RU2613649C9 - Hoisting electromagnet - Google Patents

Abstract

FIELD: magnets.

SUBSTANCE: invention relates to hoisting electromagnets designs, preferably intended for operation with loose cargo, including hot ones. Electromagnet comprises housing with base, inner and outer poles, poles extenders, control coil, sealing and protective washers. Inner pole expander has shape of whole washer and fixed on protective washer, which is fixed on outer pole expander. Under sealing washer, on expanders and/or protective washer, spacing washer from heat-insulating material is laid. Disclosed are five versions of inner pole expander and protective washer attachment, including, versions with gap between inner pole and its expander. Gap is filled with heat insulating material with high heat resistance.

EFFECT: enabling inner pole expander simplified design and electromagnet assembly and disassembly process, more efficient use of electromagnet in operations with hot cargo.

9 cl, 7 dwg

Description

FIELD OF THE INVENTION

The invention relates to designs of hoisting electromagnets intended primarily for working with bulk cargoes: iron ore pellets, sinter, shavings, scrap, pig-iron and steel ingots and others, including hot loads.

State of the art

Hoisting electromagnets are characterized by a large load capacity when working with steel plates and ingots and an excessively small load capacity when working with scrap, shavings and other small bodies of magnetic materials [Yu.E. South. Hoisting electromagnets and their repair. M., Energy, 1974, p. 10].

In currently manufactured hoisting electromagnets, the improvement of this drawback is not great.

A significant increase in carrying capacity when working with bulk cargo provides a round lifting electromagnet, the poles of which are equipped with expanders of working surfaces (patent RU No. 2544050, B66C 1/06, publ. 2015).

The specified electromagnet serves as a prototype of the invention. The electromagnet contains a housing with a base, inner and outer poles, a control coil, a sealing (shunt) washer, and a protective washer made of non-magnetic steel. From the bottom, both poles are equipped with expanders, which are designed to increase the working surfaces of the poles, narrowing and lengthening the air gap between them and protrude far beyond their poles. The outer pole expander is in the form of a flat ring welded to the pole. The extender of the inner pole consists of a base having the shape of a washer with a through cylindrical hole located in the center, along the contour of which the base is welded to the pole, and a plug filling the hole and welded to the base flush with the working surface. The lateral surface of the expander of the inner pole is in the form of a cylinder or a regular polyhedron, or a cylinder with vertical protrusions alternating with vertical depressions, and the inner surface of the expander of the outer pole is its equidistant (a surface equidistant from it).

An increase in the working surface of the poles by expanders entails a corresponding expansion of the body of bulk cargo captured by each pole during operation of the electromagnet. Narrowing the air gap between the working surfaces of the poles leads to an increase in the height of the body of the trapped bulk cargo under the zones of the working surfaces adjacent to the air gap, since horizontal sections of the external magnetic circuit are shortened in these zones. The elongation of this gap, its more even distribution over the working surface with the help of faces or protrusions and depressions on the lateral surface of the inner pole and the inner surface of the outer pole equidistant to it, lengthens the higher part of the cargo body.

Three of these factors significantly increase the volume (mass) of bulk material captured by the electromagnet.

However, the electromagnet has the disadvantage that the expander of the inner pole consists of two parts. This somewhat complicates its manufacture and installation. It should be noted that welding of the expander directly to the pole has to be performed in the position of the electromagnet tilted to the suspension side. Dismantling the electromagnet during repair is difficult.

In addition, attaching the specified expander directly to the pole limits the possibility of improving the electromagnet in order to use it when working with hot loads, for example in the manufacturing process of casting iron or steel ingots.

Disclosure of invention

The objective of the invention is to create a design of an electromagnet with pole expanders, which allows to simplify the processes of assembly and disassembly of an electromagnet during repair, as well as to ensure its use when working with hot loads.

