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MX2009008658A - Appliance for traction while sliding. - Google Patents

Appliance for traction while sliding.

Info

Publication number
MX2009008658A
MX2009008658A MX2009008658A MX2009008658A MX2009008658A MX 2009008658 A MX2009008658 A MX 2009008658A MX 2009008658 A MX2009008658 A MX 2009008658A MX 2009008658 A MX2009008658 A MX 2009008658A MX 2009008658 A MX2009008658 A MX 2009008658A
Authority
MX
Mexico
Prior art keywords
sliding
displacement
traction
path
independent
Prior art date
Application number
MX2009008658A
Other languages
Spanish (es)
Inventor
Guillermo Garza Milling
Original Assignee
Guillermo Garza Milling
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Guillermo Garza Milling filed Critical Guillermo Garza Milling
Priority to MX2009008658A priority Critical patent/MX2009008658A/en
Priority to PCT/MX2010/000067 priority patent/WO2011019260A2/en
Publication of MX2009008658A publication Critical patent/MX2009008658A/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B5/00Footwear for sporting purposes
    • A43B5/16Skating boots
    • A43B5/1641Skating boots characterised by the sole ; characterised by the attachment of the skate
    • A43B5/1658Skating boots characterised by the sole ; characterised by the attachment of the skate provided with resilient means in the sole or between the chassis and the sole
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B1/00Footwear characterised by the material
    • A43B1/0054Footwear characterised by the material provided with magnets, magnetic parts or magnetic substances

Landscapes

  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Rehabilitation Tools (AREA)
  • Motorcycle And Bicycle Frame (AREA)
  • Friction Gearing (AREA)

Abstract

The invention relates to an appliance for traction while sliding between two surfaces that are in contact along a path of displacement, characterised in that it comprises a sliding surface, a structure for supporting independent rotating means, independent rotating means, at least one surface for applying the load, a support and levelling chassis, at least one start area, at least one end area, at least one sliding path, cavities, and control means, the sliding surface and the independent rotating means together receiving and splitting the traction force, at least once simultaneously, between the friction force generated by the sliding surface and the torque generated by the independent rotating means. The traction force has a continuous traction profile along the sliding path from the beginning to the end, optimally generating a desired movement profile with the desired control conditions, for the use of the appliance.

Description

Sliding traction device DESCRIPTION BETWEEN OF THE INVENTION The invention relates to the field of multi-axial sliding between, in particular, the use of the sliding profile with the sliding 100% by friction that occurs both while the speeds are matched where there is no profile, and when Braking is sought for the sole purpose of being zero by applying only a frictional force, the object of which is to have a traction device to the sliding of an object with a traction profile or resistance to controlled movement, c iction and by a mechanical torque applied by means of rotating independently simultaneously in a simultaneous way, through the contact between the one or the supe n of the load of the object, with the friction existing between it and the sup BACKGROUND The surfaces where the slip occurs, invariably only the alteration of the speed caused by the change of the domain of the static cn, known as μ5, when it is at rest, by the dynamic friction, known as μ ^, when it is in motion the coefficients of the materials used, it would appear in the p impossible to overcome, given that the force to start the movement to the force required to continue the movement once started, have of force present at the beginning of the movement causes an acceleration le, which causes imbalance, loss of stability, damage of the heat among other things.
To minimize or minimize this effect and, where appropriate, to avoid it, other inventors have very far from the present invention, to detect the slides to control it, as is the case of Tamai Goro and his colleagues with , 670 where they use sensors and a control to reduce the slippage r l l l l l l l l l l l l l l l Between two surfaces without sliding, definition parci l interest of the traction force that is exerted between two surfaces cua iento. The reason is influenced by the apparatuses that have created the problem of sliding, among which we can point out the snow bands as an example, US Pat. No. 7,347,512 by Jules D as to prevent the rims of the cars from spilling on the ice. 7,543,618 of Dermis I. Stewart, for example, the shoe peaks in US Pat. No. 7,412,784 of Jonathan Bobbett, among others, are fully justified but at the same time leave no opportunity for the concept that the force opposing the sliding or pulling force , there is still slippage itself, that said inventions give before it has slipped and therefore it has not been addressed in that it takes advantage of the potential it has. It seems that the use of the term aba in the past that, or we wish there is a lot of traction without slippage and traction but only sliding without friction, both conditions of It occurs in short periods of time regularly until the speed of the driving part is equalized with the speed or at the end of the movement when absolute braking or short sliding is not achieved until the movement stops, in both the friction, wear and heat generation being undesirable outside.
