertically from the top of the base frame (21) at each side ; 10 - a lever arm (36) having a crosspiece (361) with a center and two coupling arms (362), each coupling arm (362) having a coupling end adapted to be pivotally connected to the front of the tread surface frame (11) of the treadmill and each coupling arm (362) being pivotally attached to one of the uprights (23) of the pedestal frame (21) at a point between the cross member (361) and the coupling end of the coupling arm (362); - a frame (32) having a first side and a second side opposite the first side and pivotally fixed to the crosspiece (211) of the base frame (21) of the treadmill; and - an actuating assembly fixed to the second side of the chassis (32) and having a control rod, the control rod movably mounted in the actuation assembly and having a front end pivotally fixed to the cross member (361) of the lever arm (36); - In which the crosspiece (361) of the lever arm (36) is moved by the control rod 5 thus changing the inclination of the running surface frame (11) of the treadmill.   2. The tilt mechanism according to claim 1, wherein the control rod is a rack (331) having the front end, the front end of the rack (331) being pivotally attached to the center of the cross-member. (361) of the lever arm (36), and the actuation assembly further comprises; - a motor (31) with a shaft fixed to the first side of the chassis (32), the motor shaft (31) extending through the chassis (32) from the first side to the second side; and a pinion (332) attached to the motor shaft (31 at the second side of the chassis (32) and engaging the rack (331) to cause the rack (331) to move.   3. The tilt mechanism according to claim 1, wherein the control rod is a worm (331 ') having the front end, the front end of the worm (331') is fixed so pivotable in the center of the cross member (361) of the lever arm (36), and the actuation assembly further comprises: - a motor (31) with a shaft fixed to the first side of the chassis (32), the motor shaft (31) extending through the chassis (32) from the first side to the second side; and a worm gear (332 ') fixed to the motor shaft (31) at the second side of the chassis (32) and engaging the worm (331') to drive the screw endless (332 ') to move.   4. The tilt mechanism according to claim 2 or 3, wherein the tilt mechanism further comprises: - an adapter spacer (34) adapted to be slidably mounted in the base frame (21) of the carpet rolling, the front end of the rack (331) or of the worm (331 ') being fixed to the adapter spacer (34); and - a curved lifting rod (35) with a first end and a second end, the first end being pivotally fixed to the adapter spacer (34) corresponding to the front end of the rack (331) or of the worm 20 (331 ') and the second end being pivotally attached to the center of the crosspiece (361) of the lever arm (36).