RO134986A2 - Elastic motor - Google Patents

Abstract

The invention relates to an ecological elastic motor, to be used for a continuous rotational movement. According to the invention, the motor comprises at least one first ring-shaped elastic element (6), supported by means of at least one first support assembly (2, 10, 11) consisting of a resting support (2) placed between a first pressing support (10) and a second pressing support (11) for tensioning said at least one first elastic element (6), the supports (2, 10, 11) being fixed on a base plate (1), on a circular trajectory according to the projection of the circumference of the element (6), where the distance between the second support (11) and said support (2) is greater than the distance between the first support (10) and said support (2) and where the support (2) comprises at least one first axis (4) with a protuberance (5) for supporting said at least one first element (6) and each support (10,11) comprises at least one first axis (9) provided with a pressing protuberance (8) which presses on said at least one first element (6) from the face opposing the face of the element (6) which rests on the protuberance (5), said first axes (9) comprised by the first support (10), and by the second support (11), respectively, being fixed in a first rocker (12) of the second support (11), and in another first rocker (13) of the first support (10), respectively, each pivoting about an axis (14) fixed into the second support (11), and into the first support (10), respectively, and an adjusting screw (16), one for the second support (11) and another for the first support (10), the rotation of which determines the translation of a threaded bush (15) connected to said first rockers (12,13), determining the displacement thereof and the tensioning of said first element (6), and, at the end of that first axis (4) of the support (2) located at the end toward the outside of the plate (1), a gear wheel (17) is provided to transmit the rotational movement to a consumer.

Description

Starting from the date of publication of the patent application, the application provisionally provides the applicant with the protection conferred according to the provisions of art. 32 of Law no. 64/1991, except in cases where the patent application has been rejected, withdrawn or considered as withdrawn, the extent of the protection conferred by the patent application is determined by the claims contained in the application published in accordance with art. 23 par. (1) - (3).

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ELASTIC MOTOR

The invention relates to an ecological elastic motor, usable to obtain a continuous rotational movement. f »

An elastic motor is known which has a rotating shaft on which the end of a resilient wire-type element is fixed which is wound tightly on the shaft, the other end of the elastic element being fixed by a non-removable support. By stretching the elastic element wrapped on the rotating shaft, an elastic force is stored, the release of which causes the elastic element to shorten again, ie to rotate the shaft in the opposite direction to that at the time of winding.

The known motor has the disadvantage that the relatively limited length of the thread-type elastic element makes the unwinding time short, after which a new winding / unwinding cycle is required - which makes the operation> 1>

this engine to be discontinuous.

Patent 2814907 discloses a flying toy driven by a rubber-band elastic motor comprising a rectangular base frame with a vertical bar which is in contact with a hook to which a rubber band is attached, at the opposite end being provided a bearing in which rotates an axis which has at one end a second hook from which the elastic band is attached and on the opposite side, integral with the axis, a propeller and which develops a limited rotational movement.

The technical problem solved by the present invention is to make a motor with rotary operation, which removes the discontinuity of operation.

The resilient motor according to the invention solves said technical problem and eliminates the disadvantages of known resilient motors in that it comprises at least a first ring-shaped resilient element, supported by at least a first set of supports consisting of a support support positioned between a first pressing support and a second pressing support for tensioning said at least one first elastic element, the supports being fixed on a base plate, on a circular path according to the projection of the circumference of the elastic element, where the distance between the second pressing support and the support support is greater than the distance between the first pressing support and the support support and wherein the support support comprises at least a first axis with a support protrusion of said at least a first elastic element and each first and second support The pressing device comprises at least one first axis provided with a protrusion of pressing which presses said at least a first elastic element on the face opposite to the face of the elastic element resting on the support protrusion, those first axes belonging to the first pressing support, respectively to the second pressing support, being fixed in a first rocker of the second pressure support, or in another first rocker of the first pressure support, pivoting about an axis fixed in the second pressure support, respectively in the first pressure support, and an adjusting screw, one for the second pressure support, respectively another for the first pressure support, the rotation of which determines the translation of a threaded bush connected with those first rockers of the second pressure support, respectively of the first pressure support, causing the movement of those receive the rockers and the tension of the first elastic element and at the end of that first axis of the support, located at the end from the outside of the motherboard, a gear being provided for transmitting the rotational motion to a non-figured consumer.

