ITPN20120017A1 - DEVICE FOR COUPLING A PARABOLIC ANTENNA WITH AN EQUATORIAL FRAME FOR A RECEPTION INSTRUMENT FOR RADIO WAVES, IN PARTICULAR A RADIOTELESCOPE, AND TOOL FOR RECEPTION OF RADIO WAVES PROVIDED WITH SUCH A DEVICE - Google Patents

Description

â € œDevice for coupling a satellite dish AD

AN EQUATORIAL MOUNT FOR A RECEPTION INSTRUMENT

OF RADIO WAVES, IN PARTICULAR A RADIOTELESCOPE, E

TOOL FOR THE RECEPTION OF RADIO WAVES PROVIDED WITH THIS

DEVICE"

DESCRIPTION

TECHNICAL FIELD OF INVENTION

[001] The present invention refers to a device for coupling a parabolic antenna to an equatorial mount for an instrument for receiving radio waves, in particular for application to a radio telescope. The invention also relates to an instrument for receiving radio waves equipped with the aforementioned device.

STATE OF THE TECHNIQUE

[002] As is known, a radio telescope is an instrument that allows you to pick up the radio waves emitted by objects in the Universe.

[003] The amplitude of the radio wave range makes it possible to observe and study very different objects, but at the same time it requires different tools to be analyzed in its entirety.

[004] Radio telescopes are essentially composed of three parts: the antenna, generally of the parabolic type, the receiver and the mount. The antenna is a device that converts electromagnetic radiation into electric current which is then sent to the receiver. The mount, in addition to connecting the antenna to the support structure for the support on the ground, must be able to provide the antenna itself with the functions of pointing and tracking the object to be observed.

[005] The state of the art in the field of radio astronomy is represented by large professional radio telescopes located in specific sites and equipped with antennas having a diameter greater than several tens of meters to ensure good resolution and collection of waves.

[006] A drawback of large radio telescopes lies in the very high construction and installation costs, which can only be borne by government research bodies or large scientific organizations; for this reason, they are present in only a few units around the world.

[007] On the other hand, there are some solutions that provide for the use of satellite TV derivation systems converted into a system for receiving radio waves from space. Examples of these proposals can be found on the websites www.iaragroup.org, www.radioastrolab.it, www.elexp.com.

[008] Despite having a low cost, the use of these instruments is extremely limited to the observation of very few objects, including the Sun and the Moon.

[009] Another, and more important, limitation of these solutions consists in the fact that the pointing and tracking of the object to be observed must be done completely manually, with the resulting imprecision; in fact the antenna is supported in a fixed way generally on a tripod or a tripod.

[0010] A further drawback resides in the poor solidity of the support structure for the support on the ground, of the tripod or gantry type, which causes instability of the antenna due to small vibrations coming from the ground or due to the effect of atmospheric agents ; this instability further reduces the already scarce precision of the pointing of the object to be observed and consequently of the radio signals detected.

[0011] Another drawback consists in the poor balance of the antenna on the tripod or tripod support which only allows a fixed point position of the antenna and prevents the latter from being able to have any tracking movement.

SUMMARY OF THE INVENTION

[0012] The main task of the present invention is therefore to devise a device for coupling a parabolic antenna to an equatorial mount for a radio wave receiving instrument, in particular a radio telescope, and a radio wave receiving instrument equipped with the said device, capable of overcoming the drawbacks of the known art.

[0013] Within the scope of the aforementioned task, an object of the present invention is to devise a coupling device that allows coupling a parabolic antenna to an equatorial mount, normally used for optical telescopes, capable of providing a high rigidity and stability, as well as the balance of the whole.

[0014] Another object of the present invention is to devise a coupling device that is simple and inexpensive as well as easy and simple to use, in particular for adjusting the pointing and balancing of the antenna.

[0015] A further object is to devise a coupling device that allows to realize an instrument for receiving radio waves, in particular a radio telescope, of moderate size and cost in order to make it commercially accessible, guaranteeing at the same time good quality levels in performance.

[0016] Another object of the present invention is to develop an instrument for receiving radio waves made by means of components that can be separated and easily assembled in order to be transportable.

