ES1316331U - RANDOM POSITIONING MACHINE SUPPORT (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Support for a random positioning machine, characterized by being constituted from a quadrangular frame (1) that has an inclined platform (2) that extends from one of the faces of the frame to the opposite face, and that has a sample holder (3) on each side of the platform, where each sample holder has adaptable fastening pieces (4) and LEDs (5), while at two of the vertices of the frame there is a housing with a camera (6) connected to electronic circuits. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

RANDOM POSITIONING MACHINE SUPPORT

OBJECT OF THE INVENTION

The present invention, as indicated in the title, relates to a support to be used in a random positioning machine, or also known as a clinostat, which rotates biological samples along independent axes to change their orientation in space in complex ways and thus eliminate the effect of gravity.

This device is primarily used in scientific research, especially in studies related to space biology and microgravity. Its purpose is to simulate a microgravity environment on Earth, that is, to create conditions in which the effects of gravity are minimized in order to study how organisms, cells, or materials behave in a low-gravity environment, such as that found in space.

The device in question rotates the objects under study in multiple random directions so that the gravity vector constantly changes. In doing so, the net effects of gravity on the objects are considerably reduced, creating a situation that emulates the microgravity experienced in space.

Inside this random positioning machine there is a support that is responsible for holding the object to be analyzed.

Although this type of machine, with its corresponding support, is already known in the state of the art, it has certain drawbacks that have not yet been resolved.

Currently, known supports cannot ensure such a small microgravity gradient obtained during the experiment. Furthermore, they only allow a single object to be analyzed by a camera, which means that when compared to another object, the results are affected by external variables. Furthermore, their characteristics do not allow for the support of test plates of different sizes.

The proposed invention effectively solves all these drawbacks by providing a device with a unique set of novel and indisputably inventive features.

The present invention has its field of application in the sector of machines for scientific studies.

BACKGROUND OF THE INVENTION

In the state of the art there are several related files such as random positioning machines, such as the following.

Document ES 2034302 T3 proposes a microgravity apparatus and a method for creating microgravity conditions characterized by: a) imparting to said system an initial acceleration of appropriate intensity, obtained by subjecting the system to an acceleration phase of appropriate duration, said acceleration being directed along a direction inclined at an equally appropriate angle with respect to the vertical, such that it makes the latter follow in said gravitational field a ballistic trajectory, which follows the acceleration phase and which develops following an ascending phase and a descending phase, the respective durations of which define the total duration of the ballistic phase, knowing that the phase during which the system describes said ballistic trajectory, the ratio between the duration of the ballistic phase and the duration of the acceleration phase is substantially equal to the ratio between the intensity of the initial acceleration of the system and the intensity of the acceleration of gravity; b) repetition of stage i) by again printing an initial acceleration to the system at the end of each stage i), that is, at the end of each descending phase, and this an appropriate number of times to cover a predetermined period of time.

In another document, specifically ES 2 967 069 T3, there is an apparatus for generating microgravity, comprising: a first rotating body for rotating around a first axis, driven by a first drive means, means for housing a sample circumscribed within the first rotating body, a second rotating body for rotating around a second axis driven by a second drive means and arranged inside a volume delimited by the second rotating body, a third rotating body for rotating around a third axis driven by a third drive means and arranged inside a volume delimited by the third rotating body. The first, second and third drive means are independent of each other, the rotation of each axis being independent of the rotation of the other axes. The rotation of said rotating bodies generates a level of simulated microgravity in the means for housing a sample. The apparatus comprises a processing means for controlling the rotation of each axis by applying, to each axis, a pseudo-random value of rotation speed for a pseudo-random value of time, achieving an instability effect to prevent the sample housed in said medium from adapting to the simulated microgravity generated by the apparatus.

In addition to these documents, there are many others related to them, however, none of them, nor any machine available today that the applicant knows of, solves the drawbacks mentioned above since they lack the distinguishing characteristics of the proposed invention.

DESCRIPTION OF THE INVENTION

Thus, the present invention is constituted from the following elements: A quadrangular frame that has an inclined platform that extends from one of the faces of the frame to the opposite face, and that has a sample holder on each side of the platform, where each sample holder has adaptable clamping pieces and LEDs to illuminate the sample, while at two of the vertices of the frame there is a housing with a camera connected to electronic circuits responsible for the operation of the entire system.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of this specification, a drawing is attached which, as a non-limiting example, describes a preferred embodiment of the invention:

Figure 1.- Elevation view of the invention.

Figure 2.- Perspective of the invention.

The following numbered elements are highlighted in these figures:

1. Frame.

2. Platform.

3. Sample holder.

4. Fastening parts.

5. LEDs.

6. Accommodation with camera.

PREFERRED EMBODIMENT OF THE INVENTION

A preferred embodiment of the proposed invention is constituted from the following elements: a quadrangular frame (1) that has an inclined platform (2) that extends from one of the faces of the frame to the opposite face, and that has a sample holder (3) on each side of the platform, where each sample holder has adaptable holding pieces (4) and LEDs (5) to illuminate the sample, while at two of the vertices of the frame there is a housing with a camera (6) connected to electronic circuits responsible for the operation of the entire system.

Claims (1)

1.- Support for a random positioning machine, characterized by being constituted from a quadrangular frame (1) that has an inclined platform (2) that extends from one of the faces of the frame to the opposite face, and that has a sample holder (3) on each side of the platform, where each sample holder has adaptable fastening pieces (4) and LEDs (5), while in two of the vertices of the frame there is a housing with a camera (6) connected to electronic circuits.