KAYAKING TRAINER

Information

  • Patent Application
  • 20170100655
  • Publication Number
    20170100655
  • Date Filed
    March 25, 2015
    9 years ago
  • Date Published
    April 13, 2017
    7 years ago
  • Inventors
    • White; Douglas Grant
Abstract
A paddling action simulating exerciser in the form of a kayaking trainer 10 comprises a paddle action simulating formation. In the form of a paddle simulating pole 12, a cord 14 that extends along the pole 12 in linearly displaceably passing therethrough, a hollow spacer 18 extending between a seating facility 20 and an anchoring layout including a cord guiding layout 22 via which the free ends 14.3, 14.4 of the cord 14 are secured to a spring 24. A multi-directionally adjustable footplate facility 40 including an upright foot abutment plate 42 fitted with a heel rest 44 and a toe strap 46 is fitted along the spacer 18. The spacer 18, seating facility 20, leg 30, footplate facility 40 and guiding layout 22 in constituting a trainer core assembly 28 is laterally rockable by way of rocking formations 78 fitting along slots 80.
Description
BACKGROUND TO THE INVENTION

In house exercising has become a general feature of modern life. The combination of an exercising effort with a training action enhances the value of such pursuit. Kayaking is a sport that involves a variety of bodily actions that take place at the same time that are not easily simulated. It is, amongst others, an object of this invention to provide equipment that extensively simulates a kayak workout even to the extent of permitting a user to make adjustments in numerous areas in benefiting from such workout.


Field of the Invention


This invention relates to a paddling action simulating exerciser. While not so limited the exerciser finds useful application in simulating a kayak paddling action.


Description of the Prior Art


Kayak training equipment known to the applicant often utilise a large fan to provide the workout resistance. This has the effect of rendering such equipment clumsy to transport between locations of use. A system involving a flywheel is also used in providing the required resistance in simulating a kayak paddling operation. The inertia of the flywheel requires a large initiating force at the commencement of a paddling routine that, once running, reduces the effort thus reducing the effectiveness of the exercise. As with the fan utilising variation, the flywheel variation also requires effort to mover between locations of use.





BRIEF DESCRIPTION OF THE DRAWING

The invention is now described, by way of example, with reference to the accompanying drawings. In the drawings



FIG. 1 shows a paddling action simulating exerciser in the form of a kayaking trainer as incorporating a seating and a footplate facility fitted to a spacer, in three dimensional view,



FIG. 2 shows the trainer of FIG. 1 in abbreviated spacer length view in more clearly showing its various parts,



FIG. 3 shows the trainer in side elevation,



FIG. 4 shows in three dimensional detail the seating facility of the trainer,



FIG. 5 shows the seating facility in the direction of arrow A in FIG. 4,



FIG. 6 shows a side elevational cross sectional detail of a bush as fitted to opposite ends of a paddle action simulating formation forming part of the trainer,



FIG. 7 in three dimensional detail shows the footplate facility of the trainer,



FIG. 8 shows the footplate facility in the direction of arrow B in FIG. 6,



FIG. 9 shows the footplate facility in the direction of arrow C in FIG. 6 and thus in side elevation,



FIG. 10 in diagrammatic side elevational view stepwise sets out the operation of the trainer,



FIG. 11 in diagrammatic footplate facility facing view stepwise sets out the operation of the trainer, and



FIG. 12 in diagrammatic overhead view stepwise sets out the operation of the trainer.





DETAILED DESCRIPTION OF THE DRAWING

Referring to FIGS. 1 to 3 and 9 and 11 of the drawings a paddling action simulating exerciser in the form of a kayaking trainer is generally indicated by reference numeral 10.


The trainer 10 comprises a paddle action simulating formation in the form of a hollow open ended paddle simulating pole 12, a cord 14 that extends along the pole 12 in linearly displaceably passing there through while its opposite end lengths 14.1, 14.2 extend beyond the opposite ends 16 of the pole 12, a hollow spacer 18 extending between a sealing facility 20 and an anchoring layout including a cord guiding layout 22 along which the free ends 14.3, 14.4 of the cord 14 are secured to expansibly contractible resilient means in the form of a spring 24 extending within the spacer 18.


The cord 14 passes against being damaged when subjected to linear displacement along the pole 12. The cord 14 under conditions of linear displacement along the pole 12 generate a factional resistive action in the pole 12 as being formed with reduced diameter opposite ends in the form of fitted bushes 26, detail of one being shown in FIG. 5, that accommodate the free though friction generating sliding of the cord 14 along the pole 12. As thus shown in FIG. 5, the bushes 26 present smooth curbed friction generating surfaces 26.1, typically in the fours of anodised surfaces. While not shown the pole 12 can also be fitted with one or more intermediate friction generating bushes.


