WO2008102399A2 - Modular construction to produce parabolic movement in large and micron mechanisms - Google Patents

Abstract

Installation to produce parabolic movement for heavy and micron mechanismsfor the measurement ' of size, weight, distance, speed, height, depth, time, liquid and gaseous fluids for moving and lifting- weights, objects, loads, structures, people and animals, and as a machine, instrument and product for industry, commerce and handicraft. The module consists primarily of wheels, crowns and special pins. A mechanism acting to produce parabolic movment and a half rotation at the end of the movement or, put another way, a mechanism producing two 180 ° rotations each hour with parabolic movement between each rotation. The module producing the above movement is powered by connecting a crankshaft, that is a mechanical or electronic escapement of any coaxial mechanism which enters into a hole positioned beneath the base of the module. The module itself is equipped with a special pin emerging from the bridge plane closing plate acting to produce a parabolic shift. ' The characteristics forming the object of the invention allow its use, or the use of the module, in industry,commerce and handicrafts. Both as a machine and as a tool,for producing movement on the vertical, horizontal or diagonal plane according need and in relation to the appropriate size the module and invention may be used for loads, weights, objects, structures, people, animals and the \ measurement of speed, load, liquid, gaseous fluids, distance, height, depth, time and size. The s parabolic module can also be used for jewelry, goldsmith and costume jewellery for creating original dynamic jewelry, or with stones and ornaments showing parabolic movement. For watchmaking and clockmaking purposes, it is a product suitable for parabolic adjuncts, in fact creating the opportunity to produce sinusoidal forms and irregular shapes beyond traditional v regular containers and dials and indicators showing parabolic movement. The characteristics of the invention herein described are such as to enable applications in a myriad of forms and uses which go beyond those herein described which are not to be taken as limiting the ambit and purview of the invention for which protection is sought under all applicabile laws.

Description

DESCRIPTION

MODULAR CONSTRUCTION TO PRODUCE PARABOLIC MOVEMENT IN LARGE AND MICRON MECHANISMS.

The invention is a modular construction to produce parabolic movement in large and micron mechanisms , for the measurement of weight, distance, speed, time, liquid and gaseous fluids, and for the horizontal, vertical or diagonal movement of loads, objects, structures, weights, people and animals for operational purposes and, as a commercial product, for use in industrial, artisan and commercial sectors. Due to its intrinsic characteristics the module allows aesthetic innovation in the field of design and fashion. The module consists primarily of crowns and special wheels.

The object of the present discovery is the invention of a parabolic system for heavy and micron mechanisms , powered by energy produced by any mechanical equipment or electronic equipment, where the pivot of the module which is the object of the invention, emerges from the body thereof , and effects a movement between two points opposite to each other in a horizontal, vertical or diagonal parabolic manner, hence semi circular, at the end of which movement (at each end), the pivot will effect circumferences of 180 ° each. This module, object of the invention, is to be used both as an instrument and as a product , for the measurement of: distance, size, weight, speed, time, gaseous and liquid fluids and for the movement of : weights, objects, structures, loads, people and animals. It is suitable for use and as a product in the operational sectors: industry, artisan crafts and commerce. The mechanics of the module in question consists primarily of a crown, partly toothed wheels and special pins. The module which is the subject of this invention possesseSj attractive qualities and innovative endowments of both a functional and aesthetic type, especially , for the watch, goldsmith, jewelry and costume jewelry industries, giving them the opportunity to create precious dynamics or jewelry, which are structurally characterised by displacements of stones, parts in precious metal or high quality artefacts of artistic or artisan quality, for watches with parabolic measurement, in traditional form cases or innovative cases with asymmetric or, sinusoidal forms. For the sake of clarity and simplicity and, we describe below the parabolic modular system of the invention in question, in its primary application in the micron mechanism of time pieces, it being understood that this application should not be considered as limiting the ambit of the invention since the module in the right size and shape in its form or in its proportions, of use is further applicable in other areas of industrial ,commercial or craftsman tecnique. Referring therefore to micron timepieces, the ingenious subject of the invention, the parabolic mechanism, can in turn be powered by energy from familiar wind up coaxial units : manual or automatic, from quartz battery run by electrial , solar or innovative energy. Applying therefore the form of the object to any size common coaxial mechanism which has an escapement, or a pivot emerging from the same body, this would penetrate into the hole of the parabolic module, activate automatically , replacing the coaxial mechanism in the old means of measuring time, producing a new way of recording the passage of time by use of a parabolic movement. The innovations that are the subject of the present invention will be better illustrated below, through the description of a prototype which is illustrated with specific reference to the digrams here attached.which prototype is purely by way of example and without limiting the invention to this particular implementation of the ^' , innovation which rather will include any number of variants to implementation, Described below , is the invention in the form of a parabolic mechanism, with reference to the following drawings, in _t which:

The drawing in Figure 1 represents plate "A" for the containment of the mechanism of the parabolic module, connected to the escapement "K" of any common coaxial mechanism , positioned below the body of the said parabolic module. The escapment "K" passes through plate "A" via hole "S" (Fig. 3) thus becoming integral with wheel "E". The wheels relative to plate "A"are: planet wheel "C"; wheels "Cl, C2 and C3" ; crown "D"; fixed structure "Dl" and connections between the two circumferences with different radius of crown "D;" fixed fixed pivot" D2 "(B, fig. 5,) of crown" D "; integral pivot " Gl "with pinion" G ", mounted on fixed pivot" D2 ". Structures of plate "A": fixed pins "B, Bl, B2 and B3"; border "Al" of plate "A" for the containment of the wheels. Wheels: Spring "F" for stopping crown "D" flange "Fl" of spring "F" on plate "A" , curve "F2" of spring "F"; "A2" placed on "Al" , both for dovetail "Fl" of spring "F", and for locking on the plate of the two different portions of circumference "D3", crown "D"; two threaded holes "X" placed on "Al ";space" A3 "on plate" A "for the flexibility of spring " F " and for the scrolling and rotation of the two circumferences of crown" D ".

Figure 2 layout design of wheel "E" wheel "E", partially toothed "E2" on the outer circumference; tooth "El", located on the inner circumference "E3" to make it integral with escapmentescapement "K".

Figure 3 drawing shows escapement escapment "K" pivot "Kl" (for seconds) of a coaxial mechanism; hole "S" plate "A" wheel "and" tooth "El" wheel "H"; tooth "H3" closing bridge plane "L"

Figure 4 plan, including the big wheel "H" partial teeth "H2" on the outer circumference of the big wheel "H" escapment "K", integral with the big wheel "H" through tooth "H3" located on the inner circumference of hole "Hl" of the big wheel "H", crown "D", portion "D3" of the circumference with lesser external radius of crown "D"; link to stop "Dl" of the two external circumferences of the crown " D "; spring" F "; curve" F2 ""spring" F ";stop" A2 "to crown" D "and for locking spring" F "on plate'Α "through its stop" Fl ",";space" A3 "on plate" A "to provide flexibility to spring" F "and for the movement of crown" A "; two threaded holes" X "for fixing bridge plane" L "(fig. 7) to closing plate "Aby flat ended screw , pinion "G" integral with the pivot "Gl" mounted on fixed fixed pivot"D2" (Fig. 5, B); pinion "G4" mounted on the fixed pivot "D4" of crown " D ".

Figure 5 view A of gears of the parabolic module; plate "A" spacer "A3" crown "D" pinion "G" bridge plane "L" slot "Ll" hole "L2" integral integral pivot "Gl" pinion "G" cavity "G2" pivot "Gl" linear indicator "W"; section view B; plate "A" spacer "A3" crown "D" pivot "D2", integral with the crown "D" pinion "G" integral with the pivot "Gl" mounted on fixed pivot "D2"; linear indicator "W" inserted on pin "Gl"; bridge plane "L" space "Ll" hole "L2".

Figure 6 shows crown "D"; fixed structure "Dl" for the combination of the two circumferences of crown "D"; fixed pivot "D4" integral integral pivot "Gl" with wheel "G" hole "S" plate "A" border "Al" to plate "A" stop "A2" for crown "D" and spring "F" two holes "X"; pins fixed "B, Bl, B2 and B3" plate "A"; "F2" curve spring "F".

