阅读说明：本技术 运动跑步机 (Sport treadmill ) 是由 罗杰·贝茨 马尔科·武伊契奇 格雷戈里·华莱士 马克·奇利斯 于 2018-10-18 设计创作，主要内容包括：跑步机具有前部或后部的第一滑轮组并且具有环形带。例如,当使用者在跑步机上步行/慢跑/跑步时,滑轮随着带的移动而旋转。滑轮安装在随滑轮一起旋转的辊子管上。第二组滑轮可以位于跑步机的相反端部处以支撑带。使用在每一侧上的轴承和允许滑轮在一个方向上旋转的单向设备例如楔块式接合器将辊子管安装在固定不动的轴上。旋转方向与带的顶部的从跑步机的前部向后部的移动对应。单向设备防止滑轮在相反方向上旋转,从而防止带的顶部从跑步机的后部向前部移动。跑步机可以是无电机的且弯曲的。(The treadmill has a first pulley block at the front or rear and has an endless belt. For example, as the user walks/joggs/runs on the treadmill, the pulley rotates as the belt moves. The pulley is mounted on a roller tube that rotates with the pulley. A second set of pulleys may be located at the opposite end of the treadmill to support the belt. The roller tube is mounted on a stationary shaft using bearings on each side and a one-way device such as a wedge adapter that allows the pulley to rotate in one direction. The direction of rotation corresponds to the movement of the top of the belt from the front to the back of the treadmill. The one-way device prevents the pulley from rotating in the opposite direction, thereby preventing the top of the belt from moving from the rear to the front of the treadmill. The treadmill may be motorless and curved.)

1. A treadmill, comprising:

a frame;

an endless running belt;

a first roller assembly, the first roller assembly comprising: a first roller tube, a first rotating pulley and a second rotating pulley mounted on the first roller tube such that the first rotating pulley and the second rotating pulley rotate with the first roller tube; a first shaft fixedly mounted on the frame such that the first shaft does not rotate with the first and second rotating pulleys and the first roller tube; a first load bearing; a second load bearing; and a unidirectional device; and

a second roller assembly mounted on the frame;

wherein:

the endless tread belt is supported by the second roller assembly, the first rotating pulley and the second rotating pulley such that the first rotating pulley and the second rotating pulley rotate as the endless tread belt moves;

the first and second load bearings are disposed between the first roller tube and the first shaft such that the first roller tube and the first and second pulleys are rotatable about the first shaft;

the unidirectional device includes an inner ring fixedly coupled to the first shaft without rotating on the first shaft and an outer ring fixedly coupled to the roller tube to allow the roller tube to rotate about the first shaft in a first direction and to prevent the roller tube from rotating about the first shaft in a second direction opposite the first direction, the first and second directions enabling a top surface of the endless tread belt to move from a front of the treadmill to a rear of the treadmill and the top surface of the endless tread belt to be prevented from moving from the rear of the treadmill to the front of the treadmill.

2. The treadmill of claim 1, further comprising: a first row comprising a first plurality of support/guide bearings along a first longitudinal side of the frame interspersed with a first plurality of guide pulleys; and a second row comprising a second plurality of support/guide bearings along a second longitudinal side of the frame interspersed with a second plurality of guide pulleys, the first row and the second row supporting the endless tread belt.

3. The treadmill of claim 2, wherein the inner surface of the endless tread belt comprises: a first protrusion along a first side of the tread belt proximate to the first longitudinal side of the frame; and a second protrusion along a second side of the running belt proximate to the second longitudinal side of the frame, the first protrusion sized to fit into the first plurality of guide pulleys, the second protrusion sized to fit into the second plurality of guide pulleys such that the first plurality of support/guide bearings and the first plurality of guide pulleys support a first side of the endless running belt and the second plurality of support/guide bearings and the second plurality of guide pulleys support a second side of the endless running belt.

4. The treadmill of claim 1, wherein the second roller assembly comprises:

a third rotating pulley;

a fourth rotating pulley;

a second shaft fixedly mounted on the frame such that the second shaft does not rotate with the third and fourth rotating pulleys;

a second roller tube on which the third and fourth rotating pulleys are mounted to rotate together with the second roller tube;

third and fourth load bearings disposed between the second roller tube and the second shaft such that the second roller tube and the third and fourth pulleys are rotatable about the second shaft.

