RU2160167C1 - Magnetoaeration separator - Google Patents

Abstract

FIELD: equipment for removal of metal magnetic impurities from loose finely dispersed food products characterized by high adhesion properties and high internal friction coefficient; applicable in food industry. SUBSTANCE: magnetoaeration separator has feeder installed above interpole space, magnetic system, flow change-over switch located under interpole space, discharge branch pipe connected to flow change-over switch and branch pipe of particle collector connected with switch. Air-distribution box is located in center of magnetic system interpole space and parallel to electromagnetic poles, and held in this position by plates of nonmagnetic material. Side surfaces of air-distribution box have holes for introduction of air into product under cleaning in direction of magnetic force lines. Connected to air- distribution box is blower. EFFECT: higher efficiency of separation of ferromagnetic particles from finely dispersed media and provision of food products safe for human health due to removal of ferromagnetic impurities. 1 dwg

Description

 The invention relates to equipment used in the food industry for the removal of metallomagnetic impurities from granular fine food products, characterized by increased adhesive properties and a large coefficient of internal friction.

 A device for separating magnetic grains is known, having a feeder, an electromagnetic system, a receiver of ferrous impurities, and also plates in the interpolar gap, interconnected by jumpers, the surface of the plates being made in the form of alternating protrusions and grooves placed at an angle to the vertical (Autost. St. USSR N 1015911, 05.07.83).

 The disadvantage of this device is the ineffective separation of media with improved adhesive properties and high internal friction. In such materials, the adhesion forces of the particles of the medium exceed the magnetic forces and prevent the movement of ferromagnetic particles to the pole or ferromagnetic filler.

 The closest in technical essence to the present invention is a device in which under the separator feeder is a magnetic system with poles, a receiver of ferromagnetic impurities. A structure is located in the inter-polar space, which allows to increase the gradient of the magnetic field strength in the gap, to reduce the flow rate, and therefore, the residence time of the material in the working area will increase (US Patent No. 4070278, 24.01.78).

 The disadvantage of this device is the inability to use it for the separation of finely dispersed media with increased adhesive properties and a large coefficient of internal friction.

 The problem to which the invention is directed, is to increase the efficiency of the separation process.

 This is achieved by the fact that the magnetic-aeration separator comprising a feeder mounted above the interpolar space, a magnetic system, a flow switch located under the interpolar space, a discharge pipe connected to the flow switch, a particle collector pipe connected to the switch, and a blower according to the invention the blower is connected to an air junction box located in the center of the pole space of the magnetic system, parallel to the poles of the electromagnet, living in such a state by plates of non-magnetic material, on the side surfaces of the air distribution box, holes for introducing air into the product being cleaned are made in the direction of magnetic lines of force, with the ratio of the hole diameters to the gap between the box and the surface of the magnet pole being 0.15-0.16, and the pitch ratio holes to the same gap of 0.5-0.6.

 The invention is illustrated in the drawing, which shows a magnetic aeration separator.

 The separator includes a magnetic system 1, a feeder 2, an air junction box 3, plates 4, a fan 5, a discharge pipe 6, a flow switch 7, a pipe of the particle collector 8.

 The device operates as follows.

 The magnetic system 1 is turned on, the product to be cleaned is loaded into the feeder 2. At the exit from it, a flow of granular medium of rectangular cross section is formed, entering the interpolar space of the magnetic system 1. The flow of the purified bulk product, falling into the interpolar space, is divided by air distribution box 3 into two streams, which move freely along the interpolar space of the magnetic system, limited by the poles of the magnetic system 1, the plates 4 and the air junction box 3. Both flows roduvayutsya thin jets of air directed perpendicularly to the poles of the electromagnet, loosening and breaking structure erasable product. Air is blown into the air junction box by a blower 5. Ferromagnetic particles moving across the flow are magnetized to the pole of the magnetic system 1. The product moves along the pole until it leaves the pole space, then is discharged through the pipe 6. Cleaning the device of ferromagnetic particles accumulated during operation at the poles , occurs automatically at the end of the work. The flow switch 7 directs the flow into the pipe of the collection of ferromagnetic particles 8, after which the magnetic system is demagnetized and de-energized. This leads to the fact that ferromagnetic particles under the influence of gravity are poured into the particle collection 8.

 The use of this device makes it possible to increase the efficiency of separation of ferromagnetic particles from finely dispersed media, characterized by a high coefficient of internal friction and increased adhesive properties, as well as to obtain food safe for health by the content of ferromagnetic impurities in them.

Claims (1)

 A magnetic aeration separator comprising a feeder mounted above the interpolar space, a magnetic system, a flow switch located under the interpolar space, a discharge pipe and a particle collector pipe connected to the flow switch, and a blower, characterized in that the blower is connected to an air distribution box located in the center of the interpolar space of the magnetic system, parallel to the poles of the electromagnet held in this state by plates of non-magnetic of the material, while on the side surfaces of the air distribution box, holes for introducing air into the product to be cleaned are made in the direction of magnetic lines of force, with the ratio of the hole diameters to the gap between the box and the surface of the magnet pole being 0.15 - 0.16, and the ratio of the hole pitch to the same a gap of 0.5 - 0.6.