Sliding could be exploited in many cases by the sliding traction apparatus of the present invention, motor means that consume energy and require retroactive controls are given conditions that in many cases were present and did not take advantage of this type are the treadmills having the ability to desli the use of motorized endless belts with high energy consumption, the same as intended and adding other variables outside the intention r in the US Patent 5,599,259 of Richard E. Skowronski and his colleagues inv existing cases, solutions that do not satisfy the inventor form the present invention does not have that undesirable change, which, loss of stability, damage of the materials and excess of heat in this invention the sliding is desired and is used in its totality described by describing a traction or braking profile or force or even better, a traction profile that extends the The concept generates that is commonly used in the conditions when there is no displacement including precisely the slip mentioned under conditions of braking tendency, controlled, to take advantage of it, and the use of the basic concept of the present invention to many others such as the equipment for the Physical perfection, among others, in the solution of problems used in conventional equipment, has not been possible because of its limited scope. is presented between an area that we will call application area of at least two areas, composed of a first area that will slide and a second area that we will call the area of co of sliding, without the need for additional brakes, achieving one nte and with less wear.
For this purpose, the present invention is characterized by the division of the a to the movement or traction in at least two components, in that of its trajectory simultaneously in the contact area, the friction of the part of the traction surface is maintained. which we shall call the contact, which is in contact with the moving object, and the other pair to transmit a mechanical torque, such as the means, where said decomposition of the tension or resistance to the main characteristic of the present invention . Being the ethics of the materials, of their flexibility, of their finishes or roughness that they present in contact with other materials, and being a mechanical pair or independent rotary means, those that rotate such as the rollers, the spheres and the cogwheels, between, the effect of uncontrolled sliding force is reduced by avoiding different, we must take into account the component of the axis of rotation, and pay attention to the static friction characteristic of the perimeter of the independent rotating means to avoid supe and prevent the degree of inclination alter the direction of movement 0 this is the purpose. reason the independent rotating means must have in its friction sup- port such that it allows the component of the force that does not overcome the coefficient of static friction by altering the direction of the mo or the effect of the inclination of the independent rotating means with On its surface, it requires the sliding surface to guide the movement and not to be static friction of the surface of the means itself, in any direction other than the direction of the sliding, it is necessary to move the surface more smoothly. the combination of the independent rotating means and the sup, provide the controlled slip in the required direction, EVE DESCRIPTION OF THE FIGURES Figure 1 shows a graph where we can see two mpo curves to move, the first curve called (the) correspond flat and rigid that slides on another similar, at the time the static friction (μ8) and is accelerates displacement due to licada, since the force required to overcome the coefficient of friction ucho minor. The second curve called (c2) corresponds to a only in independent rotating media, which rotate on its movement and moves with a displacement contra. In the background you can see, in dotted lines in shades of black, more friction (f) against the applied Force (F) before and after overcoming the static cn (μ8), as a reference for the reader.
Figure 2 shows a graph representing the distance curve against the sliding traction apparatus of the present invention. 3 shows a graph showing the distance curve of the sliding traction apparatus of the present i as (c4), along a path of simultaneous simultaneous displacement at least once of friction sliding and the independent rotating rods, with the desired traction profile. It is zero speed ("v = o") at the beginning and also at the end of the trajectory. Figure 4 shows a graph that represents a first curve of the graph, indicated as (c5) and in the lower part, a second as (c6), of displacement velocity, both plotted as by ertical, and in the horizontal axis against the physical position in the trajectory from the beginning to the end, of the traction apparatus to the invention. The region of zero velocity at the start and at the speed itself and its respective traction traction region (c5), at the top, can be appreciated. ura 5 a graph representing the division of 100% of Figure 7 is a drawing in profile view or side view of the independent rotary means (2), with the rotating elements independent of the roller and the type of sphere, and with the supports for its support and) placed on the support and leveling chassis (5) to level the independent as a whole and also represent the means placed with its axis between zero and ninety degrees with respect to the direction (16) of the sliding traction device.