5. The treadmill of claim 1, wherein the first roller assembly or the second roller assembly further comprises an additional unidirectional device configured to prevent the top surface of the endless tread belt from moving from the rear of the treadmill to the front of the treadmill.

6. The treadmill of claim 1, wherein the first roller assembly is a front roller assembly such that the first axle is mounted on the frame closer to a front of the treadmill than the second roller assembly.

7. The treadmill of claim 1, wherein the first roller assembly is a rear roller assembly such that the first axle is mounted on the frame closer to a rear of the treadmill than the second roller assembly.

8. The treadmill of claim 1, wherein the first roller assembly further comprises:

a first insert between (a) an exterior of the first load bearing, an exterior of an outer ring of the unidirectional device, and (b) an interior of the first roller tube, the first insert on a first end of the first shaft; and

a second insert between (a) an exterior of the second load bearing and (b) an interior of the first roller tube, the second insert on a second end of the first shaft.

9. The treadmill of claim 8, wherein the unidirectional device comprises a unidirectional adapter, the inner ring comprises a portion defining a keyway, and the first shaft comprises a key configured to protrude into the keyway, thereby securing the inner ring to the first shaft.

10. The treadmill of claim 9, wherein the first insert and the second insert are made of metal, the first insert and the second insert are press fit into the first roller tube, the second insert is shorter than the first insert, and the first pulley and the second pulley are made of injection molded plastic.

11. The treadmill of claim 10, wherein the first shaft is secured to the frame with a first bolt near a first end of the first shaft and the first shaft is secured to the frame with a second bolt near a second end of the first shaft.

12. The treadmill of claim 1, wherein the treadmill is motorless.

13. The treadmill of claim 1, wherein the treadmill is motorized.

14. The treadmill of claim 1, further comprising a display, an electronic device, and one or more sensors configured to provide information to a user of the treadmill related to the user's exercise.

15. The treadmill of claim 1, further comprising: a handle that allows the user to remain on the treadmill while exercising.

16. The treadmill of claim 1, wherein the endless tread belt comprises a plurality of interconnected slats.

17. The treadmill of claim 1, wherein the frame is configured such that a top surface of the endless tread belt is curved to allow for variation in exercise intensity.

18. The treadmill of claim 1, wherein the frame is configured such that a top surface of the endless tread belt is curved such that a slope of the endless tread belt varies from end to end by at least 20 degrees.

19. The treadmill of claim 1, further comprising: a lift bar attached to a rear of the frame; and a pair of wheels attached to the front of the frame.

20. A treadmill, comprising:

a frame;

an endless running belt; and

a first roller assembly including a first rotating pulley and a second rotating pulley, a second roller assembly including a third rotating pulley and a fourth rotating pulley, the first roller assembly and the second roller assembly being mounted on the frame, the endless tread belt being supported by the first rotating pulley, the second rotating pulley, the third rotating pulley, and the fourth rotating pulley;

wherein the first roller assembly further comprises means for allowing the top surface of the endless tread belt to move from the front to the rear of the treadmill and for preventing the top surface of the endless tread belt from moving from the rear to the front of the treadmill.

Technical Field

This document relates generally to the field of athletic treadmills and techniques for mounting components to allow the pulley to rotate in one direction and prevent the pulley from rotating in the opposite direction. This document also relates to facilitating proper placement of the hand on the treadmill handle and placement of the corresponding foot on the treadmill belt.

Background

A typical treadmill has an endless tread belt supported at each end by a roller assembly that rotates to allow a person (treadmill user) to run, jog, or walk. There are electric treadmills and manual treadmills. Treadmills, particularly of the manual (i.e., non-motorized) type, may be curved to allow for variations in exercise intensity. The manual treadmill preferably does not allow the endless belt to move significantly in the reverse direction, i.e., the top surface moves from back to front. Prevention of movement in the reverse direction may be achieved by mounting a one-way clutch (also known as a one-way bearing) on one of the roller assemblies.

There is a need in the art for new and better techniques for preventing movement of an endless belt on a treadmill in the reverse direction. There is also a need in the art for new and better designs for roller assemblies that allow rotation in one direction and prevent significant rotation in the opposite direction. There is a need in the art for techniques to assist a user in coordinating a treadmill hand held position with a desired intensity and/or stride length.

Disclosure of Invention

Implementations, variations, and embodiments described in this document relate to apparatuses and methods that may meet one or more of the above-described needs and/or other needs. Selected embodiments show a treadmill having a stationary shaft and rotating rollers.