[0017] Not least object is to devise a device for coupling a parabolic antenna to an equatorial mount for an instrument for receiving radio waves, in particular a radio telescope, and an instrument for receiving radio waves equipped with the aforementioned device, which achieve the aforementioned task and purposes at competitive costs and which can be obtained with the usual and known machinery, plants and equipment.

[0018] The aforementioned aim and objects, and others which will become clearer in the following description, are achieved by a device for coupling a parabolic antenna to an equatorial mount for an instrument for receiving radio waves, in particular a radio telescope, as defined in claim 1, and by an instrument for receiving radio waves provided with such a device as defined in claim 7.

BRIEF DESCRIPTION OF THE FIGURES

[0019] Further characteristics and advantages of the present invention will become more evident from the following description of a particular, but not exclusive, embodiment illustrated purely by way of non-limiting example with reference to the attached figures, in which:

Figure 1 represents an overall view of an instrument for receiving radio waves, such as a radio telescope, comprising a device for coupling the antenna to an equatorial mount according to the present invention;

- figure 2 is an exploded view of the instrument of figure 1;

- figure 3 illustrates the antenna and the coupling device of the preceding figures;

figure 4 represents the coupling device according to the present invention;

- figure 5 shows a detail of the antenna of the instrument shown in figures 1 and 2;

- figure 6 is an overall view of the instrument of figure 1 from a different angle;

- figure 7 is a detail of the instrument illustrated in the previous figure. DETAILED DESCRIPTION OF THE INVENTION

[0020] With reference to the aforementioned figures, the reference numeral 1 indicates an instrument for receiving radio waves, such as a radio telescope. In the following description, reference will be made to a radio telescope for astronomy, even if the instrument can be used for other uses, such as the determination of the physico-chemical characteristics of the atmosphere or the fire-fighting surveillance of a specific area of the territory, suitably varying the working frequency of the receiver.

[0021] The radio telescope 1 comprises a parabolic antenna 2, a mount 3 of the equatorial type, a coupling device 4 of the antenna 2 to the mount 3 and a support structure 5 for resting on the ground, preferably of the type a column.

[0022] The antenna 2 of the radio telescope 1 must be aimed at the precise area of the sky (or territory) in which the source to be studied is located. For the present application, the use of an equatorial mount 3, commonly used in normal optical astronomy, is particularly advantageous as it allows to track, for a long time and with high precision, the reference radio source, thanks to a axis of rotation of the same mount that corresponds to the celestial one. The frames of this kind can be equipped internally with a computerized electronic system for remote control from a computer.

[0023] For correct operation, the equatorial mount 3 must however be balanced in its two operating axes and the use of an alignment telescope is preferably required for the initial calibration procedure of the equatorial mount 3 on the sky, as will be explained in more detail below.

[0024] The parabola of antenna 2 can be of the full-body type or with a perforated structure of the â € œmeshâ € type; for the present invention it is preferable to use this second type of structure for weight reasons; in fact, despite having a slightly lower gain than that of full-body satellite dishes, the â € œmeshâ € type has the advantage of having a considerably lower weight, and therefore is particularly suitable for installation on an equatorial pointing mount. and automatic tracking. In fact, if with a full-body dish it would be impossible to exceed a diameter of 1.2-1.3 m with a mount capable of supporting 20-25 kg of load, with parables of the â € œmeshâ € type it is possible to use parables of over 2 m in diameter. It is also foreseen the installation in the focus of the parabola of an illuminator 6 with an amplification unit 7 of the LNB type (â € œLow Noise Block Converterâ €) adapted to the specific working frequency of the â € œmeshâ € parabola and of the receiver .

[0025] The equatorial mount 3 can be rotatably associated with the support structure 5 in order to perform the functions of pointing and tracking the radio source automatically; for this purpose, mount 3 is motorized and its movement is controlled by a control panel or by a special tracking software for a celestial object.