The spacer 18 and seating facility 20 is fitted with elevating means in the form of an intermediate leg 30, on the one hand, and a seat elevating leg 32 forming part of the seating facility 20, on the other hand, for elevating the trainer 10 above a base in promoting the simulation of a kayak type paddling action. In also referring to FIGS. 4 and 5 the end region 18.1 of the spacer 18 engages with the seating facility 20 by passing along a bore in an inner seat supporting formation 34 while socketing securely to the leg 32. The seat 36 of the facility 20 is formed with leading and trailing end upward slanting sections 38 to promote a comfortable seating effect.


In also referring to FIGS. 7 to 9 the trainer 10 further incorporates a footplate facility 40 for the secure and comfortable holding of the feel of an exerciser user once seated on the seating facility 20. The facility 40 presents an upright foot abutment plate 42 fitted with a heel rest 44 and a toe strap 46. As more clearly shown in FIGS. 7 to 9 the facility 40 is multi-directionally adjustable. To this effect the facility 40 incorporates slider means by way of which the plate 42 fits slidably onto the spacer 18 by way of a circumferentially engaging leading and trailing sliders 48 each formed with a groove 50 along which a spacer fitted lengthwise key 52 engages. The trailing end slider 48 is fitted with a tightening grub 54 for securely clamping it to the spacer 18 at the desired location along the lengthwise spacing range of the facility 40 along the spacer 18. A lever 41, still shown in its unclamping condition, is used for transferring the clamping action of the grub 54 to the leading end slider 48 having the effect of simultaneously clamping the footplate facility 40 at opposite ends onto the spacer 18. The effect of such leading and trailing end clamping effect is to limit footplate facility movement during use of the trainer 10 that would otherwise have transpired owing to the considerable alternatingly left and right foot forces exerted on the footplate 42 during a training routine.


The spacer 18, seating facility 20, intermediate leg 30, footplate facility 40 and guiding layout 22 together form a trainer core assembly 28.


In addition to permitting slidable adjustment the foot abutment plate 42 in being fitted with the heel rest 44 and the toe strap 46 is also vertically as well as swivelable adjustable by way of a vertical adjustment mechanism. In referring more particularly to FIG. 9 the vertical adjustment mechanism involves the plate 42 being mounted to a back face bracket 56 that is in turn secured to the slider 48 via a complementing bracket 58 extending from the slider 48 by means of a releasable attachment clamp 60. In forming the bracket abutting faces with complementing undulations or ribs 62 the bracket 56 and thus the plate 42 is vertically adjustable in the direction of arrow 64 relative to the bracket 58 with the range as permitted by the complementing rib engagement.


As regards swivelable adjustment and staying with FIG. 9 a swivelling adjustment mechanism involves the plate 42 being swivelably mounted to the bracket 56 about swivelling locations 66 (of which the nearside one is shown). The bracket 56 is formed with arms 68 (again of which the nearside one is shown) each presenting a series of radially arranged spaced apertures 70 one of which is engageable with an aperture in the bracket 56. The plate 42 is thus swivelable in the direction of arrow 72 and lockable at the desired slope within the range of swivelling.


The extent of the paddling simulation effect as brought about by the frictional sliding of the cord 14 along the pole 12 and supplemented by the expansible retraction of the spring 24 within the spacer 18 once the trainer 10 is in use is adjustable by way of an adjusting mechanism involving an adjusting line 74 extending within the spacer 18 that extends from the end of the spring 24 remote from that to which the cord ends 14.3, 14.4 are secured. The end of the line 74 passes though the wall of the spacer 18 in close vicinity of the seating facility 20. The end region of the line 74 beyond its location of egress is fitted with a locking item 76 for adjustably holding the inner end of the spring 24 at a fixed spacing in relation to the seating facility 20. An increased tensioning effect on the spring 24 as brought about by its retraction by way of its inner end in the direction of the seating facility 20 by means of the line 74 has the overall effect of increasing a paddling simulating effort and vice versa.


The paddling action as performed a kayaking user involves a natural sideways rocking of the vessel. Such rocking effect is also incorporated in the design of the trainer 10. In again also referring to FIGS. 4 and 5 and to such effect the seating facility 20 and the intermediate leg 30 are formed with a rocking layout in the form of an arcuate bottom faced rocking formation 78 associated with each of the seating facility 20 and the leg 30 that each fits rockingly along a flat bottomed slot 80 extending laterally to the spacer 18 and formed within slot providing formations 82 respectively forming pad of the seating facility 20 and the intermediate leg 30. To limit hard impaction between the leg 32 and a base 84 during the performance of a rocking action the outer regions of the bottom edge of the leg 32 are fitted with resilient cushions 86 that come into yielding abutment with the base 84 during such rocking action.