In an embodiment, a treadmill includes a frame. The treadmill also includes an endless tread belt. The treadmill further includes: a first roller assembly having a first roller tube; first and second rotating pulleys mounted on the first roller tube such that the first and second rotating pulleys rotate together with the first roller tube; a first shaft fixedly mounted on the frame such that the first shaft does not rotate with the first and second rotating pulleys and the first roller tube; a first load bearing; a second load bearing; and a unidirectional device. The treadmill also includes a second roller assembly mounted on the frame. The endless running belt is supported by the second roller assembly, the first rotating pulley and the second rotating pulley such that the first rotating pulley and the second rotating pulley rotate as the endless running belt moves. First and second load bearings are disposed between the first roller tube and the first shaft such that the first roller tube and the first and second sheaves are rotatable about the first shaft. The one-way device includes an inner ring fixedly coupled to the first shaft without rotating on the first shaft and an outer ring fixedly coupled to the roller tube to allow the roller tube to rotate about the first shaft in a first direction and to prevent the roller tube from rotating about the first shaft in a second direction opposite the first direction, the first and second directions being such that a top surface of the endless tread belt can move from a front of the treadmill to a rear of the treadmill and the top surface is prevented from moving from the rear of the treadmill to the front of the treadmill.

In an embodiment, a treadmill includes: a frame; an endless running belt; a first roller assembly including a first rotating pulley and a second rotating pulley; a second roller assembly including a third rotating pulley and a fourth rotating pulley, the first roller assembly and the second roller assembly being mounted on the frame, the endless running belt being supported by the first rotating pulley, the second rotating pulley, the third rotating pulley and the fourth rotating pulley. The first roller assembly also includes means for allowing the top surface of the tread belt to move from the front to the rear of the treadmill and for preventing the top surface from moving from the rear to the front of the treadmill.

These and other features and aspects of selected embodiments, variations, and examples in accordance with the present disclosure will be better understood with reference to the following description, drawings, and appended claims.

Drawings

FIG. 1 is a perspective view illustrating selected components and features of a curved treadmill according to selected aspects of the present disclosure;

FIGS. 2 and 3 are perspective views of the treadmill of FIG. 1 with the side shields removed;

fig. 4 and 5 are perspective views of the treadmill of fig. 1 with the hood and endless tread belt removed;

FIG. 6 is a side plan view of the treadmill of FIG. 1 with the shroud and endless tread belt removed;

FIG. 7 is a cross-sectional view of the front roller assembly of the treadmill of FIG. 1;

FIG. 8 is another perspective view of the treadmill of FIG. 1 with several components removed; and

FIG. 9 is a perspective view of a treadmill having a color-coded vertical hand-grip position and a corresponding color-coded front foot-rest position. .

Detailed Description

As used herein, the terms "implementation," "variation," "example," and similar terms and expressions refer to a particular apparatus, process, or article of manufacture and do not necessarily refer to the same apparatus, process, or article of manufacture. Thus, as used herein, "one embodiment" (or the like) in one place or context may refer to a particular apparatus, process, or article of manufacture; the same or similar language in different places or contexts may refer to different equipment, processes, or articles of manufacture. The expression "alternative embodiment" and similar words and phrases are used to indicate one of several different possible embodiments, variants or embodiments. The number of possible implementations, variants or embodiments is not necessarily limited to two or any other quantity. Characterizing an item as "exemplary" means that the item is used as an embodiment. Such characterization does not necessarily imply that the embodiment, variation or example is the preferred embodiment, variation or example; the implementations, modifications, or embodiments may be, but are not necessarily, the presently preferred implementations, modifications, or embodiments. All embodiments, variations and examples are described for illustrative purposes and do not necessarily strictly limit the disclosed invention.

"unidirectional device" refers to a unidirectional sprocket or unidirectional clutch (also referred to as a "unidirectional clutch bearing" or "unidirectional bearing") or similar type of ratchet mechanism that allows rotation in only one direction. "one-way clutch" refers to a wedge clutch, a rolling element that allows rotation in one direction but locks against movement in the other direction. Wedge adapters typically employ spring-loaded wedge rollers that allow one element to freely slide (freewheel) around the other element until the direction of rotation is reversed.

