BE1011233A6 - Transmission connection and mechanism - Google Patents

Abstract

Concept of a shape of mechanical part wherein the assembly with a similar part, or of the same type of design, offers an assembly of two parts wherein the mechanical properties find a considerable number of applications in the fields of: - connection parts (mechanism with and/or without spring effect), - energy transmission such as clutches (manually, automatically and/or semi-automatically releasable) and gearboxes (manual, automatic and/or semi-automatic), - and also in fields where one (or more) mechanical action(s) must be protected by an action (manual, automatic and/or semi-automatic), - and also in fields where one (or more) mechanical action(s) must be protected by an action (manual, automatic and/or semi-automatic).

Description

       

   <Desc / Clms Page number 1>
 



  Connection and Mechanics of Transmission The present invention relates to the drawing of a form of mechanical part whose design principles offer a complexity of combinations allowing it to find applications both in the fields of: N connection parts (mechanical with and / or without spring effect) energy transmission such as clutches (disengaged manually, automatically and / or semi-automatically) and gearboxes (manual, automatic and / or semi-automatic) N and also in areas where a ( or more) mechanical action must be protected by an action (manual, automatic and / or semi-automatic).

        and also in areas where one (or more) mechanical action must be protected by an action (manual, automatic and / or semi-automatic).



  Said part will be produced according to the physical laws of the field in which it will be used. Depending on the field of its production, its dimensions and the material used may be very different.



  The drawing of Figl to 11 offers a basic concept which will find applications in the field of fastening means, with the additional possibility of producing this type of part from a simple industrial mold.



  The invention as a connecting piece.



  By Juxtaposing two pieces (Figl and Fig3, or Fig2 and Fig4) in such a way that they come together (Fig5, or Fig6), we find a movable mechanical part which according to its shapes and physical properties will offer a connection piece which will allow to assemble elements simply by pressure.



  A connection piece (1 of Fig7) will simply be integrated into an element (2 of Fig7) by the action of a pressure of the two wings (1 and 2 of Fig5 or Fig6, or 3 and 4 of Fig7) l 'towards each other (Fig8, 9 and 10); and the other element (2 of Figl 1) will be integrated by pressing on the first set (FigIO). Similarly, for extraction, it will suffice to exert a reverse force to separate the two elements. It will only remain to remove the

 <Desc / Clms Page number 2>

 connector which will remain on one of the two elements.

   To remove it, it will suffice to exert, as sunlessly as when it was introduced, pressure on the wings (1 and 2 of Fig5 or Fig6, or 3 and 4 of Fig7) to allow the shoulders to be brought towards their center which, discarded, allowed the stability of the connection.



  Multiple design variations can be applied. Both will depend on the application where this invention will find its place, for example:
Different materials which, unique or composed, will offer: resistance to wear, one-piece design, possibility of design symmetry (Figl and Fig3 are perfectly identical models, simply spatially oriented differently): * Plastic and / or other polymers N Composite materials N Natural materials (wood, stone, ...) * Metallurgy N Miscellaneous The basic principle of this type of connector is:

   allow to move the effort on which will be carried out the assembly Concerning the model represented by Figl, 3 and 5, it should be known that there is one type among so many of other possible configuration.



  It is visible to locate the bumps forcing the elasticity in 1 and 2 of Figl and Fig3 To prevent the two parts from disassembling to escape the forcing which the bumps of elasticity force on them, we find in 3 and 4 of Fig3 and 3 of Fig5, a stop which can even be carried out in a simple mold (without drawer) thanks to the cut which is found in 3 of Figl, in 6 of Fig3, and in 4 of FigS.



  The axis found in 4 of Figl, in S of Fig3, and in S and 6 of Fig5, is actually a fraction of cylinder whose incomplete combination with another identical fraction, allows everyone to move according to an angle which will be limited by their dimensioning.

 <Desc / Clms Page number 3>

 In 7 and 8 of Figl, 3 and 5, we recognize the shoulders which serve to prevent the connector from penetrating too far into the parts where it will ensure the assembly.



  We find in 9 and 10 of Figl, 3 and 5, the shoulders which, once spread apart, will keep connectors and connected elements. it should be noted that these same 9 and 10 of Figl, 3 and 5, have a conical part in the direction that they will be introduced into the elements. This is not useful when we introduce the connector alone in the element, because pmcé it fits alone, but when it comes to them will add an additional element (such as 2 of Figll) this conical part s will prove very comfortable.



  Knowing that for this point as for the preceding ones, this configuration is not exhaustive, and that these details could both be found together and / or separately, as well as of course combined with others. The identity of each connector will therefore depend on the particularities required in its application.



  Another example is the model shown in Figs 2,4,4 and 6.



     N In this case, the two parts to be assembled to make the connector are different. This may be required when, for example, due to material strength issues, the minimum volume to be used requires it. Here, the axis 1 of Fig4 and 4 of Fig6, is unique and will be received by the female part 1 of
Figl.



   There are no bumps but small extensions in 2 of Fig2 and 4, visible in 3 of Fig6. These extensions, small beams whose size will determine the resistance, will be used for elasticity. When meeting, when we bring the wings 1 and 2 of Fig6, their resistance will return the wings once released in the position where the connector is fixed.



     N A pent collar in 3 of Fig4 will arise after the introduction of the axis 1 of Fig4 in the eye 1 of the model part Fig2 on a base 3 of Fig2.