Figure 8 shows a drawing in plan view of the traffic apparatus, showing the support structure integrated with the supe- dance (7) into a single unit, the independent rotating means (3) ally to the direction of movement, the means rotating inde s with its axis between zero and ninety degrees with respect to the direction of the surface of application of the load (4).
Fig. 9 shows a drawing in profile view showing the apparatus of support, wherein the support structure is part of the surface The height (8) and its conical axis-type centering guide (8), both of which operated for support and height adjustment (8), of a sliding traction device 11 shows a drawing in a section view of independent representing profile (3) of the type of sphere, supports for its support and adjustment of the sphere type, placed equidistantly in the recess (6), in addition sliding skid (1) of a sliding traction device.
Figure 12 shows a cross-sectional drawing of a profile view, of the slip, where the load application surface (4)) where an independent rotating means (3) magneti springs are housed as support means and height adjustment (8) and supported by a first part of the sliding surface (1) with which it has (38) that give multiple coefficients of friction and for a second the part of the sliding surface (1), inclined an angle (a), res part of the sliding surface, which has variable magnitude means (13), which are connected to magnetic media control As an integral part of the object to be slid (9), of the type that is used in the sliding surface (1) and the independent rotary means 15, a drawing in plan view of a curved trio apparatus is shown, with a sliding surface (1) integrated with the est), with spheres as independent rotating means (3), for an arrangement in a curved path.
Figure 16 is a drawing in profile view of a tread apparatus, with a sliding surface (1), with spheres as a means (3), for a traction profile arrangement in a curved path, ura 17 a drawing is shown in plan view showing a spherical sliding a, with a sliding surface (1) and independent spheres (3).
Figure 18 shows a drawing in a partial view of a trans section to a sector of a sliding traction apparatus, with independent spheres (3), with supports for its support and height adjustment (8) 21 shows a drawing in plan view or above of a treadmill apparatus, where the application surface of the car in shadier shades, indicating in addition to what has already been described, the rece of the movement (20) that serve guide to sliding, the recesses col between zero and ninety degrees of the direction of movement (21) that braked by the dynamic friction and the recesses to 90 degrees of the dire to (22) that definitively stop the sliding when its profile d uiere. 22 shows a drawing in profile view representing a treadmill apparatus, complementing the previous figure 21, 23 shows a drawing in front view or on the front side, which replaces the tread slide, complementing figure 21. Figure 24 shows a cross-sectional drawing of a view of the sliding traction with the surface of the tread. sliding (1) entity, with multiple concentric cyclic recesses (6) and supported by the Figure 27 shows a cross-sectional drawing of a view of the sliding traction with the sliding surface (1), with a cyclic recess path (6) with two options, Fig. 28 shows a drawing showing a cross section of a sliding traction apparatus, where the load is applied in multiple directions of application of the load on multiple superstructure (1), independently of the direction of application of the load. independent loads (3), with support elements for its support and, spring type and leveling means (1 1) also spring type, in est 10) as part of the support and leveling chassis (5), placed as elements of the surface of application of the load (4), for each independent revolving s (3), placed in the recesses (6).
Fig. 29 shows a cross-sectional drawing of a view of the sliding traction with support means and height adjustment (8 sliding surface (1) and the supporting frame and level). they place sections of sliding surfaces (1) and independent units d (3) with the support for their support and height adjustment, now 31 a cross-sectional drawing of a front view, of n to the sliding with an application surface is shown of the flexible load sliding surface (1) divided into a first and a second inclined part with the upper part facing outwards and lateral adjustment means opening of the first and second part of the sliding surface of the independent rotary means (3) roller type, support structure integrated to the sliding surface (7), with sop and height adjustment (8), in a support structure (10) and means are added in the support and leveling chassis (5).
