CA2732024A1 - Add 2 a motor arel 2009 - Google Patents

Description

Name: Add 2 a Arel Engine 2009 Goal: To have clean energy and help poor countries produce their green energy, desalt the seawater.

Mechanical domain Brief explanation: The operation is to use the force of gravity to produce energy, also to compress, tension, twist a spring. The turning machine with the principles of operation shown in this invention allows a weight of spin a wheel, machine, compress, stretch, tension, twist a spring and this by using only the force of gravity weights that are part of the machine without use no power from outside the machine. When the springs are Tensioned, twisted or compressed, the spring system allows you to push other weights that are negative directly or indirectly to the side where they will be positive, which allows the weight to be placed in net force of gravity more quickly and produce clean energy.

All that is shown in this document, patent application can be replaced all over something else that will do the same job.

In this document we only show principles of operation and not of manufacture, it is for this reason that we do not stop to explain the or the ways that one can use to manufacture what is shown in this document.

If in a description or a drawing, if there is word error, digit which is not to the right place, that the word used is not the exact word as described in the dictionary, we must always respect the general meaning of the sentence, paragraph, document and this which is shown in the drawings or vice versa.

Things may not be shown in the drawings, only mentioned without that they are explained, and are part of the application or vice versa.

We can use what is shown in drawings, in other other drawings, without him be mentioned or vice versa.

List of parts The springs can be replaced by any other things that will do the same job.
1 - wheel or anything else that will do the same job

2 - arms with stem and weight

3 - stop point, stop, must be installed on the wheel or on the structure, according to the operation or construction of the machine J-

4 - restraint system, must be installed on the wheel that is installed on the axis and that turns with the axis, on the structure that is installed on the axis and that rotates with the axis, or according to the operation or construction of the machine, in certain drawings on 4 can have a other function as described.

- spring that one compresses or anything else that will do the same work 6 - spring that tension, or anything else that will do the same job 7 - ball, weight in any form, made of heavy equipment or any other something that will make the same job 8 - eccentric, cam, or anything else that will do the same job 9 - anti back - rod inside the spring 11 - anti-recoil system 14 - structure that rotates on an axis on which are installed arms or their replacements - round deformed or replacing 21 - structure installed on the 20 110 - bearing, bearing system A - axis of the machine P - axis, pivot point for 2 or other S - structure installed on the axis, on the wheel 1 which is installed on the axis or other, on which is the pivot point of 2 or other T - spring that we twist, or any other things that will do the same work, or something else according to the description.

Hre - shows the position with reference to a clock Arrow - direction of rotation of wheel, arm or alternate We do not show a machine structure on which there is a system of rolling, on which is installed the axis of what is shown in this document, since watch only principles of operation.

NB. In several drawings it is mentioned as an example at three o'clock the 4 has released the pressure of 5, that does not mean that everything happens at a precise one, the hre different in less or in addition.

Description Drawing A

We see the deformed round 20, the anti-recoil system 9, the spring 5, the axis A, the ball 7 which when of the rotation compressed the 5 which is retained compressed by the system 4.

Drawing A, B, C, D, E

The 20 rotates with the axis A.
Drawing F, G

On the 20th arrived at three o'clock, a system not shown operates the system 4 which release the pressure of 5, which pushes the 7 which with the slope and this thrust is mounted has two read and half, the anti-recoil system 9 prevents the 7 from descending to point X of the 20th, the 7 being pushed away from the axis A is in full force of gravity, has its maximum of positive. The dotted line shows that the 20 might not have a spring, we also see the 7 dotted.
Drawing H, I, J, K, L, M, N

The 20 rotates on the axis A and the 7 is always in force of gravity, positive.
Drawing O, P, Q, R, S, T, U, V, W

The 20 turns and with its shape goes up the 7 using less power that the power produced when 7 goes down, 9 passes 7.

Drawing X

20 is returned at noon, the 7 rolled on the spring 5 and therefore compressed the spring with its weight, the system 4 operated automatically, regardless of the operation and will hold the compressed 5 up to about three read.

NB. In several drawings we show the 7 dotted and the dotted F, this shows that we can have a system that will not use a spring that is compressed 5, of spring that we tension 6, spring that we twist.

Spring operation 5 can be replaced by spring systems who is tensionable, twistable or anything else that will do the same job.

Machine means there are 2,3,4,5 deformed arm or round systems (20) as shown in this document on the same axis, this axis turns on bearings or other who are fixed on a structure, arms or round deformed (20) installed on the axis and turns with axis A.

Drawing 1 We show the wheel 1, the rod 2 with the weight 7, the point of restraint 4, we also shows the S which is a structure, a support for the P pivot point, the axis of 2, the C is the cylinder or is placed the spring 5, the axis A, the 1 is installed on the axis A and the axis A turns on a system of bearing which is attached to a structure. In the other descriptions, we do not will not mention A, C, P, and S. Here, while the 1 is rotating, the spring 5 has been compressed by the rod 2 and its weight 7, the 5 is retained compressed by the restraint system 4 which has been operated during the rotation of the 1 by a system not shown at the right time to retain the 2, the P
and S are at midday.

Drawing 2 It must be taken into account that the 1 turns and here the S is at a time.
Drawing 3 Turns 1 and S is two hours.
Drawing 4 Wheel 1 rotates and the S is at three o'clock.
Drawing 5 The wheel rotates and the S is at three o'clock, a system not shown has triggered the system of retained 4 and the rod 2 with its weight 7 rotated on the P, was projected outward from the wheel 1 by the spring 5 which was compressed on the 3 which is the point Stop. The 2 and 7 are in full force of gravity, which forces the wheel to turn. NB. It is necessary understand that the 2 could also be projected when the S is at one, two hr, same thing in others operations shown in other drawings, all will be determined when the making.
Drawings 6, 7, 8, 9, 10.

In these drawings we see that the wheel 1 turns and that the 2 with its 7 is always in strength gravitee.

Drawing 11 Wheel 1 rotates, 2 moves away from 3 and gets closer to 4 and 1, thus the 2 crushes, compresses the 5th, the S is at nine o'clock.

