RU2768983C1 - Lifting electromagnet - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: invention relates to lifting electromagnets used for gripping and holding cargoes from ferromagnetic materials during handling operations. Lifting electromagnet comprises magnetic conductor with inner and two outer poles, coil connected to power supply and made of insulated wire, as well as filling compound. Magnet additionally contains an internal pole placed in an additionally introduced coil similar to the first one, which is connected to a power source. Two inner poles with coils and two outer poles are located symmetrically to each other relative to the vertical plane dividing the lifting electromagnet in half.

EFFECT: expansion of functionality is achieved with an increase in the carrying capacity per unit mass of the lifting device, increase in the depth of penetration of the magnetic field into the transported cargo.

1 cl, 3 dwg

Description

The invention relates to hoisting electromagnets used to capture and hold ferromagnetic materials and parts from them during loading and unloading operations, and can also be used in the production of hoisting electromagnets.

Lifting electromagnet containing a magnetic circuit with internal and external poles, a control coil made of insulated wire and having the shape of a ring, and, if necessary, a casting compound (see patent for invention of the Russian Federation No. .

The disadvantage of this electromagnet is limited functionality.

The closest in technical essence to the proposed one is a lifting electromagnet containing a magnetic circuit with internal and external poles, a control coil made of insulated wire and having the shape of a ring, and, if necessary, a casting mass (see patent for invention of the Russian Federation No. 2309888, M. Kl : B66C 1/06, 2007).

The disadvantage of this electromagnet is limited functionality.

The technical result of the invention is the expansion of functionality with an increase in the carrying capacity per unit mass of the lifting device, an increase in the depth of penetration of the magnetic field into the transported load, an increase in the mechanical strength of the internal poles, an increased heat transfer from the coils to the environment due to an increase in the contact area of the coils with the magnetic circuit.

The stated technical result is achieved by the fact that the lifting electromagnet, containing a magnetic circuit with an internal and two external poles, a coil connected to a power source made of insulated wire, as well as a casting mass, additionally contains an internal pole placed in an additionally introduced coil similar to the first, connected to the power source, two internal poles with coils and two external poles are located symmetrically to each other relative to the vertical plane dividing the lifting electromagnet in half.

Figure 1 shows the proposed lifting electromagnet with a front view from the left side and bottom, including the yoke 1, pole pieces 2 and 3, windings 4 and 5, the magnetic circuit 6, forming additional pole pieces 7 and 8. Figure 2 shows a view of the proposed lifting electromagnet in front; figure 3 - front view, from the right side and bottom. The drawings do not show the armor protection of the electromagnet and the elements of its engagement with the crane.

Increasing the carrying capacity per unit mass of the hoisting device, increasing the depth of penetration of the magnetic field into the transported cargo, increasing the mechanical strength of the internal poles, increased heat transfer from the coils to the environment by increasing the contact area of the coils with the magnetic circuit is the advantage and advantage of the proposed technical solution compared to the prototype.

Claims (1)

A lifting electromagnet containing a magnetic circuit with an inner and two outer poles, a coil connected to a power source made of insulated wire, as well as a casting mass, characterized in that it additionally contains an inner pole placed in an additionally introduced coil similar to the first one, connected to a power source , two internal poles with coils and two external poles are located symmetrically to each other relative to the vertical plane dividing the lifting electromagnet in half.

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