Figure 32 shows a drawing in a plan view or above, of a slip shown in Figure 31, indicating the guides of aju keeping both ends in the longitudinal direction aligned, as well as lateral adjustment (42), the sliding surface (1), the means to the movement between the two surfaces, with its increases and decreases, as corresponds to the profile of traction to the specific movement that will be called surface surfaces of sliding and the other the application of the load, being able to be a plurality of surfaces of the surface application of the load can be an integral part of. e the object to be slid can be a person, to cite an example, to it, that unloads its weight on the sliding surface, through d ducks, whose soles are the surface of application of the load or with which body. the object to be slid or person of the example, applies a force of desl force that it uses to walk, only that instead of impelling the cue omo corresponds to the action of walking towards the front, keeps the cue esliza towards back is the surface of application of the load, up to li similar to the action of walking. movement, would cause the motion of the balance to be out of control, without having the opportunity to stop it for the sudden, and without having available a traction force to the movement that the traction that offers enough support to recover the body stops the movement. step to start the return, as it would do if or, as explained in the present example. traction surface of the present invention, the s elements are provided to provide the appropriate traction profile with sufficient force of the trajectory of displacement, so that said traction lr a profile of predictable and calculated movement so that the effect of ga . or sliding traction of the present invention consists of the sliding resistance in a first and a second comp omponent corresponds to the force of friction between the surface of apli and the sliding surface in any of its multiple parts and the coefficient of static friction known as (μ5) is overcome and This is due to the excess applied force, since the required force of dynamic friction known as (μ |?) is much smaller, the opportunity to correct slippage or use, by the sudden increase in speed, making any lemmatic and costly effort. part the independent rotating means (3) offer us a resi niento of a surface that rests on its involute, by the torque to turn them, with the advantage that when applying a force its angular velocity is increased without an extraordinary change of speed The friction described, without taking into account that this facility or its mechanical torque, would lengthen the movement for too long with the torque described to stop it.
To show the effect described we have the curve called (c2) that corresponds without the possibility of expecting the dynamic coefficient of friction to appreciate the curve (c2) in the long slides in trolleys on the basis of both physical events to achieve a superior result and d of them, constitutes the innovation of the slip-traction apparatus. the advantages of the independent rotating means for the purpose and the benefit of the braking by the friction coefficient of dynamic sliding after the beginning of the movement, in a co mite to have an optimal sliding traction profile, in itself and to have better control conditions for later. represent the advantages of the invention during the beginning of the rao figure 2 where a graph of the distance curve to move with the sliding traction apparatus of the, indicated as (c3), during the same period of the start of the displaces anterior, combining mostly independent rotating elements Figure 3 shows a graph of the distance curve displaced from the sliding traction apparatus of the present i as (c4), along a path of simultaneous complete completion at least once of the slip with friction and the independent rotating rods, with the desired traction profile, indicate zero velocity regions or (v = 0) at the beginning and also at the end. 4 shows a graph to represent a first curve of trac erior of the graph, indicated as (c5) and in the bottom, a segund of displacement indicated as (c6), both graphed as lime, and on the horizontal axis against the physical position in the trajectory from the beginning to the end of the traction apparatus to the invention slip to be able to appreciate its relation and behavior, I appreciate zero velocity at the beginning and at the end of the velocity curve itself to 100% traction region in the traction curve or (c5), in the part su The sliding traction apparatus is shown in all ss with figures 6, 7, 8 and 9, in its basic embodiment, wherein the drawing of the sliding surface (1) of the trimming apparatus in view of plant, showing the recesses (6) for the independent ones to pass, in figure 7 a drawing of the structure of independent raters (2) is shown in profile view, with the right elements (3) of the roller type and the type of sphere, and with means of support (8) placed in the support and leveling chassis (5) to level the independent as a whole and also represent the means placed with its axis between zero and ninety degrees with respect to the dir ( 16), in figure 8 there is shown a drawing representing the apparatus in plan view, showing the structure of integrated sliding support (7) in a single unit, the rotational means independent S transversely to the direction of movement, the media placed with their between zero and ninety degrees with respect to the dir (3), including in addition the load application surface (independent raters placed with their axis between zero and ninety degree of motion (16), where the area of the independent rotating means can be seen and the specific area of the means for a direction of the sliding of the top part to the figure 8 as in figure 9.
