RO121663B1 - Stand for the analysis of magnetic and thermal spectra - Google Patents

Abstract

The invention relates to an experimantal stand for achieving the magnetic or thermal spectrum resulting from the line currents passing through plate-shaped conducting media. According to the invention, the stand consists of an electric transformer (1) connected to two magnetically shielded terminals (3) by some flexible wires (2). The conducting medium (7) is placed on a working table (4) made of non-magnetic material, mounted in a horizontal position by means of some spacers (4') made of polyvinyl-chloride and some copper bolts, provided with aluminium nuts. The parallelepipedal system of screens (5) and the additional screen (6) eliminates the action of interference magnetic fields. The analyzed magnetic fields are recorded by using a digital photographic or video camera, both of them being fixed on a system (8) ensuring the mobility necessary to both said two apparatuses and the light sources used therefor.

Description

The invention relates to an experimental stand necessary to obtain the thermal or magnetic spectrum, resulting from the passage of the plate-conducting media by the electric current.

In order to obtain the thermal or magnetic spectrum, resulting from the passage of a three-dimensional conductive medium in the form of a plate, a method (RO 96559) is known which consists in supplying the conductive plate studied by two flexible sockets connected to a source of strong currents. The method described has the disadvantage that the object of the study can be influenced by the parasitic magnetic fields, which can thus affect the correctness of the determinations.

The stand for the study of the magnetic and thermal spectra, according to the invention, removes the disadvantage mentioned by the fact that the source of strong currents and the related connections are shielded by a parallelepiped housing, made of ferromagnetic sheet and which housing is provided in the working area with a shield plate magnetic, additional, as well as with two magnetically shielded terminals, to which the studied element is connected and where said stand is provided on the upper horizontal part with a vertical pivot on which slides a fixing system provided with vertical and horizontal translation, on which they are fixed the devices for recording the image of the studied magnetic spectra.

The following is an example of an embodiment of the invention, in connection with FIG. 1, 2, 3 and 4, which represent, as follows:

FIG. 1, a general view of the stand;

FIG. 2, detail regarding the realization of the shielded terminal;

FIG. 3, the principle electrical diagram of the energy installation stored in the electrostatic field;

FIG. 4, changing the shape of the secondary current of the transformer according to different parameters of the use circuit.

The stand according to the invention consists of an electric transformer 1, connected by means of flexible conductors 2, to two magnetically shielded terminals 3. The three-dimensional plate-shaped conductor 7 is placed on a work table 4, made of non-magnetic material, mounted. in horizontal position by means of 4 'spacers of PVC and of bolts of copper, provided with nuts of aluminum. The spacers 4 * are so sized that the working table 4 is located sufficiently far from the ferromagnetic plates of the screen system, that they do not influence the configuration of the magnetic spectrum developed by the adduction currents of the tested object. The shielding of transformer 1 and the related connections is made by means of a ferromagnetic sheet housing (5) to which an additional ferromagnetic screen (6) is added. The recording of the image of the studied magnetic spectra is done with the help of a digital camera and a video camera, both fixed on a system 8, which ensures the necessary mobility for both the two specified devices and the light sources used to obtain sufficient images. clear.

One of the most important parts, which protects the studied object from the influence of the parasitic magnetic fields, generated by the vertical currents that cross the connection circuit with the secondary of the transformer 1, is the magnetically shielded terminal 3, fig. 2. It consists of the terminal 3a to which the flexible conductor is connected 2. The terminal 3a itself is mounted on an electrically insulating support 3b, fixed on the inside of a cylinder 3c, made of ferromagnetic steel and which acts as a magnetic screen. The actual terminal 3a is provided at the top with a 3d nut nut, through which the sockets 3e related to the studied object are connected to the supply circuit. in this

EN 121663 Β1 purpose, the screen 3c is provided with a slot f 'through which the sockets 3e are inserted inside 1 of the 3d screen, where they are connected to the terminal itself.