This is achieved by the fact that the expander of the inner pole has the shape of a solid washer and is mounted on a protective washer, which is fixed to the expander of the outer pole, and by the fact that between the inner pole and its expander an air gap or gap filled with heat-insulating material with high heat resistance is created.

Description of drawings

In FIG. 1 schematically shows a round lifting electromagnet with a protective washer located in the gap between the expanders; the expander of the inner pole is supported by an annular protrusion in its upper part on a protective washer, which is supported by the annular protrusion of the expander of the outer pole (suspension elements and cable entry not shown).

In FIG. 2 - the same, but the extender of the inner pole has an annular protrusion in the lower part and is mounted on a protective washer superimposed on it and welded to the expander arcuate steel strips.

In FIG. 3 - the same, but the extender of the outer pole protrudes outward and is fixed in the bore of the pole with a steel ring of rectangular cross section.

In FIG. 4 is the same as in FIG. 2, but there is a gap between the inner pole and its expander filled with heat insulating material; while the protective washer is attached to the outer pole expander with arcuate steel strips.

In FIG. 5 shows the lower right part of FIG. 4 on an enlarged scale.

In FIG. 6 shows an electromagnet with vertical protrusions and depressions on the side surfaces of the expanders facing the air gap; there is a heat-insulating gap between the inner pole and its expander; in this case, the extender of the inner pole is fixed to a protective washer partially buried in it and fixed in the bore of the outer pole.

In FIG. 7 shows a top view of the protective washer block with expanders of the electromagnet shown in FIG. 6.

The implementation of the invention

The electromagnet (Fig. 1) contains a housing with a base 1, an inner pole 2 and an outer pole 3, pole expanders 4 and 5, a control coil 6, a sealing washer 7, a spacer washer 8, a casting mass 9, a protective washer 11 made of non-magnetic material and packing 12. As a packing, a heat-insulating basalt cord of the brand ШБТ-Б was used. Expanders 4 and 5, washers 11 and 8 with packing 12 are assembled in a single unit. In this case, the washer 11 fits tightly into the bore of the expander 4, and the expander 5 is also tightly into the hole of the washer 11; working surfaces of expanders are verified in one plane; the expanders should also be tightly attached to their poles when mounting the unit on an electromagnet. Installation is carried out by lowering the head of the electromagnet onto the block, followed by a weld on the joint of the outer pole 3 with its expander 4.

The maximum mechanical load on the washer 11 is only valid when the electromagnet is off: with side impacts of the electromagnet on objects or abrupt lowering it onto a load or floor. When the load is captured, the expander 5 is affected by the electromagnetic force of attraction to the pole 2 and the pressing force to the same pole by the load.

The washer 8 props the washer 7 and restricts the shunt magnetic flux through the washer 7 from one expander to another. It is made of a solid heat-resistant material, for example, Mikaleks.

The electromagnet embodiment of FIG. 2 is characterized in that the expander 15 of the inner pole 2 has an annular protrusion in the lower part and is mounted on a protective washer 11 with arcuate steel strips 10 superimposed on it and welded to the expander 15. The working surface of the expander 15 is increased due to the annular protrusion.

In the embodiment of FIG. 3, the expander 14 of the outer pole 3, protruding outward, is fixed in the bore of the pole with a steel ring 13 of rectangular cross section. This allows you to save the size of the working surface, as in the prototype.

The embodiment of FIG. 4 is different from FIG. 2 in that between the inner pole 2 and its expander 15 there is a gap 16 filled with heat insulating material; in this case, the protective washer 11 is attached to the expander 4 of the outer pole 3 by arcuate steel strips 17. This prevents the gap 16 from being violated when the electromagnet is turned on or when it hits a load or floor.

In FIG. 5 shows the lower right part of FIG. 4 on an enlarged scale.