Figure 10 shows a drawing in profile view, of an independent rotating means of roller with support all along its surface with centric guide or optimum to apply a variable torque by this means, where both support and height adjustment (8).
Figure 1 1 shows a cross-sectional drawing of a profile view, of independent (3) of the sphere type, with support and dial adjustment means, placed equidistantly, in addition the sup (1) of a sliding traction device, very useful for tr or curves where the direction of movement is not straight. ), with respect to the first part of the sliding surface, the variable magnetism aglets (13), which are connected to the agnetic (14) through the input terminals (a, b, c) and the ter and, z), where the sliding traction is determined by: 1) The friction tees that determine a component of the traction of acu in which it is in contact with them, being defined from multiple means of support and adjustment of height, such as the spring type between a traction component, by adjusting the height of the rotating means independent of the applied load; 3) The inclination (a) of the second part of the supply that provides its traction component depending on the angle of the position to which it is located; 4) The variable magnifying means contribute their traction component depending on the veliento. and important to describe is the case of flexible surfaces for what you see that shows a cross section of the side view, indicating a It was with the combination of a sole that favors the perman ent or mooring if it were only a sliding friction, the fav is for a controlled sliding with the independent rotating means the independent rotating means we have the spheres that we can in in the figures 15 , 16, 17 and 18, in which figure 15 shows a superior of a curved sliding traction apparatus, with a support (3), with spheres as independent rotating elements (support (7), for an arrangement of traction profile on a trajectory c shows a cross-sectional drawing of a profile view of indicating the sliding surface (1) and the rotary means indep figure 17 the spherical sliding surface (1) is shown with l independent (3 ) also spherical, in its plan view and in the partial view of a cross-section of the profile or side view, of sliding traction aratus, with the application surface of As independent rotating elements (3), with supports for s after it has been exposed to a displacement, and in fig to a plan view or top view of the preceding figure indicating the S.
S the figure 21, 22 and 23, to describe the traction apparatus to the slide, where the surface of application of the load (4) that is represented that shows us in a floor view, in more subdued tones, the sole of ca the load periodically, with each step independently, the attached not necessarily parallel, guided by the direction of the movement rio (20), increased the profile of traction by friction ecesos placed at an angle between zero and ninety degrees of the direction (21) and finally braking the movement by the recesses to 90 gra of the movement (22), supporting the load first in the middle (3), placed in the support structure integrated to the sup (7) and assembled all in the support structure (10) with the n (11), the whole set in order to avoid the effect of decontrol very important are the cyclic trajectories by the enormous sliding traction device of the present invention with a traction profile, especially in a vertical plane for independent axes with upward traction and ac descent traction. To describe it, we will focus on the trajectories of the displacement routes as well as support for the media and the landslide surface (1), described in Figures 24, 2 Figure 24 shows a profile view of a sliding surface with multiple concentric trajectories of the recesses (6), in the fig the profile views of a vertical sliding surface (1), with the recesses (6) of different center and, in figure 26, shows the vertical sliding surface (1), with multiple recesses (6) in complementary traffic, on the supporting and leveling chassis (5) , and the vertical sliding surface (1), with recesses (6) in a multiple unit, in which the complement of the apparatus of t set of elements of the surface of application of the load (4), independent rotating elements (3), placed in the recesses (6), e is designed and calibrated to compensate the positive effect of the gravity ia of descent and to reduce the effect of gravity on the cycle cycle cyclical path of the multiple monocycle type, Fig. 29 shows a cross section of a profile view, of a slip with a load application surface (4), flexible height adjustment (8) between the sliding surface (1) and the leveling (5). ), independently of the means of support and adjustment of s in the recesses (6) where there are also the rotating means inde the purpose of achieving an adjustment of the traction profile by means of the independent iratories (3), according to the load applied, 30 is shown a cross section of a profile view, of a sliding with an application surface of the load (4) of the object to be moved, a support structure (2) flexible, in which s and height adjustment (8), in a support structure (10) and e-media in the support and leveling chassis (5). 32 shows a plan view of a deflection device shown in FIG. 31, where the area of independent revolving elements (3) longer and of greater diameter than the initial temperature of the surface of application of the load (4) flexible, the area independent rotating entos placed between zero and ninety gra of the slide (16) to increase the traction, indicating the means 2) and lateral adjustment guides (44) to keep both ends in aligned nal, in addition to the sliding surface (1) placed support (10).