[0026] As mentioned above, in order to function correctly the equatorial mounts require a balance on two axes, defined as the right ascension axis and the declination axis, arranged perpendicular to each other. The mount 3 is therefore provided with a first counterweight 8 which can be adjusted by sliding along an arm 9 protruding from the mount 3 itself and arranged approximately perpendicularly to the axis of the parabola of the antenna 2; the function of the first counterweight 8 is to balance the parabola around a first X axis, which defines the right ascension axis. In the normal use of such supports for optical telescopes, essentially formed by an elongated cylinder along a longitudinal axis, the balance around a second axis, indicated by Y and defining the declination axis, is obtained by moving the telescope along the first axis X.

[0027] The installation of a parabolic antenna 2 on an equatorial mount 3 of the above type, however, causes an imbalance of the whole assembly since, due to the weight of the parabola due to the relatively large diameter necessary to ensure the ability to receiving weak radio astronomical signals, the center of gravity of the assembly along the declination axis Y is shifted forward towards the parabola. It is therefore necessary to provide for a balancing of the parabola both of the right ascension axis, or first X axis, carried out by the first counterweight 8, and of the declination axis, or second Y axis, oriented perpendicular to the first X axis; the balancing of the declination axis Y is achieved through a coupling device 4 capable of providing high rigidity and a perfect balance of the parabolic antenna 2 on the mount 3 to obtain the correct pointing and automatic tracking of the radio source with the possibility of generating radio images of the sources themselves.

[0028] The coupling device 4 according to the present invention comprises a plate 10 provided, at an end portion 10a, with suitable guide means 11, advantageously made in the form of slots, extending in a longitudinal direction to the plate 10.

[0029] A second counterweight 12 can be slidably associated longitudinally with the plate 10 in correspondence with the guide means 11 in order to be selectively adjusted and locked by known removable locking means such as screws, in a determined position along the end portion 10a of the plate 10. The second counterweight 12, arranged along the axis of the parabola of antenna 2, thus performs the function of balancing the declination axis Y, also guaranteeing the stability and stiffness requirements required of an instrument for the reception of radio waves, such as a radio telescope.

[0030] At the other end portion 10b of the plate 10, opposite the portion 10a, a flange 13 is fixed to which the parabola of the antenna 2 can be connected by known fastening means.

[0031] In order to further increase the stability and stiffness of the assembly, from the plate 10 advantageously extend two or more tie rods 14 connected, at one end, to the plate 10 and, at the opposite end, to the supporting elements 15 of the dish of antenna 2.

[0032] Advantageously, the equatorial mount 3 can include an optical pointing device 16 which allows the antenna 2 to be manually collimated on the object to be observed in order to initialize the observation and the subsequent automatic tracking of the object. The optical aiming device 16, consisting of a low magnification telescope equipped with special support screws and aiming adjustment for the necessary collimation with the axis of the parabola, can be associated with the arm 9, preferably protruding beyond the first counterweight 8 , and is oriented along an axis parallel to the axis of the parabola of antenna 2; the positioning of the pointing device 16 on the terminal part of the arm 9 is particularly advantageous as it allows to place the device 16 near the periphery of the dish, where the view is better as it is not obstructed by the structural parts of the antenna 2. Furthermore, the positioning on the arm 9 allows the pointing device 16 to cooperate in balancing the dish around the first axis X together with the first counterweight 8.

[0033] The coupling device 4 can be installed on the equatorial mount 3 by means of a clamp 17 associated with the mount 3 and capable of slidingly retaining the plate 10 by means of suitable fastening means such as pressing means 18.

[0034] From the foregoing it is therefore evident that the present invention achieves the aims and advantages initially envisaged: a coupling device has in fact been devised which allows to realize an instrument for receiving radio waves, in particular a radio telescope, through the combination of a parabolic antenna to an equatorial mount normally used in the field of optical astronomy.

[0035] In particular, the coupling of an equatorial mount to a parabolic antenna obtained through the coupling device according to the present invention, possibly combined with a special software for the automatic pointing and tracking of a radio wave source , allows to create an extremely reliable instrument for the reception of radio waves and with the necessary requisites of high rigidity, stability and optimal balance required for use not only in the amateur and didactic field but also in the semi-professional or professional scientific field.