Figure 7 shows : bridge plane "L"; two flat ended screw "Z" and "Zl" central hole "L3" escapement "K" crack "Ll" holes "L2".

Figure 8 details a portion of the slot "Ll" in the hole "L2" crown "D" wheel "G" pin "Gl" integral with wheel "G" cavity "G2" pivot "Gl ".

The workings of the parabolic module in accordance with the invention in relation to its mechanical parts and the measuring tool in the position of arrival, of stasis and of semi rotation, or acting to produce parabolic movement or a rotation of 360 ° is now described.. As clearly shown in Figure 1 plate "A" has at its center a hole "S" used for the passage of escapement "K" of any coaxial mechanism , which is integral with the partly teethed wheel " E "(fig. 2) with clockwise rotation governed by escapement " K "and engaged alternatively with wheel" C3 ", positioned on fixed pivot" B3 ", which engages crown" D ", causes crown D to move right-left (anticlockwise) rotation and alternatively engaging with planet wheel "C" placed on fixed pivot "B", causes an clockwise rotation. The same satellite "C" in turn engages simultaneously with wheels "Cl" and "C2" placed on pins "Bl" and "B2", causing these to rotate left-right (clockwise). These last two wheels "Cl" and "C2", engage with crown "D", driving it, in the direction of a left-right (clockwise) rotation. The crown "D" having a fixed pivot "D2" which is integral with crown D, through it carries pinion "G", which is integral with pivot "Gl" which in turn moves indicator "W", which is useful for measuring time (Fig. 5, AB). The displacement of the crown "D" in its parabolic clock wise and anticlockwise movements allows pinion "G", which moves indicator "W", to shift in a clockwise and returing anticlockwise movement. . At the end and at the beginning of the parobolic movement two 180 degree semirotations occur. Crown "D", is made up of two semicircular tractsof circumference, with different radiuses and therefore joined by the conjunctions "Dl" (Fig. 1 and 4) forming its outer circumference. Whenever Crown "D" completes its parabolic movement it is locked into place by spring "F". The base of spring "F is a curve Fl which anchors spring F around threaded hole X in area "A2" of plate "A" through which bolt "Zl" passes (Fig. 6 and 7). At the opposite end, spring "F"consists of a double curvature "F2", which allows crown "D" to stop via "Dl" on the toothed lock "A2" of plate "A", in order to end its two 180 ° semi rotations at pinion "G", for every parabolic movement of crown "D" (fig. 4 and 6). Figure 1, with the initials "A3" (fig. 1, 4, 5 and 6, AB) shows the space in relation to three case involving spring "F" : first, to when it bends as crown "D"moves in its two opposed semi- rotational movements; second, when it allows the portion of crown "D" having the larger radius, to move semirotationally in two opposing directions; third, as spring D spaces crown "D "from the edge of plate'Α ". Symbol "A2"shows the locking tooth of "A" plate which blocks crown "D" at the end of each parabolic movement as the two conjunctions "Dl", come into contact each with one of the two sides of "A2" (fig. 1, 4 and 6). Escapement "K" of coaxial mechanism, , is integral with the partially teethed wheel "E" the tooth "El" of circumference "E3" inside semi wheel "E" (Fig. 3), a second larger diameter semi wheel H above this semi wheel , is also integral with escapement "K" via tooth "H3" located on its internal circumference "Hl" (Fig. 3), in addition to being placed above the semiwheel "E", H rests on the spacer "A3"of plate "A" in order to reduce the friction and the weight bearing on escapment "K". "H" moves clockwise due to the rotation of escapment "K". "H"by engaging with pinion "G4" makes H move 180 ° anticlockwise at each end of the movement accomplished by crown "D". Crown D is mounted on pinion "G", which engages with pinion "G4" which causes G to rotate 180 ° each hour (fig. 4 and 6 Pinion "G" is integral with the pivot "Gl", which pin is composed of two parts: first, the base which is integral with pinion "G" and is cylindrical in shape, having a cavity "G2" on its circumference for almost 4 / 5 of its length; second, pin "Gl" which ends with a shaved cone shape above the cavity on which , "W" the indicator for measuring time is inserted (fig . 5, A and B). Bridge plane "L", closes the parabolic module as shown in figure 7: it consists of a central hole "L3", from which seconds pin "Kl" may, if so desired, emerge from the parabolic module via escapment coaxial caliber escapmenf'K" (fig. 3). Bridge plane "L" has a fissure "Ll" semicircular in shape, which has at its two extremes, that is at its beginning and at its end, two holes "L2" (Fig. 7 and 8). Fissure "Ll" is used for effect the movement of the pin "Gl (Fig. 8), which carries the inserted indicator on it, through fissure" Ll "of bridge plane" L ", through cavity" G2 "of pivot" Gl (Fig. 5, AB): At the end of its journey in slot "Ll", cavity "G2" by entering into the hole "L2" due to its unusual shape effects alternating rotations of 180 ° each (Fig. 7, 8 and 5, AB) . Initials "Z" and "Zl" show the flat ended screw which pass through bridge plane "L" and screw into holes "X" of plate "A" and keep the entire parabolic module, in position (Fig. 1 and 7). It should be understood that the form here described and illustrated by drawings in fig. 1,2,3,4,5,6,7,8 is merely one example of an application for the invention;as long as one does not alter essential characteristics, one can modify the constructive details at will for the purposes of other particular applications without stepping outside the ambit of the invention