Curved treadmills allow a user to walk/jog/run on a curved surface, such as a surface that changes the incline from a substantially flat horizontal plane (zero degrees) or even a slightly negative setting (decline, e.g., a decline of less than 10 degrees) to an incline that provides significantly increased exercise intensity, e.g., 8-30 degrees from horizontal.

Some definitions have been explicitly provided above. Other and further obvious and implicit definitions and explanations of definitions may be found in this document.

FIG. 1 is a perspective view illustrating selected components of the curved treadmill 100. In this embodiment, the treadmill 100 is a motorless treadmill. The treadmill 100 includes handlebars 105 attached to handlebar frames 110A/110B; an electronic monitor/controller module 115 attached substantially in the center of the handlebar 105; an endless belt 120 made of a large number (e.g. 40 to 100) of individual slats (slat, crossbars, slats) 125; and protective shields 130A and 130B on both sides of the treadmill. The treads 122A and 122B on the top of the shrouds 130A and 130B, respectively, provide traction surfaces that a user can step on when boarding and disembarking the treadmill 100. The lift bar 155 at the rear of the treadmill 100 allows the user to lift the rear of the treadmill 100 off the ground and move the treadmill 100 against its front wheels.

Fig. 2 and 3 are perspective views of the treadmill 100 with the covers 130A and 130B removed. As can be seen in these figures, treadmill 100 also includes a longitudinal frame bar 135A on the left side; another longitudinal frame bar 135B (not shown in these figures) is similar to frame bar 135A, mutatis mutandis, and is disposed at a similar location on the right side of treadmill 100. (the "left" and "right" are randomly selected with reference to the user as the user walks/joggs/runs forward on the treadmill 100). Vertical supports 138A, 140A and 142A support the curved assembly on the left side. Likewise, a similar arrangement is on the right side of the treadmill 100 with necessary modifications. Treadmill 100 rests on front wheels 145A and 145B and on adjustable non-wheeled supports in rear portions 150A (on the left side) and 150B (on the right side, as shown in fig. 4).

Fig. 4 and 5 are perspective views of treadmill 100 with shields 130A/130B and belt 120 removed, providing a better view of frame cross members 160A/160B/160C, which can be seen extending between longitudinal frame bars 135A/135B. These figures also show portions of a multi-part front roller assembly 170 and a multi-part rear roller assembly 190.

Fig. 6 is a side view of the treadmill 100.

Fig. 7 is a cross-sectional view of the front roller assembly 170 along section AA (which is shown in fig. 6).

At the center of the front roller assembly is a shaft 172. Through holes 174A and 174B on the ends of the axle 172 receive bolts that secure the axle 172 to the frame of the treadmill 100. Note that the shaft 100 is not intended to rotate relative to the frame in response to movement of the belt 120. An oval recess 176 on the surface of the shaft 172 is designed to receive a key that can be press fit into the recess 176; the key is intended to protrude from the shaft 172 and fit into a corresponding bearing keyway on the surface of the inner ring of the one-way clutch bearing 178, thereby securing (preventing rotation of) the inner ring of the one-way clutch 178 relative to the shaft 172. The shaft may be manufactured with the key integral with the shaft.

Roller tube 180 surrounds shaft 172. It may be machined from metal, such as steel or iron. On the left side, a cylindrical metal insert 181A is press-fitted inside the roller tube 180. One-way clutch 178 is press fit inside insert 181A. The insert 181A also receives a conventional (non-unidirectional) load bearing 182A. Bearing 182A may also be press fit into insert 181A. Pulley 183A is fixedly attached (e.g., glued) to roller tube 180.

On the right side of the assembly 170, another pulley 183B is fixedly attached (e.g., glued) to the roller tube 180, and a second cylindrical metal insert 181B is press-fit inside the roller tube 180. Pulleys 183A/B may be injection molded plastic. The second metal insert 181B receives a second conventional load bearing 182B which may be press fit inside the insert 181B. Note that the second insert 181B may (but need not) be shorter than the first insert 181A because a second one-way clutch is not required. (of course, a second one-way clutch on the right side could also be employed.)