When using an electromagnet for transporting hot products, for example, in a production stream of cast iron or steel ingots, the expander 15 and the inner pole 2 are especially hot, from which the casting mass 9 and the insulation of the control coil 6 overheat. As a result, the control coil often fails. Therefore, the gap 16 is filled with cardboard or a slab of basalt or mullite-siliceous (mullite-siliceous) fiber with low thermal conductivity. This eliminates thermal radiation from the expander 15 to the pole 2 and reduces the thermal conductivity of this section.

For the washer 8, a compacted plate of mullite-silica fiber with a clay bundle was used.

The gap from 5 mm to 15 mm (depending on the outer diameter of the electromagnet) acceptably reduces the load capacity of the electromagnet.

The clearance is possible in the embodiment of FIG. 3.

For an electromagnet with vertical protrusions and depressions on the side surfaces of the expanders 24 of the outer pole 3 and 25 of the inner pole 2 facing the air gap (Fig. 6), the protective washer 21 is partially buried in both expanders, attached to them by bolts 27 with lock washers 28 and fixed in a bore of the outer pole 3. Between the inner pole 2 and its expander 25 there is a heat-insulating gap 26. It is defined by a spacer steel ring 23. The gap 26 is filled with the same as the gap 16 in FIG. 4. The washer 8 is also made of material according to the embodiment of FIG. four.

In FIG. 7 shows a top view of the protective washer block 21 with expanders 24 and 25 of the electromagnet shown in FIG. 6. At the moment of capturing randomly lying cargo fragments between expanders 24 and 25, an imbalance of the horizontal components of electromagnetic forces acting on both sides of each protrusion of the expander 25 occurs, which tend to deploy the expander 25 together with the protective washer 21. Therefore, the washer 21 is attached to the expander 24 with bolts 27 with lock washers 28.

Compared with the prototype, the invention contains a number of differences.

The expander of the inner pole has the shape of a solid washer; it is mounted on a protective washer, which is mounted on the expander of the outer pole.

In four variants, the protective washer is located in the gap between the expanders; its mass is significantly reduced.

The spacer was replaced by a spacer.

These differences allowed: to simplify the design of both the expander of the inner pole, and mounting it on a magnet; to increase the manufacturability of the process of assembly and disassembly of the electromagnet, its maintainability. The simplicity of FIG. one.

In addition, between the inner pole and its expander an air gap or gap is created, filled with heat-insulating material with high heat resistance. Together with a spacer washer of the same material, this allows more efficient use of the electromagnet in work with hot loads.

Claims (9)

1. A lifting electromagnet comprising a housing with a base, inner and outer poles, a pole expander, a control coil, a sealing and protective washer, characterized in that the inner pole extender has the shape of a solid washer and is mounted on a protective washer that is mounted on the outer pole extender. 2. The electromagnet according to claim 1, characterized in that below the sealing washer, on the expanders and / or protective washer, a spacer washer made of heat insulating material is laid. 3. The electromagnet according to claim 1, characterized in that the protective washer is located in the gap between the expanders. 4. The electromagnet according to claim 3, characterized in that the expander of the inner pole is supported by an annular protrusion in its upper part on a protective washer, which is supported by the annular protrusion of the expander of the outer pole. 5. The electromagnet according to claim 3, characterized in that the protective washer is laid on the annular protrusions in the lower part of the expanders, the expander of the inner pole is mounted on the protective washer, arcuate steel strips superimposed on it from above, welded to the expander. 6. The electromagnet according to claim 5, characterized in that the protective washer is mounted on the expander of the outer pole superimposed on top of it arcuate steel strips welded to the expander. 7. The electromagnet according to claim 5, characterized in that the expander of the outer pole is fixed in the bore of the pole with a steel cylindrical ring of rectangular cross-section, tightly inserted into the bore of the expander. 8. The electromagnet according to claim 1, characterized in that the protective washer is partially buried in the expanders from above, attached to both expanders with bolts with lock washers and fixed in the bore of the outer pole. 9. An electromagnet according to any one of claims 6 to 8, characterized in that between the inner pole and its expander there is an air gap or a gap filled with heat-insulating material with high heat resistance.

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