The cord guiding layout 22 comprises cord end region supplementary friction generating means in the form of guide bushes 88 that are laterally adjustably fitted to a guide carrying rod 90 in turn fitted to a guide bush elevating formation 92 fitted to the end of the spacer 18 remote from the seating facility 20. The bushes 88 perform their supplementary friction generating effects once the trainer 10 is in use in the cord end regions 14.3, 14.4 sliding to-and-fro there along on tensioning and retraction of the spring 24.


The trainer 10 includes a pole storage facility as provided by pole accommodating notches 94 respectively formed within the leg 30 and the formation 34.


In preparing for use in performing a kayak simulating exercise and also referring to FIGS. 10 to 12 a trainer user once seated onto the seat 36 adjusts the footplate facility 40 to a comfortable setting as regards positioning along the spacer 18, vertical elevation and slope as described above. The extent of paddle simulating effort is also set by way of the line 74 as desirably tensionably setting the spring 24 with the aid of the locking item 76. The extent of paddle simulating effort can however also be set during the performance of the training routine as the location of egress of the end region of the line 74 is in close vicinity of the seating facility 20.


Once desirably set a kayak paddling simulating routine is done by performing a paddling action by way of the pole 12 that is thus conventionally kayak paddle fashion gripped by both hands about it centre with the pole 12 at the outset extending transverse to the spacer 18, as shown in FIGS. 10(a), 11(a) and 12(a). The paddling action simulating routine is performed in conventionally paddle action fashion moving the pole 12 as shown in FIGS. 10(b), 11(b) and 12(b) simulating a paddling effect along one side of the assembly 28 and FIGS. 10(c), 11(c) and 12(c) simulating a paddling effect along the opposite side of the assembly 28. During the performance such paddling effect simulation action the cord 12 is caused to linearly move to and fro along the pole 12 to accommodate the continuous variation in pole position in relation to the cord guiding layout 22. Such movement is accompanied by a friction effect on the movement of the cord 12 along the bushes 26 that simulate the drag on paddle end blades as conventionally forced through water.


During a conventional kayak paddling action the user of the equipment does not retain a stationary upper torso position within the equipment but also performs forward and rearward torso displacements. Similarly the user of the trainer 10 also performs forward and rearward torso displacements during a training routine. Such displacement actions alternatingly cause the free end regions 14.1, 14.2 of the cord 14 to by way of to-and-fro actions slide along the guide bushes 88 creating a supplementary friction effect in supplementing the friction effect of the cord along the pole 12. The to-and-fro movement of the opposite sections of the cord 12 are furthermore reflected in successive expansion and contraction cycles of the spring 24 that introduce successive relaxable tensioning actions that also supplement the friction generating effects of the cord 14 along the pole 12 bushes 88.


In simulating such conventional kayak paddling action the sideways rocking that is associated with an actual paddling action is accommodated by the rocking layout in response to the rocking effect of the lateral rocking formations 78 in their slots 80.


The overall effect of the friction in combination with the relaxable spring tensioning actions thus simulates the drag on paddle blades as urged along water during a conventional kayak paddling action having the overall effect of the trainer 10 being employable in a kayak paddling action simulating routine.


It is an advantage of the invention at least as specifically described that the trainer makes use of uncomplicated means in utilising the frictional effect of a sliding cord along a pole as supplemented by the extensible contraction of a spring to simulate a paddling effect through water while also simulating the natural rocking effect found in actual kayaking which enables trainer user to train such person's balancing skills away from a body of water.

