FR2832766A1 - Gravity drive for vertical endless belt consists of hinged metal blocks that act as levers on downward side of belt - Google Patents

Abstract

The drive consists of an endless belt passing round two pulleys (P1, P2) positioned vertically one above the other and equipped with a series of hinged metal (steel) blocks (5) measuring e.g. 300 mm long by 50 mm wide and 40 mm thick. On the upward side (A) of the belt the blocks lie flat against the belt, while on the downward side they swing outwards into a horizontal position and act as levers, exerting sufficient effort to keep the belt turning.

Description

<Desc / Clms Page number 1>

PURPOSE OF THE INVENTION: USE OF THE WEIGHT OF WEIGHTING AS A MOTOR FORCE.

MEDIUM: COMBINATION OF THE WEIGHT OF WEIGHT WITH THAT - --- OF LEVER ARM.

 ENCRYPTED EXPERIMENTAL DEMCNSTRATION OF THE LEVER ARM SYSTEM.

poids et dimensions de longueur 100 mm, largeur 50 mm 1 épaisseur 40 mm, poids unitair 530 grs. Dessin 1/2 MONTAGE : Les 3 blocs sont disposés ccte a cête dans l'ordre A. B. C. Le bloc B placé entre A et C sera percé dans son épaisseur (40mm) et dans le sens de la largeur 50 mm d'un trou disposé dans le centre de sa masse, pour placer deux roulements a billes, dans lesquels passera un axe de 6 mm de diamètre d'une longueur de 150 mm.

ELEMENTS: 3 identical heavy metal blocks (ABC) in

weight and dimensions of length 100 mm, width 50 mm 1 thickness 40 mm, unit weight 530 grs. Drawing 1/2 ASSEMBLY: The 3 blocks are arranged side by side in the ABC order The block B placed between A and C will be drilled in its thickness (40mm) and in the width direction 50mm with a hole placed in the center of its mass, to place two ball bearings, in which will pass an axis of 6 mm in diameter with a length of 150 mm.

ENCRYPTED PROOF OF THE LEVER ARM SYSTEM - - --------- FIRST OPERATION - - --- The three blocks are arranged one against the other in this width (50 mm) flat. Block E with the axis, between A and C.

The three blocks will be held together with a tape placed on the high contact points of the upper faces so as to obtain a block with a length of 300 mm.

We will place an axis 15 cms long in the hole of the ball bearings of block B. To show that the whole will be in balance we will lift the axis and we will be able to note that the whole will remain horizontal.

SECOND OPERATION: - ----- Once this observation is complete, remove the tape and fix two hinges, one at the base of blocks A and B, and the other at the upper part of blocks B and C. The two ends of the axis piercing the block B will rest on

<Desc / Clms Page number 2>

510 grammes 1 CETTE EXPERIENCE PROUVE QUE L'ON peut utiliser la combinaison de deux forces : LA PESANTEUR associée au ERAS DE LEVIER pour - --- ----- -obtenir UNE FORCE MOTRICE. a fixed point and we will remove the support on which repcse the three blocks. At this moment the block A, thanks to the hinge will take a vertical position and will thus decrease the distance between the axis of the block B and the center of gravity of the block A. At the same time the two blocks A and B will tilt towards the low, thanks to the lever arm (ratio 75/150) and with a force that we have measured equal to a weighing of

510 grams 1 THIS EXPERIENCE PROVES THAT YOU CAN USE THE COMBINATION OF TWO STRENGTHS: WEIGHNESS associated with LEVER ERAS to - --- ----- - obtain MOTOR FORCE.

- - --- THE INVENTION DESCRIBED BELOW is a machine using the - -------- systems tested above and capable of operating an electricity generator.

<Desc / Clms Page number 3>

THE INVENTION IS THE REALIZATION OF A DEVICE ALLOWING the use of the force of gravity combined with that of the lever arm.

Hematical description with figures.

Two pulleys 30 cm in diameter, with flat groove 60 mm wide and 10 mm peripheral edge on both sides.

These two pulleys must be placed vertically one above the other, whose axes spaced 75 cms and provided with ball bearings, will rest on a fixed support.

These two pulleys will be surrounded by a thick strap allowing the fixing of hinges to which steel bricks will be fixed. (Drawing 2/2) These steel bricks will have the dimensions indicated in the Faragraphe "Demonstration to test. Taled of the device either: length 300 mm, width 50 mm, thickness 40 mm, weight 530 grs X 3 = 1590 grs. They will be at number of 16.

Two seros. all inactive around each pulley.

We will have 6 vertical bricks and 6 horizontal Active bricks generating a weighing each of 2 times that measured in the demonstration, ie 510 grs X 2 = 1.020 kgs and for the 6 active 6.120 kgs which will be much more important than the friction to deduct from this force that will rotate a dynamo.

Naturally it will be possible to increase the height of the device, the weight and the number of bricks to obtain the desired energy.

Claims (1)

DEVICE CLAIMS to rotate an element wound in an endless loop around two pulleys Pi and P2 arranged vertically one above the other, so that the element forms two vertical strands (A and D) respectively ascending and descending. When it turns on itself, this element carrying from place to place metal bricks (5) each articulated to the element by an articulation (6) which allows each brick to switch freely from one to the other of the two limit positions. one substantially vertical and the other substantially horizontal, so that when the element rotates on its own, the bricks which are on the ascending strand are vertical and those which are on the descending strand are horizontal. Thanks to the 6 lever arms of the 6 horizontal bricks the element will rotate with a force of 6,120 kg calculated in the shematic description. @ (Drawing 2/2) These bricks will have the dimensions indicated in THE DESCRIPTION

 (page 3 line 15): length 300 mm, width 50 mm, thickness 9 40 mm, weight 530 grs X 3 = 1590 grs. There will be 16 of them, two will be inactive around each pulley. There will be 6 vertical bricks and 6 active horizontal bricks, each producing a weighing of 2 times that measured in the DEMONSTRATION, since the lever arm will be 300 mm long. We will obtain 510 grs X 2 = 1020 grs of thrust per brick, scit pcur les 6 a thrust of 6, 120 kçs which will be much greater than the friction to deduct and the force necessary to raise a brick of half a diameter of the upper pulley