Drawing 12 1 turns, the 2 continues to get closer to 1 and as a result continued to compress the 5, we shows that the spring 5 is pressed directly to the axis A, see the X, of this done when the is compressed during rotation and that it pushes when on the 2 or its replacing it leaning directly on the axis A, which has no negative effect on the wheel 1 or substitute.
Drawing 13 The S is eleven hrs, the 2 is on the 1, the 5 is completely compressed, a system not shown powered 4 holding 2 near 1, now 1 did a trick full.

Drawing 14 Here the difference for the numbers from 14 to 26 is that instead of compressing a spring 5 for the operation of the wheel, it is tensioning a spring 6. Here the spring 6 is tensioned at maximum and the 2 is held at the wheel by the 4.

Drawing 15, 16, 17 The wheel turns and we see the position, one hre, two hre. 3 hrs.
Drawing 18 The S of wheel 1 is at three hours, a system not shown releases the 2 of 4, at same time the spring 6 which is fully tensioned pulls on the 2 which pivots on the P
and the 2 goes stop on the stopper 3, the 2 with its weight 7 is in full force of gravity, which makes turn wheel 1 and produce power.

Drawing 19, 20, 21, 22, 23 The wheel 1 rotates and the 2 with its 7 is continuously in gravitational force.
Drawing 24 The S is at nine, the 2 leaves the 3 and approaches the 1, the 2 with its weight 7 and considering the length of the rod side of the weight compared to the length of the rod side of the spring, we see that the weight is in leverage, the 2 pivots on the P and therefore tension the spring 6.
Drawing 25 The wheel rotates and the S is at 10 h, the 2 is completely vertical and has hanging on system 4 and by this operation is held near the wheel 1, the 6 is tensioned at maximum, a system not shown operated the 4 which holds the 2 near the wheel 1.
Drawing 26 The wheel turns and the S is eleven hrs, now the wheel has made a turn complete, here the X
shows that the spring 6 can be held directly or indirectly near the axis A, of this Tighten the 6n'a no negative effect on the rotation of 1.

vs Drawing 27 Here we see the cam 8 which does not turn and which is installed on the structure not shown, we see that the wheel that rotates with its spring system 5, the 5 passes on the cam 8 thereby compress the spring 5, we see the 8 A which is the piston if we can say who pushes on the spring 5 and at the end of the piston 8 A, we see the small circle that can be a wheel, pad or other, a system 4 holds the compressed 5. Operation during the rotation set the same as shown in the previous drawings, here the pressure is released at 10 hr app. hre the pressure is released etc ...

Drawing 28 Here as in drawing 27, we use a system of cam 8 with the difference instead of compress a spring 5, we use a cam system 8 to tension a spring 6, the 8B
are a slide system installed on the wheel 1, which allows the 8 C to ride and go down, the 8 C is the system in which is installed the spring 6, the functioning is like what is shown in the previous drawings, here the pressure is released when the S is at midi app.

Drawing 27, 28 These drawings show that one can use an eccentric to stretch or compress in example a spring or any other thing stretchable, compressible.

Drawing 29 Here we use an eccentric 8 which rotates with axis A, with inside a weight 7 for compress a spring 5, which is different from the eccentric shown in drawing 27, the 1 turned.

Drawing 30, 31 The system R released the pressure of 5, which pushed the 2 with its 7 towards outside the wheel and therefore the 2 and 7 are in force of gravity.

Drawing 32 The wheel turns with the 8, the 5 is returned to its place, the systems of retained R have taken over their position at the end of the spring and hold the 5 in its place.

Drawing 33 The wheel turns with the 8, the 7 arrived on the spring 5 and with its weight compresses the spring, and the wheel continues to turn.

Drawing 34 The wheel rotates with the 8, the spring has been compressed and is retained compressed by the systems 4 and R, the wheel continues to turn, the 4 holds the 2 near the 1, turning the 7 goes back in the eccentric In the drawings 29 to 34, an eccentric 8 is used with a weight 7 for compress a spring, but one can also use an eccentric to tension a spring, the wheel, the machine will be built in consequence with known ways.

Drawing 35 We see the 20 whose straight line is at noon, the spring 5 which can not go down lower even if the 7 is opposite the 5, because the 21 which is in the center of the spring has a plate near the ball is retained by the 4, the 21 is installed on the 20, the 2 door on the breakpoint 3, the weight 7 is in gravitational force. The AA axis of the 2 is installed on the 20.

Drawing 36 The 20 turns, the 2 with the 7 compresses the 5 more and more by turning. The 3 and 4 on installed on the 20 although their structure that read them back to the 20th is not shown.

Drawing 37 The system turns, the right line of the 20 is at three hours. The 2 with its weight 7 is in position vertical, which compressed the spring 5.

Drawing 38 At about three o'clock, a system not shown operated the system of retained 4 who released the rod 10 inside the spring 5 which held the spring 5, this makes the ball 7 is pushed with force and climbs into the round of 20 and 7 arrived at a height maximum and the back-stop system 11 prevents the 7 from moving back, so the 7 is in full force of gravity, which forces the 20th to turn. NB. The pressure of 5 can be released at 2 hrs or 4 hrs, according to the time that will give the most gravitational force.

Drawing 39 The 20 turns and the straight line is in the vertical position, the system 12 holds spring 5 to the rod 10, the 7 is always in force of gravity, the weight of 2 and 7 are negative.

Drawing 40 A

The straight line of 20 is at nine o'clock, the 2 with its weight 7 has tilted towards outside the wheel and door on the 3, so the 2 with its weight 7 is in full gravity, see drawing 39 the distance between axis A and 7 and look here at the distance between axis A and the 7, the weight of the 2 and 7 are greatly positive.

NB. Arms 2 and 7 can be placed in order to have the least negative and the most positive for the operation of the machine.

Drawing 40 B, 40 C

40 B shows that the 20 to another form, the 5 is compressed. The 40 C the ball was pushed by the 5 and rolled quickly out of the 20th, so the 7 becomes more quickly in force of gravity, the dotted line replaces the straight line of the 20th, however, round of 20 is important because its shape allows to have less negative when the 20th turns and goes back on the 7th. This shows that the 20th can have any kind of shape that will make the same job.