The sliding traction apparatus of the present invention is carried out as described in the figures without being limited to examples ODALITIES preferred embodiment of the sliding traction apparatus of which the sliding trajectory is straight, such as the surface, since it is one of the applications with the greatest benefit for the human being that has the "adequate traction profile" for exercise we refer to people in skeletal muscle rehabilitation or people with overweight, obesity and morbid obesity, in which the measurement applied in the exercise in any sector of the displacement, affecting the continuity in the exercise routines with u ivo in the achievement of his purposes.
When the sliding mode of the treadmill modality described uras 14, 23, 30, 31 and 32 is described, the start of the step is received without any ecte force in the anatomy of the foot-ankle-knee system and also without any force that may cause an uncontrollable acceleration, which is achieved on mostly independent rotating media and incorporates In this step, the sliding traction apparatus is required to interact with the sliding surface each time the movement and decrease the contact with the rotating means to prevent the displacement and thus allow the return of the step to start or the passage from the other extremity does the same to complete the step des inferiors. This modality is illustrated in figure 23, 31 and 32 and the d of the sports shoe with flexible sole is illustrated in figure 14 and 30. E ect the recesses in the direction of travel, indicated by the r direction of the step, as well as recesses between zero and ninety degrees (maximum at the end of the trajectory and finally multiple recesses to finish the slide, all with respect to the direction of the slide to have the displacement so that the foot can return to start another year by stretching , nor damage by the extension of the pass if there is no means to stop the displacement before starting the next step. Also serve to illustrate the example, the curve described in tooth, that said front brake should never be used by the pe. For that reason this mode is important to consider since rotating torque independent of the type of sphere in the present invention braking torque as illustrated also in FIG. 29 where the bearing surface of the sliding surface is flexible and independent of the means independent rotating, adding the advantage that no, and yes, apply the necessary traction to brake the bike with a desl e according to the needs. moreover, it is also a purpose of the present invention that the ball apparatus has a spherical shape, wherein the surface is applied to a sector that is also spherical, which moves perimetrally in order to develop its traction profile in the proper direction of s. This no less important modality I am going to explain it as it works to a sliding traction device to exercise the exts, very necessary nowadays due to the long stay times return path, already mentioned, according to the parameters and for the adjustment of the parameters once the normal recovery starts. For this example we will use figures 11, 17 and 18, in independent rotary means applied in the spherical trio apparatus, where sliding friction is combined by rolling of independent rotating means, to offer optimal traction for the movements of the hand, where the sup of the load would be a lever placed in the sphere of figure 17 and the independent ones would also be spheres as illustrated in figure 18, eg optimal traction in the direction of displacement required, ap rinciple with respect to the simultaneous application of friction and torque to the claims of the present invention.
