ES2629448B1 - Spring motor as an artificial satellite accelerator - Google Patents

Abstract

The spring motor as an artificial satellite accelerator is a thrust system formed by an electric motor (1), whose axis forms a gear-cone (2, 3), which has, at the other end, a wheel (3) , with a pivot (4) that protrudes perpendicular to its perimeter. To this pivot (4) is attached the front end of a spring (5) which, at the other rear end is connected to the fuselage of the artificial satellite. In the variant, we replace the electric motor (1) with a hydraulic arm (8, 9) that will have a transverse axis (10) to which two springs (5) will be fixed, one on each side.

Description

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DESCRIPTION

Spring motor as an artificial satellite accelerator.

Object of the invention

The main objective of the present invention is to be able to form a Push System for a mobile, which can be used, especially, for an Artificial Satellite.

Background of the invention

The main antecedent of the present invention is the elements that form it, -Electric Motor (1), Springs (5), Wheels (6) ..., and, also, the Hydraulic Arm (8, 9) -, both in the first form, as in the alternative of realization, although, I do not know any precedent of an organization and a structuring of these same elements, as presented in this invention.

Description of the invention

The Spring Motor as an artificial satellite accelerator, is a Push system formed by an Electric Motor (1) whose Shaft forms a Gear-Cone (2, 3), which has, at the other end, a Wheel (3), with a Pivot (4) that protrudes perpendicular to its Perimeter. To this Pivot (4) is attached the front end of a Spring (5) which, at the other rear end is attached, -in the example of Figure 1-, to the Body (7) of a Mobile that has Four Wheels (6), though, would be fixed on the fuselage of the Artificial Satellite. In an alternative embodiment we replace the Motor (1) and its Wheel (3), with a Hydraulic Arm (8, 9), to which we add a transverse Shaft (10) at the front end of the extendable tube, to which we will join the two springs (5), one on each side of this extendable tube. These springs (5) will be fixed, at their rear end, to two different points of the Artificial Satellite fuselage. Date of the invention: ((06-07) .02.16).

Description of the figures

Figure 1: Plan view of the Motor System that is presented, in an example in which it would move to a Body (7) with Wheels (6), in which we have installed an Electric Motor (1), whose axis forms a Gear-Cone (2) that has a Crown (3) at the front end. To the Perpendicular Axis (4) that protrudes from the perimeter of this Crown (3), the front end of a Spring (5) is attached, which is fixed, at its rear end, to two different points of the Body (7).

Figure 2: Plan view of the Motor System presented in the previous figure, in a different embodiment, which also has a Body (7) with Wheels (6), in which we have now installed a Hydraulic Arm ( 8, 9), -in place of the Electric Motor (1) of the previous figure-, which will be in charge of stretching and compressing the two Springs (5) that are fixed to both sides of the Transverse Axis (10) that has the anterior end of the extensible tube (9).

Figures 1-2:

1) Electric motor

2) Gear-cone

3) Crown

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4) Perpendicular Pivot

5) Dock

6) Wheels

7) Body

Description of a preferred embodiment

The Spring Motor as an artificial satellite accelerator, is characterized by being a thrust system that, every time the Wheel (3) of the Electric Motor (1) in Figure 1, turns the Pivot ( 4) It will first stretch to the Dock (5) and then compress it, so that, when stretched, it will push the body (7) or the fuselage of the Artificial Satellite, which is joined by its rear end. And, when compressed, nothing will happen because the Spring (5) will be regaining its original position, so that there will be no Force in the opposite direction that opposes the Forward Force that produces the Pre-Stretch. Consequently, this Engine (1-: 5) will serve to Push the Mobile forward, which will serve, change, to Push and Accelerate with Force to an Artificial Satellite. To ensure that the Push is Continuous, -and, not Discontinuous as the one presented in Figure 1-, we would only have to duplicate the System by putting two Electric Motors (1), with two Wheels (3) and two Springs (5), offset from each other (180 °), because, in this way, when the First Wheel of the First Electric Motor was Stretching to the First Spring, the Second Wheel of the Second Electric Motor would be Compressing the Second Spring, and, afterwards, what would happen contrary. In the alternative embodiment, we form a Push System similar to the previous one, which will also be effective, as long as the Springs (5) are stretched forward by the Perpendicular Axis (10) of the Extended Hydraulic Arm (8, 9), the Body (7) of the mobile of figure 2 will move with them. And, when the Hydraulic Arm (8, 9) is contracted, the Springs (5) will be Compressed, although, this Compression will not imply a Force in the opposite direction to the previous Forward Push, and, it will not subtract advance to the Mobile. The system can be duplicated, putting on top another Hydraulic Arm (8, 9), just like the previous one, with its Perpendicular Axis (10) and its Springs (5), which will Compress these Springs (5) when the others are Stretching, and vice versa.

This System will also serve to accelerate an Artificial Satellite.

Claims (1)

ES 2 629 448 A1 1. Spring motor as an accelerator for artificial satellites, characterized by being a Push system formed by an Electric Motor (1) whose Shaft forms a Gear-Cone 5 (2, 3), which has, at the other end, a Wheel (3), with a Pivot (4) that stands out in perpendicular to its perimeter. To this Pivot (4) is attached the front end of a Dock (5) which, at the other rear end is attached to the Body (7) of a Mobile that has four Wheels (6), or, to the fuselage of a Satellite Artificial. 10 2. Spring motor as an artificial satellite accelerator, according to claim first-, characterized by being an alternative embodiment of the described system, to which we now replace the Motor (1) and its Wheel (3), with a Hydraulic Arm (8, 9), to which we add a transverse Axis ( 10) at the front end of the extendable tube, to which we will join the two Springs (5), one on each side of this extendable tube. These springs (5) 15 are fixed, at their rear end, to two different points of the Body (7) or the fuselage of the Artificial Satellite.