Drawing 41 We see a machine that turn on axis A, structure 14 on which are installed axes 13 on which the arms 2 pivot with their weight 7, here is the functioning, the structure, turning, the arm 2-1 compressed the spring 5, the arm is retained compressed by the restraint system 4, the weight 7-1 is at about 8 hr 45, at this position, a non shown actuates the restraint system 4, which releases the spring pressure

5 and up the arm 2-1 has the position of the dotted arm 2 A almost instantaneously, one ahead of time if we can say, we greatly reduce the negative of the machine because it takes understand that the weights on the left side are negative and the ones on the right side are positive, when one look at the position of the 2-4 arm that hangs vertically, which starts compressed the spring and that we look also and that normally with a structure that would be with arms in cross, the arm would be at the position of the dotted arm 2 B, with this way of to delay the negative of the machine.

Drawing 42 Here we see that the 2-1 arm which is about 9 hr and '/ 4, at the right time has been pushed by the spring pressure 5 which has been released and is mounted at position 2 A and stopped on the stop 3, in the positive position, thus arms 2-1 and 2-2 are in positive position, the arm 2-3 is neutral at 6 o'clock, arm 2-4 is slightly in negative position.

Drawing 43 Here the operation is substantially the same as shown and explained in drawing 42, the difference is that the arm 2 with its weight 7 in gravity force left side is used to tension the spring 6.

Drawing 44 Here we see that the arm 2-1 which was at position 9 hr and 45 and held by the 4th, when the 4th been operating to release the arm 2-1, the 2-1 arm was projected to the position 2 A. The operation is substantially the same as shown and explain to the drawings 41 and 42.

Drawing 45 Here we show that we can have any kind of system of weight after arm 2. A
system not shown actuated 4 that lets go 2-1 arm that is pulled by spring 6 which was tensioned by the weight of the 2-1, the tension of the 6 pulls the arm 2-1 to the position 2A, the ball 7 is projected on the right side of the 30 and is in leverage, at 6 hrs on 7 is neither negative, neither positive nor roll until the 2-3 arm is at 6hre.

Dessin46 In this drawing, we show that the 2-1 arm can have any kind of shape that we allow to hang the spring 6 near the axis A, to the axis A according to the way to build the machine, with this way of doing, when spring 6 is tensioning or pulling on the arm 2-1, which when the not shown system operates the 4 which releases the arm 2-1, there is no negative effect, this can be applied to other operations shown in this document.
NB Here we show that we can compress or tension a spring inside a machine without using force from outside the machine, using the strength of gravity, leverage, cam, eccentric or any other principles of operation who will do the same job as the operating principle.

To operate a machine, one must use 2, 3, 4, or more arm systems, of 20 on the same axis, as an example what is shown in drawing 36 to 40, even thing for the other drawings.

We will use these operating principles for any kind of machine serving produce energy, to multiply energy or in any other kind of machine of energy.

The 3 and 4 are installed on wheel 1, the 20, on the structure of 2 or other place according to the operation and manufacture.

When we mention 3 hours as an example, 10 hours does not mean an hour precise, this could be an example 2 hr, 2 hr '/ 2, 3 hr' / 2, or 9 hr '/ 2, 11 hr.

Drawing 47 A, 47 B

47 A we see the 2, 7, the axis A, we show that the spring 5 can be placed on the axis or side of axis A, 47 B the spring pressure 5 was released, which pushed the 2 to the position 1 hour app. with this way of doing things there is no negative effect on the wheel rotation 1 when the spring 5 pushes on the 2. One can also build the machine of way to have the left of axis A.

NB. Spring 5 can be replaced by anything else that can be compressed and who decompresses when the pressure is released, or by anything else that will do the same job.

Drawing 48 Here instead of using springs 5, a permanent magnet 100 is fixed on the 2 and a magnet permanent 101 on the wheel or structure S, the 2 magnets are placed way to push back one another, we can replace the springs that tension by a system, the machine will be built accordingly.

Drawing 49 Here the 2 will be pushed at the right moment by a solenoid X which when actuated at good time pushes with its stem H on the 2.

NB. The X can also be an air cylinder, gas comprimable, oil hydraulic or any other things that will do the same job, the H remains the rod that comes out.

Drawing 50 Here we show is more left side of the P, so we do not use the 3 at the top, the structure on which is the P serves as 3.

Drawing 51 Clearly where spring 5 is, the C is a chisel mechanism.
Drawing 52 The pressure of the 5 was released and the 5 pushes on the 2 which is made on the 3, the chisel is turned right, we see the breakpoint 44 for the chisel.

Drawing 53 Here we use a spring 6 which pulls on the chisel.

NB. We use a spring that is stretchable, tensionable, however we can use everything else things that will do the same job.

Drawing 54 We see from side the spring T which is a spring which one torsionne, one sees under the 2 a tip of the spring T, the F is a structure which is fixed on the wheel or on the structure and that holds the other end of the spring.

NB. You can use any other things that will do the same job.

Drawing 55 / d By turning the weight of 2 and 7 a twisted spring T, the 4 releases the T pressure and the 2 is pushed towards half past twelve on the 3rd, the 2nd with his 7 is in force of gravity.

Drawing 56 The machine with its axis turned, the 2 with its 7 is at six, the end of the T
who is at noon is held by the F at 1 or 8, the other end of the T is at 6 hrs.

Drawing 57 When rotating, between six hours and nine read, the weight of the 2 with the 7, prevents the spring T
with its end Tl of the T which is retained by the 2 to turn with the 1 or the 8 of the machine and therefore the spring T is twisted by the weight of the 2 with its 7, it is necessary understand that same time the other end T2 of the spring T is retained on the axis by the F and the T2 end turns with the 1 or 8 of the machine.

Drawing 58 We see the A, P, 2 with its 7, in several drawings we use a spring 5, here we use a spring blade LR.

Drawing 59 It is released between the 2 which is held at this position by the 4 and the axis A, the 5 was completely compress by the 2 with its 7, the machine turns, the 2 is 9 minus' / 4, the 2 and the 7 are negative.

Drawing 60 The machine is running, the machine is at 9 h and '/ 4, the 2 is negative.
Drawing 61 The 2 arrived at about 10 lhre, a system not shown operates 4 which starts and leaves leave the 2 which is pushed by the pressure of the spring 5 and the 2 goes up at noon and half, go rely on the 3 and the 2 with its 7 is in force of gravity and positive, in more to become Positive by its position, with this operating principle, the 7 is more far from axis A
than drawing 59, 60, which produces a lot more positive than the negative that there is drawings 59, 60.