In an embodiment of the invention when there are several elastic elements, at the end of each axis belonging to the support support, located at the end from the center of the base plate, is fixed a part which takes over the rotational movement of the respective axis and which connects with at least one other adjacent part, which takes over the rotational movement of another axle provided on the support bracket, by means of an appropriate mechanism for taking the rotational movement of each axis and transmitting it via the gear to a consumer.

The mechanism for taking over the rotational movement of several axes can be with gears, belts or drive chains.

In a preferred embodiment of the invention the distance between the second pressure support and the support support is double the distance between the first pressure support and the support support.

In another embodiment of the invention, when several support assemblies are used to support the elastic element, said support supports are arranged equidistantly on the circular trajectory projected by the circumference of the elastic element.

The ring-shaped resilient element is in the form of a strip whose faces coming into contact with the supporting protrusions or the pressing protrusions, respectively, have a concave channel for positioning in relation to a convex profile of said protuberances.

The motherboard is attached to a non-figured frame, with some assembly elements.

For the operation of the resilient motor according to the invention, in the initial phase, one or more resilient elements are supported on the support protrusions of the support support, and the pressure protrusions of the first pressure support and the second pressure support are in contact with the face of the elastic elements which is opposite to the support face. In the second phase, the adjusting screws of the second pressure support rotate, causing the rockers corresponding to the second pressure support to tilt around the axes so that the pressure protrusions press on the elastic elements, causing the elastic deformation of the of the elastic elements and the appearance on them of a tangential component, at the second pressing support, and of a reaction force, at the supporting support, at this moment the highest level of the elastic elements being very close to the supporting support in the direction of the first press holder. In order to be able to perform the rotational movement, the inclination of the portion of the elastic element between the position of the support bracket and the position on the first pressing support must be changed, so that, in the third phase, the adjusting screws of the first pressing support are actuated. the two rockers corresponding to the first pressure support until the highest level of the elastic elements moves to the point between the support support and the second pressure support. Due to the way the pendulums are arranged on the first pressure support and due to the fact that the pressure force, in the tight phase, is perpendicular to the elastic element, at the contact between the first pressure support and the elastic element no tangential component appears. After performing this action, the rotational movement of the elastic elements begins. The farther the level of the elastic element is farther from the support support but not more than half the distance between the support support and the second / £ pressure support, the faster and more forcefully the elastic elements rotate. higher, due to the fact that in the portion of the elastic element between each axis of the support support and the second pressing support there is an inclination and a tangential force from the decomposition of the force in the inclined portion that pushes the elastic element in the same direction.

The shorter the distance between the first pressure support and the support support, the more tense the elastic element becomes and the greater the inclinations of the elastic ring, which lead to the appearance of forces in the inclined portion, until the energy stored in it produces displacement. the elastic element from the pressure protrusion of the second pressure support and respectively the support protuberance of the support support, towards the pressure protuberance of the first support due to the appearance of tangential forces.

The elastic elements move continuously due to the decomposition of the forces between the elastic elements and the protuberances of the support support and of the first and second pressure support, as well as the action and reaction of the annular elastic element. The rotation of the elastic elements determines the rotation of all the axes of the support support from where, by means of the movement transmission element, it reaches an unrepresented consumer. The motor according to the invention has a continuous rotational movement, which is obtained at the level of the transmission element of the rotational movement.

The elastic motor according to the invention can be made with a single ring-shaped elastic element or with several, reaching up to 50 elastic elements and with a single set of supports or with several sets of supports, depending on the diameter of the elastic element ring and the number of elastic elements.

The advantages of the elastic motor according to the invention are that it has a simple construction, easy to implement, does not require any adjustment from the operator, ensuring a continuous, environmentally friendly operation that can be automated from a start / stop button .