In a preferred embodiment of the present invention when the tray is cyclical, in start-end-start or multiple paths related to an order in a cyclic manner. To illustrate how Ion completely different with requirements very alien to the extreme ascending stage. This dependence determined by the simplicity mec its own merits, does not exist in the traction apparatus to slip invention and in fact does not exist in the constitution of the system co, beyond the symmetry of the human body, since each limb, tendons, articulations and independent bone structure, and thus m is and exercise possibilities that attends the present invention d, by separating each traction profile to meet each purpose of own within which is the own traction force, the times of tr of the slip , the fixed or variable trajectory of the slip and its dida that is advanced in its application by the change of the lower needs. Precisely this differentiation is fundamental to the optimum possible of each limb without the dependence of an extreme emity, which leads to excesses that cause the discontinuity of the ejido. Moreover, there are muscles that come into operation in certain In the bicycle that we will call for the purposes of the present invention of closed cycle not dependent for lower extremities or double cycle of multiple equal repetitions for the burning of calories in lower e ects, nothing has to do with the fact that calories have been ingested incorrectly than when Exercise later, calories will go away and the alteration they caused will disappear if this were to focus the issue that the closed cycle exercise did not depend on lower ages is an exercise to offer the extremities the amount of traction, time of permanence and direction, which require that you wish to exercise for its correct functional development that it provides for each limb independently, Figures 24, 25, 26 and 27, we can appreciate some of the trajectories of the guide ln in the direction of displacement and at the same time they serve the moving leg of the sliding traction apparatus in the cyclic mode echos in a vertical sliding surface for this example, if In a similar way as regards the type of closed cycle, the radial closed cycle whose sliding develops according to one or more of its radial axes, as illustrated in figure 19 and 20 in a sliding traction device, is an invention. of cycle of radial centering, to transfer the load in a structural member that eventually is telluric coughs and that it is preferable to allow the movement under a ttrojected that to carry the effort until the rupture of the column or the break of application of the load that stops This case would be a slab or other columnar also important when the traction profile is determined by the pair of independent rotating elements. As an example for d, I will use the example of a sliding traction device on the slide rail., in which magnetic means are used that to the electric tour to feed back coils that at the same time serve as a dynamic braking system, allowing a sliding with a friction of the sliding surface with the surface in which inmic To represent it graphically I will use figure 12 again, different finishes (38) graphically represented with different text to the different coefficients of friction and I will use the example of the supra to exercise the fingers and the joints between the phalanges, where controlled s the different bending angles and the surface of the tr to give the ideal profile. it is an important modality when the traction profile in the displacement direction is determined by the separation between the supers of the load, the sliding surface and the same independent rotating surfaces. To explain this, I will use figures 19, 28 and 29 in the different distances between the surfaces mentioned as well as the independent ones and the practical example is a reciprocating sliding seat slip traction device found in equre equipment, where it is required that the muscles of the other muscles are developed, where a special traction profile is applied The last listed embodiment of the present invention, without however being listed, is that the adjustment of the traction in the trajectory of displacement with the direction of the application of the load in the rest, in the independent rotating means and in the same sup of the load, where it is illustrated with Figure 32.

Claims (1)

  1. CLAIMS Having described my invention sufficiently, I consider as a novelty and as my exclusive property, what is contained in the following clauses: n sliding traction device between two surfaces that permtact along a trajectory of displacement, characterizes a surface of sliding, an independent support structure, independent revolving means, to the surface of application of the load, a support and leveling chassis, at the start, at least one finishing area, at least one tray, recesses and , means of control, wherein the whole of its sling and the independent rotating means receive and divide the action, at least once simultaneously, between the friction force or the sliding surface and between the torque exerted by the means dependent, where the tractive force has a long traction profile of the sliding path from the entrance to the salt Going the supports for its support and height adjustment, between the surface of the independent ratories that is in contact with the application surface, and the height of the sliding surface that is also on the surface of the application of the load. A sliding traction apparatus between two surfaces that remain along a path of displacement according to claim 1, characterized in that the application surface of the load application surfaces forms an integral part of the object of the device. Sliding traction between two surfaces that remain along a trajectory of displacement according to claim 1, characterized in that the chassis for the support and comprises a support structure and leveling means with respect to where the traction surface is being placed. , as it may be limited to it. n sliding traction device between two surfaces that allow The load application surfaces have several independent rotating friction coefficients in substitution or