Drawing 62, 63, 64,65 The machine turns, the 2 with the 7 is in full force of gravity up to 6 hre, at the rotation, look at the distance between the 7 and the A, this way we get great strength of gravity.

Drawing 66 Although the machine continues to spin, look at the distance between the P and the A, therefore the 2 and 7 are very little negative Drawing 67, 68, 69 The machine turns, the 2 and 7 compress the 5, with this operation the 7 is close A. It must be taken into account that in drawing 66, 67, 68 this principle of operation delays the negative.

NB. What we show in drawings from 59 to 69 is that in drawing 65,66,67,68 we delay negative with the operation of the spring 5, these principles of operation drawings 66,67,68,69 on the effect to bring the 7 of the axis A and keep the 7 has this position up what the 4 releases the pressure of, see drawing 61.

For drawings 70 to 81, the operation is the same as those shown in drawings59 to 69, the difference is that there is no spring 5.

Drawing 70,71,72 As in the other drawings, we see the structure S, this structure allows the 2 and 7 of away from axis A around noon, which allows us to have more strength to midday gravity at 6 hrs app. , the structure S allows us between 6 pm and midday to bring the 2 of axis A, which allows us to have less force of gravity between 6 hrs and noon.

Drawing 73 At about noon, the 2 rocked to the right and will rely on the 3, of this did the 7th away from the A.

Drawing 74,75,76 The machine turns, the 2 and the 7 are in full force of gravity.
Drawing 77 The 7 has arrived at six read, the machine turns, look at the structure S, the distance between the P and the A, so there is not much negative.

Drawing 77,78,79 The machine turns, with each drawing to look the distance between the P and the A, one sees that the negative of drawing 77 has decreased much in drawing 79, so delay the negative, we reduce the negative and in addition we bring the 7 of the axis A.

Drawing 80.81 The machine turns, we see that 2 and 7 are closer to the A /

Drawing 82 to 89 The operation is mostly the same as shown and explained to drawings 59 to 81.

Drawing 82 Here the difference of the other drawings 59 to 81 is that the 7 is suspended at a 2X rod, the 7 is manufactured so as to be able to roll.

Drawing 83 We see the dotted line, which is a rail on which the 7 can roll, slide for move away from the P, the axis A, which gives us more force of gravity.

Drawing 84 The 7th is at six o'clock.
Drawing 85,86,87 We see the X, which is a rail on which the suspended 7 is rolling, which allows the 2 and 7 to be less negative Drawing 88, 89 The wheel or structure rotates, here we use a rail system that allows at 7 to be supported when it goes back up, with this operating principle, we decrease cute couple negative of the machine.

Drawing 90 To better understand an important part of the invention, here the S is more long that this which is shown to the other drawings see SI, so the 7 is closer to axis A.

Drawing 91, 92 Considering that the SI is longer, when the spring 5 pushes the 2 towards noon, 7 is over far from axis A in drawing 91 the 7 is three quarters of an inch from A, drawing 92, 7 is 1 inch five of the A, the distance between the 7 and the A is a bit more than the double, which effect of having when rotating the machine the double strength of positive gravity compared to the negative.

Drawing 93 This drawing shows that the weight 7 is returned at six o'clock, the SI is at 9 o'clock, the 7 remain suspended end of the S 1 to three quarters of an inch of the A axis and the SI rotating with the axis does that the 7 always suspended at Si approaches the A until the Si is returned at noon, see the dots.

(3 Drawing 94 Here the S2 is longer than the other drawings, so the 7 is even more near the A, either a five-eighths of an inch instead of three-quarters of an inch as shown in the drawing 90, which further decreases the negative, when what is shown here will be at the position shown at drawing 91, the 7 will still be read away from the A, which will give even more positive to the machine.
Drawing 95 Here the machine is built so as to have the 2 installed on the axis, as shown in drawing, the 7 which are built so as to be able to roll, are suspended arm, we see the rail X1 which when rotating the machine serves to support the 7 between six hour and nine o'clock, the X2 rail supports the weight 7 between nine o'clock and noon, the X1 six hours to a form that allows the 7 to be able to board the Xl, the end of the X2 eleven hours to a form for let go on the 7th smoothly.

Drawing 96 We see the 2 that are installed on the axis A, we see the end of the X2 which has not no shape as shown in drawing 95, so when el 7 leaves rail X2, it will swing to the shown position and an anti backing system 9 will prevent it from backing up three o'clock and by Suite 17 will move away from 9.

NB We can not use the 3 and 4 or replace them with anything else that will do the same work, it is the same for all other things, parts.

Addition to the patent application with the name: 2009 Arel Engine NB. Correction in the first patent application for descriptions and drawings 35 and 36, the 21 is supposed to show the structure on which the AA axis is installed from 2. To the list of parts, correct the description of the 21, 21 - structure installed on the 20.

Drawing 97 We see the 20 whose straight line is at noon the spring 5 is uncompressed, the 2 with his 7A
is pressed on the 3, the 21 is the structure installed on the 20 at the end of which is the AA axis of the 2 which pivots on the AA axis, the 7 is near the axis and can not go down because a no system shown prevents it from going down to compress the spring 5.

Drawing 98 The straight line of the 20 is two hours, the system 20 turning makes the 2 with his 7A
rotates on the AA axis at the end of 21 and compresses the 5.

Drawing 99 We see that the 20th arrived at three o'clock, the spring 5 is completely compress.
Drawing 100 The 4 was operated by a system not shown and released the 10, which is what did released the spring 5 pressure, which in fact pushed the 7 which rose to about 2 hr. The system anti-recoil 9 let pass the 7, but prevents it from backing up, the 7 is in full force of gravitated and rotates the machine, the wheel, the 20.

Drawing 101 The 20th is at six, the 7th is still in gravity.
Drawing 102 The machine is running. The 20th is nine hours, the 7th is in the middle of the 20th and the 20th while turning force the 7 to go up, with the shape of the 20, to go up the 7 takes little power and more the 2 with his 7A rocked to the right and went to lean on the 3, of this makes the 7A was away from the axis A and produces a force of gravity, it is fully positive.
7A stays in gravitational force until he reaches the six o'clock position. look drawings 98, 99, 7A is closer to the A axis and produces less negative on the left side than positive of the right side.

