FR2995035A1 - POWER PLANT SYSTEM - Google Patents

Abstract

Power plant system operating with solid masses, moving liquids, accompanied or not by the weight of physical person (s), characterized in that it comprises the propulsion mechanism (11) comprising a pair of pistons (12). ), a crankshaft (13) and two connecting rods (14) at least, mechanism mounted at a platform and repeated in number according to the same crankshaft or more, all coupled to a generator or a dynamo (39). The substitution structure of the human body (Figure 2) by its members or bars (17) attached to the pistons will push alternately on a piston and the other of said mechanism thus activating the crankshaft. This structure will comprise a container (19) filled with liquid (20). According to another additional feature of the structure, on the upper part of the latter will be created a bow-shaped bowl (22) which will serve as a rolling track to a roller assembly (23). According to another additional feature of the structure, in addition, the system can receive liquid (water ...) from a reservoir, which liquid will be discharged into one and then into the other container (40) laterally hooked to the substitution structure.

Description

The object of the present invention is to design a power plant system operating with solid, liquid masses in movement accompanied or not by the weight of physical person (s) by proposing a structure for substitution of the human body. which can partially or completely replace human intervention.

It is well known - the nuclear power station (fission energy) with the use of a stock of uranium - the thermal power plant with heat sources (fossil energy) creating the steam circuit - the hydro-electric power station where the Water is the only driving force obtained by the fall of large bodies of water. The present power plant system has the great advantage of operating according to a combined intervention of different masses and energies (mechanical, human, in some cases only the first), none of which is based on fossil energy or on energy. fall of large masses of water. It also has the privilege of being able, in some cases, to get closer to, or even to become part of, the agglomeration, since it does not cause any pollution or nuisance and in addition leaves no waste. The layout of this power plant system can be done in a discrete manner without disturbing the immediate environment. The present invention aims to design a power plant system 20 operating with solid masses, liquid moving with or without the weight of physical person (s). The power plant system will comprise the propulsion mechanism comprising a pair of pistons, a crankshaft and at least two connecting rods, mechanism mounted at a platform and repeated in number according to the same crankshaft or several, all coupled to a generator or a dynamo. To do this, the object of the invention is to propose a substitution structure for the human body that can partially or completely replace human intervention. This substitution structure, by its members or bars attached to the pistons will push alternately on a piston and the other of said mechanism thus activating the crankshaft and imitating in this the lateral sway of the human stake one foot on each piston to drive in alternately one and the other. This substitution structure will also include an element called basin that will rest on the members or bars and will be attached to the upper part thereof. According to another additional characteristic of the substitution structure, on the basin, will be placed a container (bust) capable of receiving liquid which will move in closed circuit and will laterally accumulate in greater mass in said bean-shaped container thus increasing in the downward phase the thrust on the piston of the corresponding side. According to another additional feature of the substitution structure, an additional volume will be added laterally outwardly to the container in order to increase the liquid mass that will move from one side to the other and vice versa. This volume can be materialized by the installation of a kit to move from the initial container to the larger final container. According to another additional feature of the structure, on the upper part of the container will be created a bow-shaped bowl which will serve as a running track to a rolling assembly which comprises one or more containers each equipped with a minimum of three wheels. This container or containers will be interconnected by one or more hinged fasteners on each side. At the limit of the runway will be fixed at each end a buffer stop to frame the round trip of the whole rolling. These stops can be moved to precisely define the race of the rolling masses. Masses will be placed in the container or containers, they must be able to take heavier or lighter forms.