  Still other variations.
 EMI3.1
 



  - Sizing, body, wings, axes: * different asymmetrical N

 <Desc / Clms Page number 4>

 
 EMI4.1
 N disproportionate. etc ...



  Structure and material improving the invention:: N reinforcement of the surface of the wings, in particular for the connection parts in contact with moving elements * internal and / or external gear to the wings making it possible to use the connection parts in a context N transmission for parts whose size allows it, possibility of integrating into the wings, arms whose use as a lever will make it possible to spread the wings as much as possible and also to integrate a locking between them
Pin (s) on the wings, or between, to determine limited fixed or mobile angles to the elements
Other types of mechanisms for elasticity: N vertical spring N spring by torsion in the axis etc.



   Reversed elasticity types offering the connection parts involved the possibility of playing a connection role only when there is a certain pressure on their wings.



   Incidentally, as for all the connectors, it is possible to implement or extend an axis, just as it is also possible to add various other bodies to the structure such as, for example, compensating springs L ' invention as a transmission part.



  Briefly, the application of the invention in the field of energy transmission.

 <Desc / Clms Page number 5>

 



  With Figl2, 13 and 14 we find in!, Two basic pieces of the style of that shown in Figl and Fig3, of the connector shown in Fig5. Crossing the latter, an axis (2) on which slides a pipe (3) (sliding but integral in the rotary axis), the end of which touches the connector by a kind of plate (4).



  For lack of technical means, I can not draw here the following I will therefore ask you to call on your imagination in the company of Figl2,13 and 14.



  The additional axis (2 of Figl2, 13 and 14) is integral with the connector (1 of Figl2,13 and 14). Crossing it in its center by a toothed wheel (not visible here), you should know that when the axis rotates, the connector undergoes exactly the same movement.



  The diameter developed by the aisles of the connector in the closed position (such as Figl2) will always be less than that of the same wings, open (such as Figl3 or 14).



  So it suffices to know that: when the axis (2 of Figl2,13 and 14) turns it drives the connector. At the time
 EMI5.1
 where the rotary movement of the assembly approaches an ease due to the inertia of the launch, it is entirely conceivable to be able to then apply a push of the pipe (3 of Figl2, 13 and 14) towards the center of the connector to obtain of it, let it open. In doing so, it increases the diameter of the opposite wings. Provided that a chain, a pinion or any other means of energy transmission capable of benefiting from the benefits of the increase in diameter of the wings is placed on these wings, an increase in the power of development of! velocity? of said transmission.



  In this case therefore, even more than in the previous ones, mechanical effects that are still impossible to calculate will find something to improve the efficiency of a simple and yet very complex mechanism.



  Incidentally still, let's imagine that on the plate (4 of Figl2,13 and 14), a conical plate, gear-like, is imbued towards the center of the connector. Connector whose wings would be hollow but covered with a kind of gear in relation to that of the plate as seen above. This movement, there again would give very interesting effects.

 <Desc / Clms Page number 6>

 



  The invention as a distribution piece.



  By assembling this type of connector on the one hand, combined with the invention of a cube conceptualized inside a sphere on the other hand, it will be possible to create modular bodies with surprising properties such as completely spatial rotations whose infinite combinations will find as many applications including N robotics: realization of very complex movements, ... spatiality: education, mastery and games, ...



     * etc.


    

Claims (8)

 Claims: 1 / Concept of a form of mechanical part whose assembly with a similar part, or of the same type of design, offers a set of two parts whose mechanical properties find a considerable number of applications. 2 / Concept according to claim 1, characterized in that in applications in the field relating to assemblies and / or connections, it will allow the effort to be moved from where it used to be, to a different place 3 / Concept according to one of the preceding claims, characterized in that the body of the assembled parts can be identical (ex Figl and Fig3), or different (ex: Fig2 and Fig4). 4 / Concept according to one of the preceding claims, characterized in that the materials used can be similar, different, or composite. 5 / Concept according to one of the preceding claims, characterized in that the body of the assembled parts can be in one piece or composed of several parts, themselves of material, physical composition and design, identical, different or composite. 6 / Concept according to one of the preceding claims, characterized in that in the properties which can be found there are among others the following possibilities: N free assembly * determined assembly * assembly whose elasticity in the state base is in the open position N assembly whose elasticity in the basic state is in the closed position * assembly whose composition of the annex bodies improves the properties * assembly whose dimensioning of the suitable bodies and / or annexes, will be N identical  <Desc / Clms Page number 8>    EMI8.1  B different asymmetrical disproportionate etc.   * assembly comprising internal and / or external gears # assembly whose dimensioning of the parts will make it possible to integrate into the wings, arms whose use as a lever will make it possible to spread the wings as much as possible and also to integrate a locking between these * assembly comprising lugs on the wings determining the elements of the fixed angles determined, mobilities determined according to certain angles, and / or also combinations * assembly whose elasticity can be obtained by: * simple spring  EMI8.2  * multiple spring t forcing torsion N etc. M assembly allowing to implement additional bodies, or to extend certain parts of those existing in order to improve its physical properties and / or to enrich new ones 7 / Concept according to one of the preceding claims, characterized in that in the fields relating to transmission mechanics, the invention makes it possible to combine, in the same reduced assembly, the properties of an assembly with numerous parts 8 / Concept according to one of the preceding claims, characterized in that, mechanical principles of energy transfer usually found in many different places, are found here integrated in one and the same number of parts considerably reduced