Drawing 103 We see the 10 which is joined to the 2 by the system 12 which allows the 2 to rotate on the 10 or vice versa, the 20th turns.

Drawing 104 The straight line of the 20 is at about nine o'clock, the 2 with its 7A rocker, swivels on axis AA and will rely on the 3 and on the 4, the 4 will retain the 10 and the 2 in place during a part of the rotation of 20.

Drawing 105 On the 20th at noon, the 7th can not go down because the system go down on the 7th A is in force because he is not returned at six.

Drawing 106 The 20th is at about two o'clock, the 7 is still prevented from descending by the system 22.
Drawing 107 The 4 was operated by a system not shown, thus the 2 and 10 with the gravitational force from 7A went to hit the 7th that was pushed out of the 20th and the 7th mounted up about two hours, the 7 can not go down because the anti-recoil system 9 has left pass the 7th but prevents him from going down.

Drawing 108 We see the structure 21 on which the X is installed, which is a cylinder air or any other thing that can do the same job, here is the X cylinder system that pushes on the 7 or its replacement at the right time, the air needed for operation can to be produced by a compressor powered by the present system of 20 or any other way known.

Drawing 109 Here it is shown that the spring system 5 or substitute can actuate the 2 or substitute directly or indirectly another 2 or substitute, 2A.

Drawing 110 We see the 20 whose straight line is about three hours, the X shows that it there is in the 60 a system that prevents the ball 7B at a certain place on the 60 to roll, the X
released the 7B dotted ball that went to hit the 7, so the 7 was pushed and is mounted about two hre see 7 dotted, the anti-recoil system 9 let past and prevents the 7 from back, when rotating the 20, the 7 can not go back into the 60 because the 20 is manufactured in result. The 60 is installed on the 20th.

Drawing 111 The 7 is in force of gravity, the 7B rolls in the 60.
Drawing 112 The straight line of 20 is to read nine and the 20 by turning up the 7, the 7B is almost returned to X.

Drawing 113, 114 We see the arm 2 which can pivot on the axis A between the X and T which are fixed to the axis, the 2 door on the X, the arm 2 which has an axis AA which allows the arm 02 to rotate, when the arm 2 which is pressed on the F which is fixed at 2, arrives at about ten read. arm 02 which is about the F, rotates to the right and will rely on the H which normally is about two read, from this does the 2 with are in good force of gravity more quickly, we are ahead of the time, even thing for the 02 we advance the time, the 2 is pressed on the T which is fixed a axis A.

Drawing 115 The 7 of the arms 2 and 02 are in gravitational force.
Drawing 116 When the 02 arrives arrives at six read it pivots on the AA axis and stops turn and finally will rely on the F of the 2 because the arm2 continues to be in gravitational force and turn the axis A, at the position that we see, the 2 and 02 are no longer in force gravity, however the axis A continues to rotate, the 2 will leave the point of support T.

Drawing 117 Axis A continued to rotate and 2 is pressed on X and 2 and 02 start to be negative.

NB. In drawings 113 to 117, the principles of operation allow us to forestall the times to produce the force of gravity with the 2 and 02, and delays the time when the 2 and 02 become negative. This is shown in several drawings in this document. This can be used in several drawings in this document.
Drawing 118 We see what is shown, used in several drawings of this document and it is what are we going use in drawing 119. Axis A, structure S, pivot point P of 2, 3 who is the point stop, arm support 2, the 3A which is another breakpoint, support for the 2, the cushion C

r Drawing 119 Bear in mind that the machine will be built accordingly. R1 and R2 rails are installed on the structure of the machine and its side arm 2, the pads C or the pads on the 7 are installed in the side of 2 or 7, which allows the pads 2 and 7 of roll over R1 and R2 when rotating the system. We see at position A
that the pads C or 7 begins to roll on the rails R1 and R2, at positions B, C, D, the pads of 7 roll on the rails RI, the weight of the 7 bears directly on the rail 1, if we use only the C's that are on the arms 2, the weight of the 2's and the 7's are in balance on the rail 2, the purpose of having these rails is to have less negative when the weights go back, on the arms 2 we can have what is shown in drawings 113 to 117.

Name: Add Number 2 to Engine Are! 2009 Anyone with some experience in the field will understand at once operation after reading just a few description phrases in seeing them drawing which are simple to understand, this also applies to requests for Engine patent Are! 2009, Addition to Arel Engine 2009.

All the operations explained in the flotation force work in liquid.
This patent application forms a whole, together with the patent applications Engine Arel F, Addition to Arel FAB Engine, things shown and explained in a request may be used in another application without being mentioned.

Description Drawing 120 We see the arms 2, the pivot points P, the arms 02 with at the end of the weights 7, the 2 are on the axis A and rotate with the axis A, a little before midday the 7 at the end of the arm 02 is pressed on the arm 2, at noon on the 7th starts to be in force of gravity, a hre the 7 is in strength of gravitated, has three read the 7 is in maximum gravity and is supported about of supports 3, to six read the 7 began to slip, to roll according to the manner of construction on the rail 101, at about 7 hr 7 h 30, the arm 2 is reassembled online vertical right and has switched to 2, so the 2, 02, 7 produce much less force of gravity negative until noon compared to the positive force of gravity produced on the side right between noon and 6 read, we can not use the 3 and the 101 will be placed in Consequently, we also see the P's which are the pivot points with axis, which allows the 02 to rotate on the 2.

NB. All the systems shown in these three patent applications which work with the gravity force, sometimes leverage and more, can work with the strength of flotation, most of the time by reversing the rotation and changing the weight for floats, you just have to understand one to understand the other because it's logical and simple.