At the buffer stop will be put in place a hook to retain the container in a high position especially during the departure situation. This hook may be connected to a clock-counter to intervene on the running frequency of the rolling assembly. A device attached to the container facing the stop will hook hook for a period of time. In order to obtain the best possible coordination between the regularity of the displacement of the rolling assembly towards the buffer stop and the downward movement of the substitution structure on the corresponding piston side, it will be possible to intervene on the following factors: the traffic gradient at the level of the arc the loading of the container (s) the positioning of the buffer stop fixed at the end of the race the possible intervention of the hook connected to a clock-counter which can slow down or not the nearest container that is to say whether or not to brake the rolling assembly. The rolling masses will create a potential energy and a kinetic energy in the part of the track where they will circulate in particular in the vertical of the piston which will be on the same side. These energies will facilitate and accentuate the downward and alternate movement of the pistons. In order to give this structure a good stability, the basin will present in its middle an elliptical orifice through which will pass a transverse axis which will be fixed on each side to a pillar. The two pillars will rest if possible outside the platform. According to another additional characteristic of the structure, the continuous movement of the rolling masses will be maintained by the shape of the track which will always remain sloping in its lateral parts (beginning and end of the track) and by the play of the mechanism itself. promoting lateral displacement. According to another additional feature of the system, the angular variation of the cranks from one mechanism to another will also be important. She will be as wise as possible. In any case, this angular variation will increase the performance of the crankshaft by thrusts on the cranks staggered over time.

According to another additional characteristic of the system, in the case of setting up several crankshafts along parallel lines, several transmissions or drive means will be put in place in order to collect all the mechanical energy and to direct it towards the generator or the dynamo. According to another additional feature of the structure, in addition, the power plant system can receive liquid (water ...) from a reservoir, which liquid will be discharged into one and then into the other container laterally hooked to the substitution structure. This liquid will leave at the end of the downward stroke of the container thereof by the lateral opening of the outer wall of the container, this through two cleats, each attached to one end of said side wall. The two cleats resting on an obstacle will raise the outer side wall. One or more pipes placed above the container will supply the latter in the down phase. The platform which is used to fix the propulsion mechanism will itself rest on one or more flat (s) and horizontal (s) surface (s). This mechanism will use the weight of the speaker but also and above all the mechanical energy developed within the structure of substitution of the human body and transmitted by its members. The mechanism is associated with a drive means comprising at least one pair of juxtaposed chambers, in each of which chambers can move axially a piston, on each of which is articulated one of said connecting rods, and in that said chambers are juxtaposed perpendicularly to the direction of the crankshaft and arranged under said platform to open on the surface thereof, while the pistons, arranged in opposition relative to each other are provided capable of taking two extreme positions, a position wherein the upper plane of said piston is flush with the upper plane of said platform, and a high position where said piston projects above said plane, said pistons being intended to each receive a foot of said speaker or the bottom of each member of the substitution structure to be recessed alternately to drive said crankshaft. The speaker thus takes place in support on the two pistons and, in a lateral rocking movement, by the simple displacement of its center of gravity, it can drive 35 alternately the two pistons. It will be exactly the same for the two members of the substitution structure which will alternately exert thrusts on the two pistons and thus, by means of the connecting rods and the crankshaft activated by the propulsion mechanisms will drive in rotation the wheel or the driving wheels fixed on the latter, one of the wheels, main wheel, will drive the dynamo or the generator by a belt, cardan or other means of transmission. The advantages and characteristics of the substitution structure and the system according to the invention will emerge more clearly from the description which follows and which refers to the appended drawing, which represents a non-limiting embodiment thereof. In the attached drawing: Figure 1 shows a schematic view of the power plant system with several propulsion mechanisms (in this case three) with a crankshaft equipped in the middle with a wheel that can actuate a dynamo. FIG. 2 represents a schematic view of the front (or back) and sectional view of the substitution structure with the pistons at the bottom (12), the two limbs (17), the pelvis (18), the container (bust) ( 19) with the liquid (20) and on the last floor the rolling assembly (23) with the articulated attachment (2+). There is also the elliptical orifice (27) and the transverse axis (28) as well as the stops (25). Figure 3 is a side view of the substitution structure which shows the two pillars (29) erected laterally outside the platform (15). At the level of the upper part of the two pillars (29), is embedded the transverse axis (28) crossing in its width the basin (18) by the elliptical orifice. In the middle, a member (17) mounted at its lower part to the piston (12) and its upper part to the basin (18). On the top floor, a view of the container (bust) (19). At the very bottom, we see a section of the crankshaft (13) just like two plane and horizontal surfaces (45). Figure 4 shows again a power plant system with this time two crankshafts (13) with three examples each time by way of example. This figure has the advantage of showing the two transmissions or drive means (37) from one crankshaft to the other and in particular the main transmission or main drive means (38) of the crankshaft closest to the dynamo ( 39) which activates the latter. FIG. 5 shows front or back a volume (39) in the form of a kit which enlarges the container (19) of the substitution structure outwards and this on each side to maintain the right balance. Figure 6 shows front or back a container (40) which is hooked on each side to the basin of the substitution structure. This container will be fed with a liquid (water ...) in particular in its downward phase by one or more pipes from the tank (the latter element is not shown in this diagram). A cleat (44) on both attached to each end of the movable side wall (43) is apparent. The arrows show the rise and fall of the outer side wall.

