SU854446A1 - Apparatus for separating ferromagnetic materials - Google Patents

Description

The invention relates to an enrichment of 'neither' of minerals and can be · used in the mining industry.

A known device for magnetic analysis, including a tray and located underneath a magnetic system that creates a traveling field

The disadvantage of this device is the impossibility of its use in the industrial separation of ferromagnetic materials.

The closest in technical essence and the achieved effect to the proposed one is a device for separating ferromagnetic materials, including a conveyor belt stretched over the drums, a traveling magnetic field source in the form of a linear motor inductor with grooves, a feeder, receivers of separation products £ 2 ^.

The disadvantage of this device is the low efficiency of the separation process.

The purpose of the invention is to increase the efficiency of the separation process by increasing the speed of the process.

The goal is achieved in that the inductor is located under the working branch ^{5 of the} conveyor belt, which is mounted on the rollers, while the grooves of the inductor are made along the tape.

The inductor is equipped with aprons of nonmagnetic material located at its ends at an angle to the conveyor belt.

In FIG. 1 shows a device, a General view; in FIG. 2 - the same, transverse section; in FIG. 3 - inductor, top view; in FIG. 4 - inductor and tape, cross section.

The device comprises a conveyor belt 1, an envelope of the drums and 3, a magnetic field source made in the form of an inductor 4 of a linear induction motor with grooves for the winding made along the conveyor belt. Inductor

854446 4 provides increased efficiency

•. 3 is equipped with aprons 6 of non-magnetic material located on the ends of the inductor 7 at an angle of 20-60θ to the plane of the tape, the tape resting on the rollers 8 and freely located on the inductor. In addition, the device has a feeder 9, receivers 10 and 11 products for non-magnetic and magnetic fractions, respectively. The rollers with their axes 12 are fixed in the inductor 4, the grooves of which are insulated 13 and groove wedges 14 to protect the winding from external influences.

The device operates as follows.

When the inductor winding is switched on in a three-phase current network, a traveling field appears, directed across the tape, ferromagnetic particles fall under the action of the running field and gravity into the hopper 11, and non-magnetic particles are carried away by the tape into the hopper 10. Thus, the material being processed is continuously separated by magnetic properties. The rollers 8 absorb the weight of the tape and allow the tape to run on the outer surface of the inductor. The execution of the grooves of the inductor along the conveyor belt allows you to increase the speed of the separation process that the separation process.

Claims (2)

(54) DEVICE FOR DIVIDING FERROMAGNETIC FIELDS The invention relates to the enrichment of minerals and can be used in mining industry. A device for magnetic analysis is known, including a tray and a magnetic system underneath it, which creates a running field tl. f romagnetic materials. The closest in technical essence and the achieved effect to the proposed is a device for separating ferromagnetic materials, including a conveyor belt tensioned on drums, a source of a traveling magnetic field in the form of a linear motor inductor with grooves, a feeder, receivers of separation products 2. The disadvantage of this device - not the efficiency of the separation process. MATERIALS The purpose of the invention is to increase the efficiency of the separation process by increasing the speed of the process. The goal is achieved by the fact that the inductor is located under the working branch of the conveyor belt, which is mounted on the rollers, while the grooves of the inductor are made along the belt. The inductor is equipped with aprons of non-magnetic material located at its ends at an angle to the conveyor belt. Fig, 1 shows the device, a general view; in fig. 2 - the same, cross section; in fig. 3 - inductor, top view; in fig. 4 - inductor and ribbon, cross section. The device contains a conveyor belt 1, the envelope of the drums 2 and 3, the source of the magnetic field, made in the form of inductor 4 linear induction motor with grooves 5 under the winding, made along the conveyor belt. The inductor is provided with aprons 6 of non-magnetic material located at the ends 7 of the inductor at an angle of 20-60 to the plane of the tape, with the tape resting on the rollers 8 and freely positioned on the inductor. In addition, the device has a feeder 9, receivers 10 and 11 products for non-magnetic and magnetic fractions, respectively. The rollers with their axes 12 are fixed in the inductor 4, the grooves of which have an insulation 13 and a groove wedge 14 for protecting the winding from external influences. The device works as follows. When the inductor winding is turned on into a three-phase current network, a running field occurs across the belt. Ferromagnetic particles fall under the action of the traveling floor and the force of gravity into the bunker 11, and non-magnetic particles are carried away by the tape into the carrier 10. Thus, there is an uninterrupted separation of the material being processed by magnetic properties. The rollers 8 sense the weight of the tape and allow the belt to run around on the outer surface of the inductor. Making the grooves of the inductor along the conveyor belt increases the speed of the separation process, which 64 increases the efficiency of the separation process. Formula of the invention 1. A device for separating ferromagnetic materials, including a conveyor belt, tension on drums, a source of a traveling magnetic field in the form of a linear motor inductor with grooves, a feeder, receivers of separation products, characterized in that by increasing the speed of the process, the inductor is located under the working branch of the conveyor belt, which is mounted on the rollers, and the inductor slots are made along the belt. 2. The device for l. 1, characterized in that the inductor is provided with aprons of non-magnetic material located at its ends under the Google belt to the conveyor belt. Sources of information taken into account in the examination 1. USSR author's certificate number 104318, cl. At 03 P 1/24, 1955. 2. USSR author's certificate number 460892, cl. In 03 C 1/24, 1970 (prototype).