The following is an embodiment of the spring motor according to the invention, in connection with figures 1 12, which represent:

Fig.1 - three-dimensional view of the elastic motor according to the invention, in unstressed state (initial)

FIG. 2 - three-dimensional view of the first pressing support 10 of the elastic motor of fig. 1

FIG. 3 is a three-dimensional view of the second pressure support 11 of the resilient motor of FIG. 1

FIG. 4 - three-dimensional view of the support support 2 of the elastic motor of fig. 1 FIG. 5 - three-dimensional view of the elastic motor according to the invention, in a tensioned state

FIG. 6 - view taken in longitudinal section by the elastic motor, after actuation of the screws 16 of the second support brackets 11

FIG. 7 - detail G of fig. 6

FIG. 8 - detail H in fig. 7

FIG. 9 - detail K from fig. 7

FIG. 10 - view taken in longitudinal section by the elastic motor after actuation of the screws 16 of the primary pressure supports 10,

FIG. 11 - the detail M in fig. 10

FIG. 12 - detail N of fig. 11

Figure 1 shows an embodiment of an elastic motor according to the invention which consists of a base plate 1 and two ring-shaped elastic elements (6) which are supported by means of two sets of supports (2,10, 11), each support assembly (2,10,11) being made up of a support support (2) positioned between a first pressure support (10) and a second pressure support (11), the two assemblies of supports being fixed on the base plate (1), on a circular path, in a diametrically opposite position. The support bracket 2 is provided with two pairs of bearings 3 in which are positioned two axes 4 on which there is a protrusion 5 of support and contact. With elastic elements 6. At the end of each axis 4 located at the end from the center of the plate base 1 is rigidly mounted a piece 7 which takes over the rotational movement of the shaft 4, in the form of a gear, and which are engaged with each other. The ring-shaped elastic elements 6 rest on the protrusions 5 and at the same time come into contact with some pressing protrusions 8 located on an axis 9 of some pressing supports, of which a first pressing support 10, respectively a second pressing support 11, fixed to the base plate 1, the second pressing support 11 being arranged at a distance from the support support 2 which is double compared to the distance between the first pressing support 10 and the support support

support 2. The pressing protrusions 8 act on the opposite side of the elastic elements 6 to the support protrusions 5. The axles 9 are fixed in some bearings 3, of some first rockers 12 of the second pressing support 11, respectively of some others first pendulums 13 of the first pressure support 10, which can pivot around an own axis 14 fixed in the second pressure support 11, respectively in the first pressure support 10 due to the translation of threaded bushes 15, connected to the first pendulum 12, respectively with the other first rocker 13, which are actuated by the rotation of an adjusting screw 16 which can rotate but cannot move axially and which has a left / right thread. The elastic elements 6 are in the form of a strip whose faces coming into contact with the support protrusions, respectively with the pressure protuberances, have a concave channel a, which interacts for positioning and drive with a convex profile b of the support protuberances 5 and the protruding protrusions 8 corresponding to the second pressing support 11, respectively the protruding protrusions 8 corresponding to the first pressing support 10. At the end of one of the axes 4, at the end from the outside of the base plate, a gear wheel 17 is mounted. transmission of rotational motion to a consumer not shown. The base plate 1 is attached to a frame, not shown, with some assembly elements 18.