as an efficient complement of friction of the sliding surface and of the dependent means placed in the recesses or between the recesses of the suppression, respectively. Sliding traction apparatus between two surfaces that remain along a path of displacement according to claim 1, characterized in that the sliding surface and the independent rails are fixed and the moving surface is the surface of the load or the rails. application surfaces of the load. n sliding traction apparatus between two surfaces that remain along a trajectory of displacement according to claim 1, characterized in that, the application surface of the load application surfaces are fixed and the moving surface is the slinging with independent rotating means. claim 1, characterized in that the control means are variable magnetism means that modify the torque exerted by the dependent means and consequently the component that contribute to the force of the traction apparatus when sliding between two surfaces that remain along a length of displacement path of claim 1 1, characterized by a dynamic back control system for the control of magnetic means of variable magnetism. Sliding traction apparatus between two surfaces that permtact along a path of displacement of claim 1 characterized in that the rotating means independent and perpendicular to the direction of movement. Sliding traction apparatus between two surfaces that remain along a trajectory of displacement of claim 1 characterized in that the independent rotary means e between ninety degrees and zero degrees of the direction of movement. Riable during the period of contact with the application surface of predetermined by design and its value is fixed. Sliding traction apparatus between two surfaces that remain along a path of displacement according to claim 15, characterized in that the means for applying an ariable pair during the period of contact with the application surface of n determined by the load or weight exerted by the application surface rga. A sliding traction apparatus between two surfaces that remain along a path of displacement according to claim 15, characterized in that the means for applying an ariable torque during the period of contact with the application surface of variables determined by the velocity of rotation of the dependent media. n sliding traction device between two surfaces that allow No combination of; a) Fixed media determined by design, variables determined by weight or load, c) Variable media determines the rotational speed of the independent rotating media, d) Media terminated by the position in the displacement path; in which S combinations. Sliding traction apparatus between two surfaces that remain along a path of displacement of claim 1 characterized in that the sliding surface has n recess in the path of displacement. Sliding traction apparatus between two surfaces that remain along an offset path of claim 20, characterized in that the recess is in the displacement direction. n traction device sliding between two surfaces that remain along a path of travel A sliding traction apparatus between two surfaces that remain along a path of displacement according to claim 1, characterized in that the direction of displacement is a traction apparatus sliding between two surfaces that remain along a path of travel. displacement according to claim 1, characterized in that the direction of displacement is a sliding traction device between two surfaces that remain along a trajectory of displacement according to claim 1, characterized in that the direction of displacement is in sliding traction apparatus between two surfaces that remain along a trajectory of displacement of claim 1 characterized by a mixture of directions of displacements, curves and spherical. n sliding traction device between two surfaces that remain along a path of travel Sliding and vice versa in the ascending path decreasing to compensate the effect of gravity against slippage. Sliding traction apparatus between two surfaces that move along a path of displacement according to claim 20, characterized in that the control of the traction profile is capable of sliding the surfaces of the skateboard type of traction apparatus the sliding between two surfaces that remain along a trajectory of displacement according to claim 20, characterized in that the traction profile is reciprocal and the movement of the seat of an equipment for the exercise of oars. Sliding traction apparatus between two surfaces that permtact along a path of displacement of claim 28 characterized in that the direction of the displacement and the start to continue in straight and curved directions, alternating, propri ercicio for upper extremities.
MX2009008658A 2009-08-13 2009-08-13 Appliance for traction while sliding. MX2009008658A (en)

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MX2009008658A MX2009008658A (en) 2009-08-13 2009-08-13 Appliance for traction while sliding.
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FR2637878B1 (en) * 1988-10-17 1990-12-07 Bobst Sa DEVICE FOR TRANSFERRING AND ORIENTATION OF FLAT OBJECTS ARRANGED IN PACKETS
US6152854A (en) * 1996-08-27 2000-11-28 Carmein; David E. E. Omni-directional treadmill
PT1395344E (en) * 2001-06-12 2008-05-13 Andrzej Stafiej Ski exercising and rehabilitation apparatus
EP1466651B1 (en) * 2003-04-07 2008-05-14 GMM Training S.r.l. Treadmill for performing physical exercise having simplified actuation means
KR200335975Y1 (en) * 2003-09-29 2003-12-11 기 수 김 Circular running machine
DE102004016429A1 (en) * 2004-04-02 2005-10-20 Max Planck Gesellschaft Conveying device for e.g. treadmill, has multiple rolling bodies, which together form contact surface, and fixedly arranged in several directions of rotation in pivoting manner to move object in different conveying directions
WO2007061317A2 (en) * 2005-11-25 2007-05-31 Ziad Badarneh Exercise apparatus
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US20090170666A1 (en) * 2007-12-27 2009-07-02 Odenwald Wood Products Co., Ltd. Support Deck for Treadmill

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WO2011019260A2 (en) 2011-02-17

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