It goes without saying that the present invention can not be limited to the foregoing description of several of its embodiments, may undergo some modifications without departing from the scope of the invention.

Claims (7)

CLAIMS1) Power plant system operating with solid masses, moving liquids with or without weight of physical person (s), characterized in that it comprises a propulsion mechanism (11) comprising a pair of pistons ( 12), a crankshaft (13) and two connecting rods (14) at least, mechanism mounted at a platform (15) resting itself on one or more surface (s) flat (s) and horizontal (s) ) (45) and repeated in number according to the same crankshaft or several, all coupled to a generator or a dynamo (39), the system operating by the action of a speaker who will take place on the platform, each foot on a piston of the same propulsion mechanism to drive them alternately to drive said crankshaft (13), the system can work with several stakeholders who will each take an identical position. 2) power plant system according to claim 1, characterized in that the speaker is replaced by a substitution structure of the human body which will play the same role as the speaker having a member (17) fixed on a piston (12). ) and the other on the second piston of the same propulsion mechanism (11) to drive the pistons alternately according to the developed energies including mechanical energy on either side of the substitution structure held in equilibrium with the transverse axis (28) passing through the elliptical orifice (27), which axis is embedded at each end in the two pillars (29) resting on the flat (s) and horizontal (s) surface (s) ( 45). 3) power plant system according to claim 2, characterized in that the substitution structure will comprise above the basin (18) a container (19) with liquid (20) which according to the bean form taken by this The same container will easily flow en masse from one side to the other of the substitution structure and vice versa by the least set of pistons, this displaced mass providing both kinetic energy and potential energy. 4) Power plant system according to claim 3, characterized in that the substitution structure will comprise above the container an arcuate bowl with a raceway (22) on which will move a roller assembly (23) comprising one or several containers interconnected by one or more articulated fasteners (24) on each side of the wheel assembly, the containers can be loaded at will, this rolling assembly generating a new mechanical energy alternately on one side and the other of the substitution structure for pushing the respective piston each time and thereby create the rotary force at the crankshaft. 5) power plant system according to one of claims 3, 4 characterized in that the substitution structure may comprise at the container (19) on each side a volume (39) in the form of a kit that enlarges the amount of the container , the general functioning remaining the same, except that it is reinforced. 6) power plant system according to one of claims 3, 4 characterized in that the substitution structure can receive liquid from a reservoir, liquid which will be discharged into one and then into the other container hooked laterally to the substitution structure, from the beginning of the descending phase, the liquid leaving the container at the end of its downward stroke, and in that a cleat, at each end of the container, fixed to the outer side wall, will accompany the rise of the latter when the container will be near the end of the descent, the side wall returning to its normal position in the rising phase of the container. 7) power plant system according to one of the preceding claims, characterized in that a propulsion mechanism to the other, there will be an angular variation of the cranks, the latter being diametrically opposed within the same mechanism , in order to increase the crankshaft yield.