Drawing 121 Here the construction is substantially the same as in drawing 120. The difference here is that the system which is constructed in much the same way as in drawing 120, works with the Flotation force, we made a half turn to the drawing, noon is returned at six o'clock and vice versa, at six read the float 7 F begins to be in flotation force, the 7 F is at his maximum buoyancy force to read nine and the arm 02 is pressed on the 3 of arm 2, 2 with his 7 F continues to be in force of flotation until noon, around noon on the 7th F enters a rail, slider 101, turning the 7 F is forced to get closer to the axis A, returned to about a read the 02 with his 7 F is in a vertical position between 1 hr and 2 hre, 7 F and 02 switches to 2 and stays up to six read, thus the 7 F
produce less force negative flotation that the 7 F produce positive flotation force the left side, we also sees the P's which are the pivot points that allows the 02 to rotate on the 2, we can do not use three and the 101 will be placed so as to do the same this system can operate in any liquid store.

Drawing 122 We see the arms 2 with the weights 7 which can slide on the arm 2, the rail, slider 101 in which slides 7 serves as a guide to the weight 7 which slide on the arms 2 during rotation, right side the 7 being further from the axis A than the 7 on the left side produces more strength of positive gravity that the 7 on the left side produces gravitational force negative, so the system shown is forced to turn, to have more power one can have more than arm system, on the left side, we can have a mechanical system for mount the weight, powered directly or indirectly by the energy produced by the machine or by any other energy coming from outside the machine, NB. this can apply to certain systems shown in these documents NB. In these documents we often show systems with 1, 4 arms only but we can have machines that work or give more power, we have to have systems that have more arms.

Drawing 123 Here it is essentially the same operation as in drawing 122, the difference is it a system that works by flotation force and turns in the direction opposite of the drawing 122. Weights 7 have become 7 F floats that slide, roll in arm 2 and are forced to stay in the rail, guilssoire 101, the 7 F on the right side is in full force of flotation, considering the distance between the A and the 7 F, the 7 F is also in leverage, this allows the right side to produce more flotation force positive that force Negative flotation produced on the left side, this system can work in all liquid reserve.

NB, the systems shown in drawing 123B, 123C, and 123D can work in all liquid reserve and refer to drawing 40B and 40C.

Drawing 123 B

Position of 20, three hours, here we show a force operation of floatation, we have the round part of 20 with the straight line of 20, you should know that the 20 here is an example of stems that lets the liquid through, the 20 is a structure that holds back the float 7 F in sound inside (see other drawings with the 20), the float 7 F is in the round and is in the process of back up while driving, the 7 F requires less power when it goes back to the form special half round, it is in the center of 20, the system runs.

Drawing 123C

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Position of the 20th six to seven hours, the system turns, the 7 F is made opposite of axis A
vertically and begins to produce a flotation force.

123D Drawing Position of the 20th around nine o'clock, when rotating the 7 F rolls towards outside 20 in away from the A-axis and produces more and more flotation force, the straight line can have a curve to increase the flotation force, see dotted line.

Drawing 124 Here the operation is substantially as in the drawings 120, 121, very easy to understand. Here the rail system, slide 101 is replaced by a system offbeat X placed around the axis A and is attached to the structure of the machine, we see the axis A, the arms 2 with its pivot points P for the arms 02, the arms 03 which connect the 7 to the eccentric X, at the end of the arms 03, we see the black dots which are pads or systems of rolling, there are 10 arms 2 and each 2 has an arm system 02, 03, and a black dot (pad), at noon on the 7th starts to be in force of gravity and is in force of gravity until about five thirty, at that moment the 03 with its black dot (cushion) that rolls in the eccentric X starts to shoot on 7 and the 7 starts to be less negative, about seven o'clock, the 03 shot enough on the 7 and 02, the 7 and 02 are in vertical position and switch on the 2, 7 and 02 door on the 2 until noon, so the side right product more of positive gravity force that the left side produces gravity force negative, we have 12 2, 02, 03, 7F, 12 pads (black dots).

Drawing 125 Here we took the drawing 124 and we made it a half turn, which was at noon is six o'clock and vice versa, here the system is a system with flotation force, the functioning is substantially the same as shown in drawing 124, the weights 7 are here floats 7 F, of six o'clock to noon the floats 7 F are in full force of flotation, at noon the arm system starts shooting at 2 with his float 7 F, so at about a hr 2 and 7 F are in vertical position and balance on the arm 2, of these facts between noon and six read the floats 7F
produce less negative power on the right side than the force of floatation produced from left side, we have 12 arms 2, 02, 03, 7 F, 12 pads (black dots). What is here shows that the majority of systems that operate by force of gravity work with the buoyancy force.

Drawing 126 Drawings 126 to 132 refer to other drawings which function at gravitational force and who use the 20.

oi The 20 is a structure that lets the liquid pass and that turns into a liquid reserve, the 7F is a float that is held in a rail, slider, guide 101 for the 7F, the 20 turns and is at about nine o'clock, the 7F non-dotted float is in force floatation and produces positive flotation force, considering the direction of rotation.

Drawing 127 The 20 turns on axis A and is at about ten o'clock, the 7F is still in force of flotation and produces positive flotation force considering the direction of rotation.

Drawing 128 20 runs continuously and is about two hours and produces strength flotation negative considering the direction of rotation.

Drawing 129 The 20 turns and is at 4 o'clock and the 7F produces a negative flotation force in the sense of rotation of 20.

Drawing 130 A

The 20 is at seven o'clock, the 7F is in negative flotation force, however if we remove the piece K of the rail 102, the 7F would be in neutral force, vior 7F pointed.

Drawing 130 B

The 20th is at nine o'clock and runs continuously, so the 7F is in force flotation positive and rolls out of the 20, away from the A axis, the 7F produces more and more Flotation force.

Drawing 131 For the 20, the 7F the operation is the same as shown in the drawings previous ones, the 21, P, 2, 7P replaces the weight system shown in drawings 35 to 40C of the patent application Arel engine 2009, here the 7 P is a float installed on the 2 and during the rotation of 20 between noon and six o'clock the 7P is near the A axis, is less negative than what is shown at drawing 132.