Claims

1. Modular construction to produce parabolic movement in large and micron mechanisms powered by energy produced by mechanical equipment or electronic equipment, of well-known use, where the pivot of the module which is the object of the invention, emerges from the body thereof , and effects a movement between two points opposite to each other in a horizontal, vertical or diagonal parabolic manner, hence semi circular, at the end of which movement (both ends), the pivot will effect circumferences of 180 ° each. This module, object of the invention, is to be used both as an instrument and as a product , for the measurement of: distance, size, weight, speed, time, gaseous and liquid fluids and for the movement of : weights, objects, structures, loads, people and animals. It is suitable for use and as a product in the operational sectors: industry, artisan crafts and commerce. The mechanics of the module in question consists primarily of a crown, partly toothed wheels and special pins. The module which is the subject of this invention possesses attractive qualities and and innovative endowments of both a functional and aesthetic type, especially for the watch, goldsmith, jewelry and costume jewelry industries, giving them the opportunity to create precious dynamics or jewelry, which are structurally characterised by displacements of stones, parts in precious metal or high quality artefacts of artistic or artisan quality, for watches with parabolic measurement, in traditional form cases or innovative cases with asymmetric or sinusoidal forms where the complex of gears to be protected include: a body containing the mechanism fitted on its base with an orifice suitable for an escapement of any coaxial mechanism, or a machine applied to the body from below . An escapement of any coaxial mechanism can penetrate inside the module through the appropriate hole and be integral with a semiwheel. which engages with the mechanism which causes alternating left-right, right-left movement of the special form crown and allows the parabolic movement of a pinion integral with a pivot suitable to insert with an indicator,. This pivot is also specially shaped, because of a cavity in the middle of its body. When the special crownin allowing the parabolic movement of the pinion integral with the pivot suitable to dovetail with an indicator stops, it is blocked by a spring located on the plate around one of the semi circumferences of the crown, for the length of time required for the same crown to permit the indicator of the pin integral with the pinion.to rotate 180 ° each hour of The hourly rotation of 180 ° pinion, is produced by its engaging with a pinion having an anticlockwise rotation , which in turn is spurred by the second special wheel. The second special wheel, being integral with the escapment, provides the dynamic energy needed for its continuous hourly movements and positioned above the first wheel, which in turn makes continuous hourly movements and engages with the mechanisms pushing the special crown. On top of the mechanism is a plane with a with a semi-circular slot where the pin with the indicator emerges. The function of this cavity is: first, to allow the pivot to move and rotate without escaping from its predetermined position; second, to enable the indicator to effect its 180 ° rotation at each end of its parabolic path

2. Parabolic System for measuring liquid and gaseous fluids in accordance with claim 1 by applying the following to the parabolic module: propeller blades to integrate with a pin penetrating the hole at the bottom of the parabolic module, which becomes in turn integral with the pinion inside the module in accordance with claim 1. The pivot entering the parabolic module is made waterproof and airtight , that is, impermeable, so as to not permit any penetration by liquid or gaseous fluids into the mechanisms of the module of . The indicator in the module will parabolically measure the pressure produced by the liquid and gaseous fluids as they come into contact with the propeller .in accordance with claim 1.