Claims
  • 1. A paddling action simulating exerciser (10) comprising a paddle action simulating formation (12) arranged to simulate an at least one end region paddle blade type paddling action,a cord (14) that extends at least part of the length of the formation (12) there along and there beyond from at least one of the opposite end regions of the formation,expansibly contractible resilient means (24) that is associated with the cord, andan anchoring layout (22, 92) to which at least the one end of the cord (14) as extending beyond the formation is at least indirectly secured and from which the cord (14) is caused to tensionably extend up to and along the formation once held for use in performing a paddle action simulating action as thus performable by way of a to-and-fro paddling stroke relative to the anchoring layout (22, 92) with respect to which the formation (12) is under conditions of use remotely situated;characterised in the cord (14) extends displaceably relative to the formation (12) while the resilient means (24) is associated with the cord by being arranged and positioned to in conjunction with a frictional resistive action on the cord in becoming displaced against being damaged along the formation, as accommodating such, and once the exerciser is in use contribute to the simulation of a water paddling action with in the case of a one end region involving paddle blade type paddling action at least part of the resilient means also being mounted along the formation from the inner end of the cord to permit its displacement along the formation during performance of an exerciser in use paddling simulating action.
  • 2. A paddling action simulating exerciser as claimed in claim 1 in which the paddle action simulating formation is in the form of an open ended hollow formation (12) with the cord, with its egress being from at least one of the opposite ends of the formation, being fitted there along while at least part of the resilient means (24) in the case of a one end region involving paddle blade type paddling action also extending there within.
  • 3. A paddling action simulating exerciser as claimed in claim 2 in which the expansibly contractible resilient means involves at least one coil type spring (24).
  • 4. A paddling action simulating exerciser as claimed in claim 1 in which the tensioning effect of the expansibly contractible resilient means (24) is adjustably by way of an adjusting mechanism (74, 76).
  • 5. A paddling action simulating exerciser as claimed in claim 1 in which the cord (14) extends along at least substantially the full length of the formation (12) and there beyond from both opposite end regions up the anchoring layout while in the case of the formation being in the form of an open ended hollow formation the egress of the cord being from opposite ends of the formation.
  • 6. A paddling action simulating exerciser as claimed in claim 5 in which the expansibly contractible resilient means (24) is associated with the free opposite ends (14.3, 14.4) of the cord (14) and thus remote from the paddle action simulating formation (10).
  • 7. A paddling action simulating exerciser as claimed in claim 5 in which the formation as being in the form of an open ended hollow formation (12) accommodates a frictional displacement of the cord there along by at least being formed with reduced diameter opposite ends (16) along which the cord is freely though in a friction generating way slidable.
  • 8. A paddling action simulating exerciser as claimed in claim 5 that includes a seating facility (20) that is spaced from the anchoring layout (22, 92) by way of a spacer (18) while the cord in association with the paddle action simulating formation is inter-arranged in relation to the seating facility and the anchoring layout to simulate a kayak type paddling action.
  • 9. A paddling action simulating exerciser as claimed in claim 8 in which the spacer (18) and the seating facility (20) are respectively fitted with elevating means (30, 32) for causing the spacer to extend at an adequate elevation above a base of exerciser use in promoting the simulation of a kayak type paddling action.
  • 10. A paddling action simulating exerciser as claimed in claim 9 in which the elevating means includes a lateral rocking layout (78, 82) arranged to enable a lateral rocking effect simulating the naturally occurring lateral rocking associated with kayaking.
  • 11. A paddling action simulating exerciser as claimed in claim 10 in which lateral rocking layout involves arcuate bottom faced rocking formations (78) fitted to flat bottomed slots (82) extending laterally to the spacer (18).
  • 12. A paddling action simulating exerciser as claimed in claim in which the spacer (18) is hollow while the expansibly contractible resilient means (24) is fitted there along and being coupled to the free opposite ends (14.3, 14.4) of the cord (14) as entering the spacer from its end remote from the seating facility (20) via the anchoring layout (22, 92) with the spacer thus being so open ended, in the case of being tensionably adjustable while extending linearly along the spacer, adjustment involving the retraction of the resilient means in the direction of the seat by way of the adjusting mechanism.
  • 13. A paddling action simulating exerciser as claimed in claim 12 in which the end of the spacer along which the opposite ends (14.3, 14.4) of the cord engage with the resilient means (24) is fitted with a cord guiding layout (22) along which opposite end regions of the cord extend into engagement with the expansibly contractible resilient means (24).
  • 14. A paddling action simulating exerciser as claimed in claim 13 in which the cord guiding layout incorporates supplementary friction generating means (88) along which opposite end regions (14.1, 14.2) of the cord extend in supplementing the frictional effect generated along the paddle action simulating formation once the exerciser is in use in response to expansion and contraction of the friction generating means during such action.
  • 15. A paddling action simulating exerciser as claimed in claim 8 that includes a footplate facility (40) as fitted along the spacer (18) intermediate the seating facility (20) and the anchoring layout (22, 92) for securely and comfortably holding the feet of an exerciser user once seated on the seat.
  • 16. A paddling action simulating exerciser as claimed in claim 15 in which the footplate facility (40) is multi-directionally adjustable in attaining a desired seating and feet holding position for an exerciser user.
  • 17. A paddling action simulating exerciser as claimed in claim 16 in which the footplate facility (40) is multi-directionally adjustable by being linearly slidable along the spacer (18) by way of a slider means (48, 54) that releasably lockably engage with the slider.
  • 18. A paddling action simulating exerciser as claimed in claim 16 in which the footplate facility (40) is multi-directionally adjustable by being vertically adjustable by way of a vertical adjustment mechanism (58, 60, 62).
  • 19. A paddling action simulating exerciser as claimed in claim 16 in which the footplate facility (40) is multi-directionally adjustable by being swivelably adjustable by way of a swivelling adjustment mechanism (68, 70).
Priority Claims (2)
Number Date Country Kind
2013/07163 Mar 2014 ZA national
2014/06176 Aug 2014 ZA national
PCT Information
Filing Document Filing Date Country Kind
PCT/ZA2015/000015 3/25/2015 WO 00