Drawing 132 The 20 runs continuously, the 2 with the 7P at six o'clock rocked to the left and away from axis A, so the 7P produces more flotation force positive left side of the A axis that the 7P produces negative flotation force on the right side of axis A.
Drawing 133 Look at arm 2, arm 02, weight 7, dotted arm 03, small arm 04 and the PA axis at noon, consider that the PA is installed on the structure of the machine, considering that PA is fixed the structure of the machine, when the machine, the system turns, the off-center position PA has the effect of pushing or firing on 04.7 and 2, at noon on 03 a pushed 04, 02, 7 to angle with the 2, so the 7 is in force of gravity, at three o'clock on the 02 is in a straight line with arm 2 and 7 produces the maximum of gravity force, between five and six hours considering the off-center position of the AP, 03 draws on 04.02, and 7 which bring the 7 of axis A, between six and nine hrs the 7 continues to be forced to get closer of axis A, at nine hre the 7 is close to axis A at its maximum and produces much less strength of negative gravity as the force of gravity produced on the right side.

Drawing 134 Here the system works by flotation force in a reserve of liquid and works substantially as shown in drawing 133. Weight 7 is replaced by 7F float, the axis PA attached to the structure of the machine is on the left side of the axis A, in turning, from noon to six hre the AP system, 03, 04, fires on the 02 and the 7F, bringing the 7F of axis A
right side, from six o'clock to noon, the PA system, 03, 04, pushes on the 7F this which keeps the 7F
of the A axis left side, with this way of doing things, the machine produces more than strength of positive flotation on the left side than negative on the right side BN. Drawings 135 to 138 refer to drawings from 1 to 9 that work by force of gravity, the difference is that the system works by flotation force in a reserve of liquid.

Drawing 135 We see the 1 on which is the 04 which to which is connected the 2 with the P, on the 2 there is the float 7F, the 2 is in the vertical position, the 1 turns.

Drawing 136 By turning the 7F is in flotation force and seeks to lift, so the 2 compresses the spring 5.

Drawing 137, 138 By turning the 7F is returned to six hours, the spring 5 is compressed to the maximum, with her press the 5 pushes the 2 which will be leaning on the 3 which is installed on the 1, so the 7F is in flotation force more quickly and will remain in flotation force until he is noon, see drawing 138.

Drawing 139 Here the 2 is longer and exceeds the 04, the 6 is a spring that is stretched, tension, the 2 is in vertical position, the 6 is installed on the axis A and on the other end on the 2.

Drawing 140 The 1 turns, the 7F is in buoyancy, here the 2 is longer and rotates on the P, which tension the spring 6.

Drawing 141 The 7F is six read, the 6 which was tensioned to its maximum fired the 2 which has rotated on the P
who went to lean on the 3 that is installed on the 1. The 7F is in full floatation force and will remain so until it is noon.

Drawing 142 For drawings that follow up to 153, the operation is in a liquid reserve, we see the 2 which is vertical position with its 7F.

Drawing 143 The system runs continuously, the 2 is at three o'clock, the principles of operation used make the 7F close to the axis when rotating.

Drawing 144 The 2 arrived at six o'clock and he tilts out and will rely on the 3 that is installed on the S and rotates with the S, the 7F is in full force of flotation, this operation to for to move the 7F away from the A axis of the machine on the left side, measure to the drawing 142,143, the distance between axis A and 7F and do the same thing here, we see that the distance here is larger than drawing 142 and 143, same in drawing 145 Drawing 145 The 7F remains in flotation force until noon.
Drawing 146, 147, 148, 149 These drawings show substantially the same operation as shown and explained in drawings 142 to 145, here in drawings 146 and 147, during the rotation the strength of float compresses the spring 5, drawing 148 when the 2 arrives at approximately five hours, the 5th with its pressure pushes the 2 that will rely on the 3 that is installed on the S, so the 2 and 7F are ahead of time, they produce a more buoyant force quickly because it takes understand that between five and seven o'clock it is a waste of time for the system, moreover the compressing the spring 5 during the rotation delays the negative, the system produces more positive left side than negative right side.

Drawing 150, 151, 152, 153 For these drawings the operation is the same as explained in drawings 142 to 149, here we uses a spring 6 that the operating voltage, stretches to pass quickly arm 2 from 5 hrs to 7 hrs.

NB. After having understood all the principles of operation for produce the force of gravity and after having understood the principles of operation to produce of the flotation force explained in the previous drawings, it is easy to understand that everything that works by force of gravity works by force of flotation. In example, when using rails, slides, guides to support, guide weight, it's for to prevent or reduce the negative of the weights, in floating we will use this rail system, slides, guides to prevent floats from pulling up, from produce strength of negative flotation using or not the principles of operation that when rotation of the machine system brings the weights or floats close to the axis to be less negative.

Drawing 154 In drawings 154 to 161 we show systems that work by force of lever and gravitational force in rotation. We see the arm 2 with its 7 which pivots on the PL (point of linear pivot) which in addition to being a pivot point allows the 2 to be moved to the horizontal because when rotating the 1 with the X, the 2 will go from left to right and vice versa, the 1 is made like a crankshaft engine, the X shows that there is a pad, system of bearing at the end of the 2 installed on the crankshaft 1, in the center we see the A-axis system and on which both turn. Here the X is at six o'clock and the 7 is go up, look at the distance H between the X and the PL and the distance between the PL and the 7, 7 is in force lever and gravity, forcing the 1 to turn.

Drawing 155 1 turns and 1 forces 2 to slide and rotate to the right, look the distance H and the distance K, the 2 and 7 are in full leverage and gravity, which force the 1 to turn, and from six o'clock to noon, wheel 1 turns CCW.

Drawing 156 The 1 turning from three o'clock to noon pulled the 2 with his 7 to the left, the X is at noon, the distances H and F are as in drawing 154, the rotation of the system continues.

Drawing 157 The 1 runs continuously, the X is rendered at nine o'clock, here the distance H is longer than the distance K, thus the leverage on the left side of the PL goes up the weight 7, this leverage from noon to six hrs, allows us to go up the 7 at the top more easily, the wheel 1 turns CCW.

Drawing 158 Here on the P there is no linear system, the linear system is on the X and the 2 can go from left to right and vice versa on the XL, the 1 turns CCW, the distances H
and K are almost equal, the 2 and 7 are slightly in leverage and gravity of six to three hours turn 1, see drawing 159.

Drawing 159 The 1 is running CCW continuously and the 1 is at 3 o'clock, look at them distance H and K, the 2 and 7 are in full force of gravity and lever, the 2 and 7 are in force of gravity and leverage between six o'clock and noon, the 1 turns CCW.

