IL303042B2 - Sleeve vibration by springs - Google Patents

Description

303042/3 - 1 - ENERGY PRODUCTION APPARATUS BY USING A BUOYANCY DEVICE AND GRAVITATIONAL FORCES WHILE BEING VIBRATED BY SPRINGS TECHNICAL FIELD The invention relates to the field of energy production apparatuses.

BACKGROUNDThere is a need to improve IL 254547 patent.

SUMMARY An energy production apparatus, including:- a water container:- a continuous belt including two continuous straps sewn one to the other!- a spacing component disposed between said continuous straps, and including rotatable wheels being large and located for leaving air spaces therebetween.

BRIEF DESCRIPTION OF THE DRAWINGS F ig. 1 is a perspective view of a energy production apparatus according to one embodiment of the invention.Fig. 2 is a front view of the continuous belt of Fig. 1. 303042/3 - 2 - Fig. 3 is a front sectional view of the energy production apparatus of Fig. 1.Fig. 4 is a top sectional view of the spacing component and the belt surrounding it.Fig. 6 is a side sectional view of the spacing component and the external strap covering it.Fig. 8 is the perspective view of Fig. 1 from another angle of view.Fig. 9 depicts another additional feature of the energy production apparatus of Fig. 1.

DETAILED DESCRIPTION Fig. 1 is a perspective view of a energy production apparatus according to one embodiment of the invention.Fig. 8 is the perspective view of Fig. 1 from another angle of view.A energy production apparatus 10 according to one embodiment includes a water container 30 for containing water 12; and a continuous belt 17 deployed between a top pulley 23A and a bottom pulley 23B.Fig. 2 is a front view of the continuous belt of Fig. 1.Continuous belt 17 constitutes a sleeve including an external continuous strap ISA and an internal continuous strap 15A, sewn one to the other.Straps ISA and 15B do not absorb water. 303042/3 - 3 - Referring again to Fig. 1, external continuous strap 15A and internal continuous strap 15B are sewn one to the other along knitting lines 50A and SOB.Since external strap ISA and internal strap 15B are knitted at knitting lines 50A and SOB shown in Fig. 1, external strap ISA and internal strap 15B be disposed apart from one another, thus forming a space 52 therebetween shown in Fig. 2.Fig. 3 is a front sectional view of the energy production apparatus of Fig. 1.A heavy spacing component 54, functioning as well as a weight, is disposed between external strap ISA and internal strap 15B at a certain region 58 of continuous belt 17, being below the water level 56, for forming space 52.Spacing component 54 includes a vertical cylinder being hollow at the center 62 thereof, and a plurality of forks 64A extending outwards from vertical cylinder 80 and fixed thereto. Each of forks 64A includes a horizontal pivot 66, for rotating (70) a wheel 68A about the horizontal pivot 66.External strap ISA and internal strap 15B attach spacing component 54. In spite of the attaching, wheels 68A of spacing component 54 are sufficiently large for leaving air spaces 72 vertically therebetween and thus between external strap ISA, internal strap 15B and spacing component 54. 303042/3 - 4 - Spacing component 54 between external strap 15A and internal strap 15B forms air spaces 72 tending to float (60) region 58 of continuous belt 17 towards above water level 56.Region 58 of continuous belt 17 is pressed outwards by spacing component 54 and is pressed inwards by the pressure of the water, and further by rings 20A,20B, etc., extending from water container 30 and fixed thereto, and surrounding spacing component 54.Attaching cylinders 21 and 22 disposed below and above spacing component 54 press external strap 15A towards internal strap 15B for not allowing the air enter therebetween above cylinder 22,'However, some air enters between external strap 15A and internal strap 15B, even outside region 58. Bottom pulley 23B solves this problem by including a plurality of protrusions 74, for releasing (73) air confined between external strap 15A אנאנand internal strap 15B into space 52. mHere we increase the weight in the air spaces above and below so that there were no air spaces left that would interfere with the operation of the facility.

