SU678542A1 - Controlled reactor with transverse magnetization - Google Patents

Description

The invention relates to the field of pharmaceutical engineering and, in particular, concerns the design of ferromagnetic energy reagents, which are controlled by the magnetic field.

The known design of a transverse biasing controlled reactor in which the reactor is constructed on a three-core magnetic core, the extreme rods are side ramnes and the rod is hollowed in the form of a hollow cylinder with a power winding and a control winding l. The control winding is toroidal in such a way that one side of its coil passes inside the rod, and the second outside it.

A disadvantage of the known construction is the impossibility of creating, on its basis, powerful controlled reactors for AC power lines. This disadvantage is due to the location of the control winding part in the gap and outside the rod.

which leads to a limitation of the regulation depth, an increase in the insulation distances and dispersion channels, a significant consumption of active materials and an increase in power losses in the reactor. H & -.

A well known construction is also the difficulty of mounting a control winding.

The purpose of the invention is to increase the power of the depth of adjustment, convenience

 and dismantling the reactor. The goal is achieved by the fact that the middle core of the reactor armor core is split into two parts with a longitudinal channel in each of the sockets,

take the walls of the split rod

have the same height along the entire perimeter and are end-to-end connected to the horizontal frames and the frontal parts of the control winding are located outside the rod.

The drawing shows the described

device.

Claims (1)

FIG. 1 shows a general view of a ynjraBl-type reactor with transverse flotation; in fig. 2 is a cross section of the magnetic circuit; in fig. Option 3: A twisted design of a split rod. Control winding 1 (in fig.) | creating a transverse magnetic field, is mixed in the inner axial channels of the split rod 2 composed of two hollow tubes with a base of any shape. The frontal parts of the winding of the control 1 are located outside the rod, for example. measures in horizontal frames 3. The power winding 4s encircling the split rod 2 is shielded with side frames 5, laminated with horizontal frames 3. Due to the decrease in the average power line of the transverse magnetic field in the split rod, the control field strength in it is greater than known design with single. kovy ampere-turns of magnetization. This makes it possible to obtain greater reactor control power. In the case of a mini malvoltage between the split rod 1 and the horizontal frames 3, provided by the passage of the frontal parts of the control winding 1 beyond the limits of the rod 2, the depth of regulation of the reactor is increased. The success of the active parts of the control winding inside the split rod reduces the external channel of dissipation of the power winding, reduces the consumption of winding copper and, accordingly, the power loss in the reactor. Claims of the invention A transverse biasing controlled reactor containing armor. The mapping pipe, on the middle core of which is placed the power winding and control winding, characterized in that with the power increase, depth of adjustment, ease of assembly and disassembly of the reactor, the middle rod is split into two parts with a longitudinal channel in each of them, and the rod has the same height along the entire perimeter and is end-to-end connected to the horizontal frames, and the frontal parts of the control winding are located outside the rod. , SOURCES of information taken into account in the examination of 1, Patent of Germany No. 911293, cl. 1954