Drawing 160 The 1 turns, the distances H and K are almost equal, the 2 and 7 are slightly in strength leverage and gravity.

Drawing 161 The 1 turns, the distance H is longer than the distance K, the 1 produces a leverage between noon and 6 am, 11 turns CCW.

BN. The operating principles shown in drawings 154 to 161 can function in force of flotation with force of gravity in a reserve of liquid, one change the meaning rotation that becomes CW and we change the weight 7 for floats 7 F.

Drawing 162 Here we show that we can have a system installed on the structure of the machine that we allows to move away or to bring the 1 of the P, PL, this system allows us to increase, decrease the force and the rotation of the system, we also see the axis A and the pad or system running gear that is installed on the structure of the machine to carry the 1.

Drawing 163 Here we show that we can have a system as explained in the drawing 162, the difference is that the system is installed on the P or PL for the same reason that what is mentioned to 162.

Drawing 164 First we see the operation that is shown and explained in the drawing 154 to 163 concerning the X, 1, 2, PL, H, K, we also see a motor system with combustion, explosion, when there is explosion between the head and the piston, the piston is forced to go down, the T is the head, the 40 is the piston, the 41 is the cylinder, the 42 the connecting rod, the P points of pivot, the 1 is the crankshaft, the 1 turns CCW.

Drawing 165 With the explosion, the piston 40 is forced down and it turns the crankshaft 1, the piston with its force produced by the explosion is also strength in strength of lever see the distance H and K, the explosion in addition to producing a pressure, a force like in normal engine has gasoline or other, produces a leverage between six hre and noon, see the distance H and K, the motor runs CCW.

Drawing 166 The piston 40 is at its lowest, the X is at noon, the distances H and K
are substantially equal, the engine runs continuously CCW, from noon to six o'clock crank shaft 1 produces a leverage on the 2 to raise the piston.

Dessin167 Here the 1 produces its maximum leverage, look at the distances of the H
and K, have the crankshaft in leverage requires less power to the engine to build her compression. The head and the piston can be magnets that are placed way to repel, either North North or South South and the 1 turning, right side with its leverage can produce a pressure, compression going back as an example a cylinder to air, a magnet placed North North or South South, when the 1 is returned at six o'clock and that begins to pointing to the right side is the compression produced with the force of lever that begins to push directly or indirectly on the 2 which will have its maximum of thrust to three hr that will be leverage to turn the 1. The leverage produced on the left side is used to build compression and leverage produced on the side right is used to rotate the 1.

Drawing 168 We show an air cylinder or other that can be compressed as drawings 164 to 167, however we can use anything else that will do the same job as pistons to explosion, magnets that repel each other.

NB. In drawings 124 and 125, the eccentric X is shown which has the axis A in the center, But the eccentric X may be next to the axis A. A system placed in one place in a drawing can be placed any other places that will allow him to do the same job.

With the drawings 164 to 165 it is possible to operate, to turn the 1 with all kind of engine, power source connected to the axis of 1.

In these patent applications, all principles of operation can be replaced by all other operating principles that will do the same job.

~ '7 NB. In drawings 124 and 125, the eccentric X is shown which has the axis A in the center, But the eccentric X may be next to the axis A. A system placed in one place in a drawing can be placed at all other places that will allow him to do the same job.

With the drawings 164 to 165 it is possible to operate, to turn the 1 with all kind of engine, source of power connected to the axis of 1, we can have a system to lift, lower your head or its replacement, which will allow us to control the rotation of the machine, from system.

In these patent applications, all principles of operation can be replaced by all other operating principles that will do the same job.

In these patent applications, all the principles, ways, ways of manufacture can to be replaced by all other principles, ways manners of manufacture.

We can use 2 or more principles of operation shown in this document on the same arm, the same machine.

The force of gravity or flotation is used with the leverage the operation shown and explained in this document.

All the drawings and descriptions in this document represent a set, a everything, we can use things shown in a drawing in another drawing or vice versa without that he be mentioned.

In some drawings we use a circle in the form of an eccentric, however we can also use a half eccentric depending on the operation.

For anyone who has some experience in mechanics will understand easily operation for drawings 169 to 173.

Drawing 169 We see the chisel system which is at midday, in a vertical position, the arms 04, the P points which are pivot points for the arms 04, the axis A on which is installed a structure (see dotted line) on which structure is installed the system of chisel, the 7 is the weight that allows us to produce power, the 7K weight that forces the chisel to open or close. Here the weight 7K which is heavier than the weight 7 is in suspension and force the chisel to close, which has the effect of pushing the 7 upwards and to move 7 away from axis A, therefore the system, the machine considering that the 7 is far from the axis, in rotating product from midday power to 6 hrs, a system not shown will prevent the chisel from close until six o'clock.

Drawing 170 The chisel is at three hours, the weight 7 produces the maximum power in strength of gravity.
Drawing 171, 172 The chisel is vertical at 6 o'clock, the 7 and is at its lowest, the system not shown who kept the stretched chisel is actuated by a known system not shown and leaves the 7K weight crush the chisel and force the chisel to close due to the weight of the 7K which is heavier than the weight 7, the weight 7 is forced to get closer to the axis A

Drawing 173 We see that the 7 is near the axis A and considering that the weight 7 is much closer to the A axis left side, the weight 7 is much less negative left side nine hre that when the weight 7 is on the right side three hours much further from the axis A.

Drawing 174, 175, 176 In these drawings we show that we can have any kind of system that can to be between 02 with their 7, we can connect the arms 02 using any other principles in full or in part shown in this document, or using any other way, way, principles not shown in this document and who will do the same job.

Drawing 174 Here we do not see the axis A, we see the arm 2 with at each end the arm 02 and the weight 7, the OC
is a cylinder with a spring system inside, the arm 2 is in position one hre, seven hre, the 02 and 7 which are seven hours are in vertical position, the spring 5 in the OC was compressed during the rotation of the system, of the machine. P 9 Drawing 175 The arm 2 is in position 1 hr and a half and seven and a half hours, the arm 02 which was not position vertical to the drawing 174 was pulled by the spring 5 and the weight 7 which is a 1 and a half hours.
Drawing 176 We see that the weight 7 which is suspended on the right side compresses the spring 5 and pull on the 02 with his 7 left side.

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