The only bit of air left is between the wheels and that's fine.Fig. 4 is a top sectional view of the spacing component and the belt surrounding it.External strap 15A and internal strap 15B attach ؛צאנspacing component 54. However, wheels 68A of spacing gאנ 303042/3 - 5 - component 54 are sufficiently large for leaving air spaces horizontally therebetween and thus between external strap 15A, internal strap 15B and spacing component 54.The larger is the volume of spacing component (weight), the larger is the lifting pressure. The larger is the diameter of spacing component 54 (weight), the larger is the lifting pressure.External strap 15A and internal strap 15B must be sufficiently tough for not being folded between the wheels.Fig. 5 is the top sectional view of Fig. 4 according to another embodiment.Additional wheels 68B of spacing component 54 further leave air spaces 72 horizontally therebetween and thus between external strap 15A, internal strap 15B and spacing component 54.Fig. 6 is a side sectional view of the spacing component and the external strap covering it.External strap 15A (shown) and internal strap 15B (not shown) attach many wheels 68A forming an imaginary surface. However, wheels 68A of column 88A are disposed above and below wheels 68A of column 88B adjacent to column 88A, thus forming air spaces 72 therebetween. And wheels 68A of column 88B are disposed above and below wheels 68A of the column adjacent to column 88B, thus forming air spaces therebetween.In the same manner, wheels 68A of row 90A are disposed aside wheels 68A of row 90B adjacent to row 90A, thus forming air spaces 72 therebetween. And wheels 68A of 21.2.2024 303042/3 - 6 - row 90B are disposed aside wheels 68A of row 90C adjacent to row 90B, thus forming air spaces 72 therebetween.Fig. 7 is a perspective view of the spacing component of Fig. 6, according to the embodiment of Fig. 5.Each fork 64B of wheel 68B is fixed to a telescopic base extending from a base 96. Telescopic base 94 applies springy force 98 outside.Fig. 8 is the perspective view of Fig. 1 from another angle of view.Springy force 98 of Fig. 7 produced by springs 99, is applied on straps 15A and 15B constituting the sleeve, thus vibrating straps 15A and 15B for improving disposing them apart from one another.Fig. 9 depicts another additional feature of the energy production apparatus of Fig. 1.According to this embodiment, a vertical rod 94 extends downwards from spacing component 54 and is fixed thereto. Vertical rod 94 extends between wheels 21.A horizontal rod 96 expands a small region continuous belt 17 and is fixed to the bottom of vertical rod 94 for encountering wheels 21 against rising of spacing component 54.- Numeral 10 denotes the energy production apparatus according to one embodiment of the invention;12: water;15A,15B: continuous straps of continuous belt 17;17: continuous belt; 21.2.2024 303042/3 - 7 - ־A,20B: rings for pressing continuous belt from outside;21,22 ־: cylinders for attaching straps 15A and 15B one to the other outside region 58;־A: top pulley;23 ־B: bottom pulley;־: water container;־A,50B: knitting lines;־: space within region 58, including air;־: heavy spacing component;58 ־: region within continuous belt 17, being below the waterlevel, of which straps 15A and 15B are spaced apart from one another by spacing component 54;־: floating;־: center of cylinder 80;64 ־A: fork for wheel 68A;־: pivot;־A: wheel;־: space for housing air;־: release of air;74 ־: protrusions deviating from the rounded shape of bottompulley 23B;■ 84: wheels of ring 20A;־A,88B: columns, each including a plurality of wheels 68A;־A,90B,90C: rows, each including a plurality of wheels68A;92: wheels at the ends of horizontal rod 96;94: telescopic base of fork 64B;־: base;98: springy force of telescopic base 94; 303042/3 - 8 - - 99: spring of telescopic base 94.The reference numbers in the claims should not be interpreted as limiting the claims in any form.

Claims (7)

303042/3 - 9 - CLAIMSWhat is claimed is:

1. An energy production apparatus(lO), comprising:- a water container(30) for containing water(12);- a bottom pulley(23B), being pivotally connected to said water container(30) and disposed therewithin below a top level(56) of said contained water(12);- a top pulley(23A), being pivotally connected to said water container(30) and disposed therewithin above the top level(56) of said contained water(12);- a continuous belt(17) deployed between said top(23A) and bottom(23B) pulleys, said continuous belt(17) comprising two continuous straps(15A, 15B) sewn one to the other:- a heavy spacing component(54) disposed between said continuous straps(15A, 15B) at a region(58) below said top level(56) of said contained water(12), wherein gravity of said spacing component (54) maintains said disposition,wherein said spacing component(54) comprises:a) a vertical cylinder(80)؛b) a plurality of forks(64A) extending outwards from said vertical cylinder(80) and being fixed thereto!c) a horizontal pivot(GG) fixed to each of said forks(64A) and a wheel(68A) being rotatable(70) about said horizontal pivot(66), wherein said forks(64A) and said wheels(68A) extending therefrom are large for forming air spaces(72) therebetween, 21.2.2024 303042/3 - 10 - thereby said formed air spaces(72) float(60) said region(58) of said continuous belt(17),wherein said spacing component(54) further comprises a plurality of wheels (68B), each fixed to a telescopic base (94) comprising a spring (99) for applying springy force (98) on said two continuous straps(15A, 15B), thereby vibrating them.

2. The energy production apparatus(lO) according to claim 1, wherein said bottom pulley(23B) comprises protrusions(74) for releasing(73) air confined between said two straps(15A,15B) into said region(58).

3. The energy production apparatus(lO) according to claim 1, wherein said wheels(68A) are disposed along rows and columns, wherein wheels of each column of wheels are disposed above wheels of a column being adjacent to that column, thereby forming said air spaces(72) therebetween.

4. The energy production apparatus(lO) according to claim 1, wherein said wheels(68A) are disposed along rows and columns, wherein wheels of each row of wheels are disposed aside wheels of a row being adjacent to that row thereby forming said air spaces(72) therebetween.

5. The energy production apparatus(lO) according to claim 1, further comprising at least one ring(20A) extending from said water container (30) and fixed thereto, for surrounding said continuous straps(15A, 15B) at said region(58) below said top level(56) of said contained water(12). 21.2.2024 303042/3 - 11 -

6. The energy production apparatus(lO) according to claim 5, wherein said at least one ring(20A) comprises a plurality of wheels(84),thereby each of said straps(15A,15B) is movable between said wheels(68A) of said spacing component(54) and said wheels(84) of said at least one ring(20A).

7. The energy production apparatus(lO) according to claim 1, further comprising:- attaching wheels(21) disposed below said spacing component(54), for attaching said continuous straps(15A,15B) one to the other!- a vertical rod(94) extending between said attaching wheels(21) downwards from said spacing component(54) and being fixed thereto! and- a horizontal rod(96) fixed to a bottom of said vertical rod(94),thereby said horizontal rod(96) encounters said attaching wheels(21) against rising of said spacing component(54). 21.2.2024