SU752515A1 - All-purpose laboratory electromagnet - Google Patents

Description

The invention relates to electrical engineering and can be used in laboratory practice for a wide range of measurements and studies in magnetic fields with adjustable induction within the OCH-ZT and with a given configuration of the magnetic field in the working gap, as well as for long-term exposure to magnetic fields of specified parameters. material objects (physical, chemical, biological).

Laboratory electromagnets are known that contain cores bent at a right angle with windings attached to them, and a continuously adjustable hinge with one magnetic core-bed in which the length of the working gap is controlled over a wide range (depending on the length of the base-magnet core). (together with the windings) for a predetermined length with a screw mechanism with subsequent fixing of the cores on the frame with screws 1.

The disadvantage of this device is the difficulty of adjusting the length of the working gap.

Closest to the present invention is a universal laboratory electromagnet containing two cores with pole tips, control windings placed on the cores and consisting of sections forcibly cooled by tubular cooling elements, rome, consisting of two disks made with the cores and fixed between the indicated disks of four magnetic cores with 10 transverse cuts made in them, as well as the mechanism for adjusting the parallelism of pole pieces 2.

The disadvantages of this device are the inability to adjust the length of the working gap within wide limits (which limits its scope), the complexity of the design and its low reliability.

The aim of the invention is to enhance the functionality, simplify the design and increase its reliability.

To achieve this goal, the mechanism for adjusting the parallelism of pole pieces is made in the form of four adjustable pads installed in transverse sections of the magnetic cores, and the tubular cooling elements are made of a star-shaped shape with gaps between the output tubes.

FIG. 1 shows a longitudinal and transverse sections of a universal laboratory electromagnet; in fig. 2 - adjustable gasket; in fig. 3 - tubular cooling element.

The proposed electromagnet consists of the electromagnet 1 itself, a stand with a rotating table 2, and an instrument table 3 connected by strips with screws. The electromagnet itself consists of a rom formed by two identical halves 4 - right and left - with four magnetic cores 5, between which four identical sets of gaskets 6 are placed, defining the length of the working gap, four threaded studs 7, passed through longitudinal holes in the magnetic cores and a slot in gaskets, lugs 8, fastened with screws, a sectioned winding cooled by water flowing through the tubular cooling elements 9, and a ferromagnetic base 10, through which half can be moved the electromagnet using a screw mechanism I. The halves of the electromagnet can be fixed in the right places of the frame with screws 12, passed through the longitudinal cuts in the frame.

To install the necessary large clearance, you need to remove the gaskets 6 and the straps 7, loosen (loosen) the screws 12, move the halves of the electromagnet by the mechanism 11 to a predetermined distance and retighten (clamp) the screws 12.

To install the necessary small working gap with parallelism adjustment of the tips, it is necessary to place between the four magnetic cores 5 of both halves of the 4th frame the same sets of gaskets 6, including one adjustable spacer in each of them (Fig. 2), then adjust the half of the frame with threaded fasteners 7 and align tips, rotating conic screws of 13 adjustable laying.

The tubular cooling element of the universal laboratory electromagnet (Fig. 3) is a tube of suitable cross section, for example, 0 10 X 1 mm made of metal with high thermal conductivity.

for example, copper or aluminum, which, for better heat exchange, is given a star-shaped shape, and there is a gap between the input and output ends of the element tube, sufficient for the output ends of the winding section through it.

The rotation mechanism 14 of the table of the laboratory electromagnet stand (Fig. 1) consists of a handwheel 15 with a handle, a cheek 16 and a rubberized roller 17, kinematically associated with a circular rotating

a stand table 18, mounted in a vertical column 19 of a given height, with a brace 20, mounted on a fixed stand with screws, and containing an eccentric 21, allowing adjusting the friction gear of the roller-table;

rotating the handwheel 15, you can rotate the table with an electromagnet and count the angle of its rotation on the limbus and nonius, not a descent.

Claims (2)

1. Permanent magnets. Directory. Gosenergoizdat, 1963, p. 104 2. Bildyukevich A. L. Universal laboratory electromagnet. PTE, 1963, No. 2, 133 (prototype). 20 / l7 /// . / 6 / o S Fi. Criminal Code 6о9а