Pulleys 183A and 183B support belt 120, which has two sets of guide projections running along belt 120 on its inside. The guide projections are provided at such a width that each fits between the flanges of its corresponding pulley 183A or 183B. As can be seen in fig. 8, which is another perspective view of the treadmill 100 with the guard 130A/B and belt 120 removed, there are rows 185A and 185B of support/guide bearings interspersed with guide pulleys along both sides of the deck 122A/122B of the treadmill 100. The rows 185A/B of bearings and pulleys support the belt 120 and guide the belt 120 along with the flanges of the pulleys 183A/B (preventing excessive side slip of the belt). The guide tabs of belt 120 fit between the flanges of the guide pulleys of row 185A/B.

In operation, the roller tube 180 may freely rotate about the shaft 172 in either direction except for the presence of the one-way clutch 178. The one-way clutch 178 allows rotation in only one direction. The roller tube 180 and the pulleys 183A and 183B may rotate clockwise, as viewed from the left side of the treadmill 100, to allow the top surface of the belt 120 to move from the front to the rear of the treadmill 100 as the user walks/joggs/runs forward on the belt 120.

The rear roller assembly 190 may be very similar to the front roller assembly 170. However, the assembly 190 need not include a one-way clutch or another one-way device, as the belt 120 should not have significant movement in an undesired direction due to the one-way clutch 178 on the front roller assembly 170. The rear roller assembly 190 may also be significantly different from the front roller assembly 170; for example, the rear roller assembly may have a pulley mounted on a rotating shaft supported by a pair of bearings mounted in the frame of the treadmill.

In an embodiment, another type of one-way device is employed in place of one-way adapter bearing 178. In an embodiment, each side of the rear roller assembly 190 is similar to the right side of the front roller assembly 170. In an embodiment, there is a one-way device on one or both ends of the rear roller assembly 190. In embodiments, a one-way clutch (or another one-way device) is mounted on one, two, three, or all four ends of roller assemblies 170 and/or 190. In embodiments, the treadmill is a motorless treadmill, while in other embodiments, the treadmill is motorized.

FIG. 9 is a perspective view of treadmill 900 with color coded vertical hand grip positions and corresponding color coded front foot placement positions the treadmill 900 (which in the illustrated embodiment is curved) includes an endless running belt 920, handlebars 905, handlebar holders 910A/910B, shields 930A/930B and an electronic monitor/controller module 915. treadmill 900 also includes vertical grips 999A and 999B which may be held in different positions on handlebars 905. vertical grips 999A/B may be held in different positions using, for example, locking screws. in the illustrated embodiment, there are three positions on each side of the vertical grips three pairs of hands marked with different colored belts or L ED. for example, belts 992A and 992B may be yellow; belts 993A and 993B may be orange, and belts 994A and 994B may be red, the corresponding belts are disposed on each side of the belt 920, for example, 998A and 992B may be orange, and then placed in a vertical area under a vertical grip area with a color corresponding orange, and a yellow or a specific colored orange color, when a user places her grip A and B in a vertical area, a yellow, a vertical grip area may be placed in a yellow, a vertical area, a yellow, a may be placed in a vertical area, a may be a.

The electronic monitor/controller module may include a display and may be connected to sensors, such as a speed sensor and/or a weight sensor and/or a heart rate sensor, to provide information to the user of the treadmill regarding the user's exercise. This information may include speed, distance, total caloric expenditure, current caloric burn rate, current heart rate, highest heart rate achieved during exercise, and other data.

The features described in this document may be present alone or in any combination or permutation unless the presence or absence of a particular element/limitation is inherently required, explicitly stated or otherwise clearly indicated herein from the context.

In accordance with the concepts described in this document, not every illustrated element may be required in every implementation, and in accordance with these concepts, some elements that are not specifically illustrated may be desirable in some implementations.

This document describes in detail the treadmill and roller assembly of the present invention. This is done for purposes of illustration and, thus, the foregoing description is not necessarily intended to limit the spirit and scope of the invention described. In general, neither the specific embodiments of the invention nor the specific embodiments of their features (or their features as the case may be) necessarily limit the general principles of the invention. Certain features described herein may be used in some embodiments and not in others without departing from the spirit and scope of the invention as set forth herein. Various physical arrangements of components and various orders of steps are also within the intended scope of the invention. Many additional modifications are contemplated in the foregoing disclosure and those of ordinary skill in the relevant art will recognize that in some instances, some features will be employed without a corresponding use of other features. The above-described embodiments are illustrative, but not necessarily restrictive, even though they or selected features thereof may be restrictive to certain claims. Thus, the illustrative embodiments are not necessarily intended to define the limits and boundaries of the invention and the legal protection afforded the invention.