In the initial phase, the elastic elements 6 are supported on the support protrusions 5 and the pressure protrusions 8 are in contact with the opposite face of the elastic elements 6. In the second phase, the adjusting screws 16 of the second pressure supports 11 rotate, causing tilting the first rockers 12 around the axes 14 so that the pressing protrusions 8 press with a force Fi on the elastic elements 6, causing the elastic deformation of the elastic elements 6 and the appearance on them of a tangential component Fu at the second pressing support 11 and a reaction force Fn at the support support 2, at which time the highest level A1 of the elastic elements 6 is between the support supports 2 and the prime pressure supports 10. In order to be able to perform the rotational movement, the inclination of the portion of the elastic element 6 between the position of the support bracket 2 and the position on the first pressure support 10 must be changed, as opposed to the inclination current, which is why in the third phase the adjusting screws 16 of the first pressure supports 10 are actuated to tilt the two rockers 13 until the highest level of the elastic elements 6 moves to point A2 between the support supports 2 and second pressing supports 11, causing a force F2 to appear on the first pressing support 10 and a reaction force Fr2 on the support support 2, as well as tangential components F2t and Fr2t, respectively. After performing this action, the rotational movement of the elastic elements 6 begins. The higher the level A2 is farther from the support bracket 2, but not farther from the half distance between the support bracket 2 and the second pressure bracket 11 , therefore the elastic elements 6 rotate faster and with a higher force, due to the fact that the tangential forces Fu and Fr2t from the second pressing supports 11 and from the support supports 2 respectively push the elastic elements 6 in the same direction. The elastic elements 6 rotate continuously in contact with the protuberances of all axes 4 and 9 due to the decomposition of forces between the elastic elements 6, respectively the inclined portions of the elastic elements and the protuberances 5 and 8 of the supports 2, and 11. The rotation of the elastic elements 6 causes the rotation of the axes 4. hence, by means of the gear 17, the rotational movement is transmitted to a consumer not shown.

The elastic elements 6 are made of strong material with elastic properties, for example spring steel or other similar material, in the form of a strip with a thickness of between 1 mm and 250 mm and a width of between 2 mm and 900 mm.

The diameter of the elastic element 6 is between 10 mm and 100 m.

In the example according to the invention the elastic elements 6 have a thickness of 9 mm, a width of 50 mm and a diameter of 990 mm. ί I

Claims (5)

1. Elastic motor characterized in that it comprises at least a first annular elastic element (6), supported by means of at least a first assembly of supports (2,10,11) consisting of a support bracket (2) positioned between a first pressing support (10) and a second pressing support (11) for tensioning said at least one first elastic element (6), the supports (2,10,11) being fixed to a base plate ( 1), on a circular path according to the projection of the circumference of the elastic element (6), in which the distance between the second pressure support (11) and the support support (2) is greater than the distance between the first pressure support (10) and the support and wherein the support support (2) comprises at least a first axis (4) with a support protrusion (5) of said at least a first elastic element (6) and each pressure support (10, 11) comprises at least a first axis (9) provided with a pressure protrusion (8) which it passes at least a first elastic element (6) on the face opposite to the face of the elastic element (6) resting on the support protrusion (5), those first axes (9) belonging to the first pressing support (10), respectively to the other the second pressure support (11) being fixed in a first rocker (12) of the second pressure support (11) or in another first rocker (13) of the first pressure support (10), pivoting around a shaft (14) fixed in the second pressure support (11), respectively in the first pressure support (10), and an adjusting screw (16), one for the second pressure support (11 ), respectively another for the first pressing support (10) whose rotation determines the translation of a threaded bush (15) connected with those first pendulums (12, 13), causing the movement of said first pendulums (12,13) and the tensioning of said first elastic element (6) and at the end of that first axis (4) of the support bracket (2) located at e the end from the outside of the base plate (1) being provided with a gear (17) for transmitting the rotational movement to a consumer. Elastic motor according to claim 1, characterized in that when there are several elastic elements (6), at the end of each axis (4) belonging to the support support (2), located at the end from the center of the base plate (1), is fixed a part (7) which takes over the rotational movement of the shaft (4) and which connects with at least one other adjacent part (7), which takes over the rotational movement of another axis (4), by means of a suitable mechanism taking over the rotational movement of each axle (4) and transmitting it by means of the gear (17) to a consumer. Elastic motor according to Claims 1 and 2, characterized in that the distance between the second pressure support (11) and the support support (2) is twice the distance between the first pressure support (10) and the support support (2). . Elastic motor according to Claims 1 to 3, characterized in that, when there are several support assemblies (2,10,11), the respective support supports (2) are arranged equidistantly on the circular path projected by the circumference of the elastic element (6). . Elastic motor according to Claims 1 to 4, characterized in that the annular resilient element (6) is in the form of a strip whose faces come into contact with the support protrusions (5) and the pressure protrusions (8), respectively. has a concave channel for positioning in relation to a convex profile of the respective protrusions (5,8).