[0036] Furthermore, the coupling device according to the present invention is extremely simple and relatively small in size, as well as being easy and simple to use, in particular for adjusting the pointing and balancing of the antenna.

[0037] A further advantage of the present invention resides in the possibility of realizing an instrument for receiving radio waves, in particular a radio telescope, having contained dimensions and costs, being able to make it commercially accessible, guaranteeing at the same time good quality levels in the performance of the instrument itself.

[0038] Yet another advantage of the instrument made according to the present invention consists in the easy assembly and disassembly of the basic components - antenna, mount, ground support - which allows, in combination with the contained dimensions, the transportability of the instrument.

[0039] Naturally, the present invention is susceptible of numerous applications, modifications or variations without thereby departing from the scope of protection as defined in independent claims 1 and 7.

[0040] Furthermore, the materials and equipment used for carrying out the present invention, as well as the shapes and dimensions of the individual components, may be the most suitable according to specific requirements.

Claims (10)

â € œDevice for coupling a satellite dish AD AN EQUATORIAL MOUNT FOR A RECEPTION INSTRUMENT OF RADIO WAVES, IN PARTICULAR A RADIOTELESCOPE, E TOOL FOR THE RECEPTION OF RADIO WAVES PROVIDED WITH THIS DEVICE" CLAIMS 1. Device for coupling a parabolic antenna (2) to an equatorial mount (3) comprising a first counterweight (8) for balancing said parabolic antenna (2) around a first axis (X), characterized in that said coupling device (4) comprises a plate (10) to which a second counterweight (12) can be slidingly associated, which can be selectively adjusted and locked along said plate (10) for balancing said parabolic antenna (2) around a second axis ( Y) perpendicular to said first axis (X). 2. Device as per claim 1, in which said first axis (X) is arranged, in use, approximately parallel to the axis of the parabola of said antenna (2), and said second axis (Y) is substantially perpendicular, in use, with the axis of the parabola of said antenna (2). 3. Device as in claim 1, wherein said second counterweight (12) can be slidingly associated with said plate (10) in correspondence with guide means (11) provided on an end portion (10a) of said plate (10) and extending in a longitudinal direction to said plate (10). 4. Device as in claim 3, wherein a flange (13) is provided at the other end portion (10b) of said plate (10), opposite said end portion (10a), to said flange (13) said antenna (2) being fixable. 5. Device as in claim 1, wherein said plate (10) can be mounted on said equatorial mount (3) by means of a clamp (17) associated with said equatorial mount (3) and able to hold said plate (10) slidingly. 6. Use of a coupling device (4) as defined in claim 1 for the coupling of a parabolic antenna (2) to an equatorial mount (3) for the realization of an instrument (1) for the reception of radio waves , in particular a radio telescope. 7. Instrument for receiving radio waves, in particular a radio telescope, characterized by the fact that it comprises, in combination: - a parabolic antenna (2) for the reception of radio waves; - an equatorial mount (3) comprising a first counterweight (8) for balancing said parabolic antenna (2) around a first axis (X) arranged approximately parallel to the axis of the parabola of said antenna (2); - a coupling device (4) of said parabolic antenna (2) to said equatorial mount (3) comprising a plate (10) to which a second counterweight (12), selectively adjustable and lockable along said plate (10), can be slidingly associated for balancing said parabolic antenna (2) around a second axis (Y), perpendicular to said first axis (X) and perpendicular to the axis of the parabola of said antenna (2). 8. Instrument as claimed in claim 7, wherein said parabolic antenna (2) is of the â € œmeshâ € type with a perforated structure. 9. Instrument as in claim 7, wherein said equatorial mount (3) is provided with an arm (9) projecting from said equatorial mount (3) and aligned with said second axis (Y), said first counterweight (8) being slidingly and selectively adjustable along said arm (9), said equatorial mount (3) further including an optical pointing device (16) associable with said arm (9) and oriented along an axis parallel to said first axis (X). 10. Use of an instrument for receiving radio waves, in particular a radio telescope, as defined in claim 7.