3. System suitable for lifting or moving in horizontal, vertical and diagonal planes of: loads, manufactured goods, people, animals and structures, in accordance with claim 1. The pin on the upper body of the parabolic module is madde integral with a platform which can transport its load through a parabolic trajectory and perform rotations of 180 °. Such a plane united to the parabolic module is useful for transporting objects, cargo facilities, tools, people or animals in different positions, sizes and forms of use, in appropriate horizontal, vertical and diagonal directions and would be an operational tool, and commercial product, for industries, laboratories, construction sites and commerce, in accordance with claim 1.

4. System for measuring size in accordance with claim 1 : by applying a wheel with a fixed pin at its centre of appropriate size and shape according to the use envisaged, which enters into the parabolic mechanism through the hole and links the wheel to the internal mechanic. The wheel enabes the module to measure distances, heights, widths and speed. The measurement is made through the pivot with the indicator in accordance with claim 1.

5. System for the measurement of the speed of motor vehicles and motorcycles , in accordance with claim 1. To replace traditional measurements of speed of vehicles transporting people; animals, goods or cargoes, simply insert the pin of the speed dial quadrant of the vehicle into the hole positioned under the parabolic module and it will indicate speed on the speed dial in accordance with claim 1.

6. System for measuring speed and height in accordance with claim 1 for mechanical or electronic quadrants with a pin port indicator for aircraft by replacing the indicator on the pin placed on the dial of the aircraft with the parabolic module and introducing the pin into the hole in the parabolic module so that the pin becomes integral with the mechanical module making it useful for parabolic measurement in accordance with claim 1.

7. System for measuring weights in accordance with claim 1. By replacing the indicator mounted on the pivot of traditional instruments for weighing people things and animal cargo, with the module of the invention. Introduce the pivot of these instruments for weighing, into the hole positioned under the module and thus obtain a parabolic measurement via the indicator inserted on the pin of the module in accordance with claim 1.

8. Mechanical module for containers of timepiece mechanisms of the automatic type, in accordance with claim 1. By applying through the orifice positioned below the base of the body of the module the pin of any common motor/mechanism embedded within the container box of watches, a parabolic movement will be produced. Applying , a disk of any size and material used to connect wristwatches through their strap to the pivot emerging from the bridge closing plate this will give them such movement as will wind them up automatically, in accordance with claim 1, even if they are not worn.

9. Mechanical module for the navigation of vessels and for measuring depth of immersion, in accordance with claim 1 in order to replace with the parabolic dial traditional quadrants for measuring speed or depth. As the old indicators have a pin, this can be mounted on the parabolic module, which receives the necessary dynamic energy, to then indicate measurements in accordance with claim 1.

10. Mechanism for the measurment of time in accordance with claim 1 by applying the module to a mechanical or electrical coaxial timepiece mechanism so as to provide dynamic power to a parabolic module.An escapment entering the hole placed underneath the parabolic module, becomes integral with the internal pinion, thus permitting use of the module as an adjunct in micron and heavy timepieces , with sinusoidal cases and asymmetrical shape, in accordance with claim 1.

11. Modular parabolic construct for creating moving jewellery and costume jewellery or jewellery and costume jewellery with ornamental parts showing parabolic movement and rotations in accordance with claim 1. By means of its pin, the parabolic module is equipped with settings or appropriate structures of jewels or costume jewellery so as to make these dynamic via parabolic movement in accordance with claim 1.

12. Mechanical system for ornamental use of dynamic parabolic movement in acccordance with claim 1. Given the dynamic parabolic characteristics and possibilities of expressive innovation the mechanism can achieve, it can be used to produce apparatus of every type for publicity and advertisingpurposes, with parts in parabolic movement as produced by the invention. The size of these mechanical devices will be dictated by their use in accordance with claim 1.