The stand is also equipped on the upper horizontal face with a vertical pivot 8 on which 3 slides a device 9 provided with vertical and horizontal translation and which is intended for fixing a digital camera or a video camera. Depending on the case, the device 5 can be used for fixing the additional sources of light or the sources of caloric radiation used in the experiments programmed on the stand. 7

The stand is provided to operate powered from an AC source or based on the energy stored in the electrostatic field, fig. 3. In the latter case, the installation is 9 consisting of a capacitor battery 10, adjustable in stages, which is charged by means of a resistor 11 from a rectifier 12. The resistance 11 must limit 11 the value of the maximum charging current that is established when the capacitor battery 10 is discharged. The charging of the battery 10 is carried out by the normally closed contact 13a of a contactor 13. The discharge of the same battery to the primary of the transformer 1 is carried out by the normal open contact 13b of the same contactor. For this 15, it is actuated on a button 14, by which it feeds the coil of the contactor 13. As stated, the battery of capacitors 10 is discharged on the primary terminals of the 17 of the transformer 1. It consists of a winding 1a provided with switchable sockets. , by which the transformer transformer ratio can be modified, such as 19 and two secondary windings 1b and 1c. the winding 1b is intended to obtain currents of the order of thousands of amps, while the winding 1c inserted with an adjustment winding 1d 21 with six sockets is intended to obtain currents of the order of hundreds of amps.

in FIG. 4 are shown some of the possible shapes for the current established in the circuit 23 of use, connected to the terminals of one of the two secondary windings of the transformer 1. The curves shown in fig. 4 shows the dependence of the main current on: the value 25 of the capacitor battery capacity 13, the value of the battery charging voltage, the transformer transformer ratio and the resistance of the use circuit. 27

Claims (4)

Claims 29 1. Stand for the study of the magnetic and thermal spectra, consisting mainly of a 31 source of strong currents, connected by flexible connections to the contour of a three-dimensional conductive medium in the form of a plate, characterized in that the source of strong currents - transfer- 33 the major (1) whose secondary circuit is connected by means of two conductors (2) to two magnetically shielded terminals (3), to which a conductive medium in the form of a tape is coupled by means of 35 copper conductors plate (7), placed on a work table (4), made of a non-magnetic and non-conductive material and fixed by means of 37 spacers (4 ') from the chassis of the stand and where the shielding of the transformer (1) and the related connections are made by means of a ferromagnetic sheet housing (5) to which an additional ferromagnetic screen (6) is added. Stand according to claim 1, characterized in that the magnetically shielded terminal 41 (3) is made up of a part (3a) which represents the terminal itself, to which a flexible conductor (2) is connected by soldering and which terminal is mounted in an electrically insulating support 43 (3b) fixed inside a cylinder (3c) made of ferromagnetic steel, which plays the role of a ferromagnetic screen, and where the terminal itself is provided at the top with a 45-ply butterfly (3d) ), easy to handle from the outside and through which the contact of the terminal with RO 121663 Β1 1 copper strip sockets (3e), glued to the contour of the studied object and for which purpose the magnetic screen (3c) is provided with a slot (f) through which the access of the socket (3e) 3 to the actual terminal (3a) is realized ), located inside the magnetic screen. Stand according to claim 1, characterized in that the conducting medium tridi- 5 monthly in plate form (7) is placed during the experiment on a work table (4) made of non-magnetic and non-conductive material, supported by the chassis of the installation through some 7 spacers (4 ') sufficiently high, so that in relation to the surrounding ferromagnetic parts a sufficiently large distance is achieved, so that they do not influence the configuration of the 9 spectra studied. 4. Stand according to claim 1, characterized in that, on the horizontal face, 11, of the chassis, is mounted a pivot (8) on which slides a device (9) provided with vertical and horizontal translation, and which is intended for mounting devices for recording the image of the studied spectra, the device can also be used for fixing some additional sources of lighting or sources of caloric radiation, used in 15 experiments.