DE3418182A1 - Method and device for maintaining a specific temperature in the outer casing of the drum of a magnetic separator, in particular a ring jacket separator - Google Patents

Abstract

In the magnetic separation of damp bulk materials, the machines may become caked and clogged up. It is favourable to heat the parts coming into contact with the damp material, such as for example the outer casing of the drum of a ring jacket separator. The heating takes place via the magnetic coils by converting electrical energy into heat. However, with increasing temperature the magnetic field is weakened and the separating effect of the magnetic separator is degraded. The magnetic separator must therefore be cooled. The invention permits a constant operating temperature to be established and kept constant for the outer casing of the drum of a magnetic separator. This is achieved according to the invention in that the amount of coolant is set in an infinitely controllable fashion. In this way, the heat produced in the magnetic coils can be utilised very advantageously and controlled in such a way that, on the one hand, the desired heating of the outer casing of the drum is achieved and, on the other hand, an excessively high, undesired thermal stressing of the magnetic coils is prevented.

Description

Method and device for maintaining a

certain temperature in the drum shell of a magnetic separator, in particular of a jacket ring separator The invention relates to a method and a device to maintain a certain temperature in the drum shell of a magnetic separator, in particular a jacket ring separator, the magnetic separator by means of a cooling medium, especially air, is cooled.

Such a magnetic separator is from the company brochure 4-714 of KHD Humboldt Wedag AG, - Starkfeld jacket ring separator GTML - known.

Jacket ring separators or drum ring separators are used for continuous, dry magnetic processing and for the separation of magnetizable components or to separate magnetizable impurities from granular mineral bulk materials used, for example in the processing of magnesite, Silicon carbide, corundum or chamotte.

The raw materials for this are mostly outdoors in sufficient quantities Heaven stocked up. Due to the storage in the open air contain the bulk goods, such as for Example of porous petroleum coke with strong hygroscopic properties, a lot Humidity. During processing such as size reduction, sieving or magnetic separation therefore tend to these bulk goods strong for baking and clogging of the machines. This problem could be eliminated if, for example, everyone had Parts that come into contact with the moist material are either made of plastic or heated.

With jacket ring separators with a high gradient of the concentrated Magnetic field, which has an average field strength of about 1.5 Tesla, results However, the disadvantage that with increasing heating of the magnet coils the Magnetfela weakens and the separating effect of the magnetic separator for magnetizable and non-magnetizable components deteriorated.

It is therefore the object of the invention to continue the known magnetic separator to improve, and to specify a method according to aem the solenoids sufficient cooled and the drum shell set to a selectable constant operating temperature and can be held.

This object is achieved in that the amount of cooling medium is infinitely variable is adjustable. In this way, the resulting in the solenoid coils Heat is used very advantageously and is regulated in such a way that, on the one hand, everything is desired Heating oes drum shell achieved and on the other hand, too high an undesirable Heat stress on the coils is prevented. By keeping a certain Operating temperature through a correspondingly controllable cooling or steplessly The amount of coolant can be adjusted to suit the specific load on the wrapping material the solenoid coils are set higher and thus a considerable saving in coil construction can be achieved in the design of the windings.

In an embodiment of the invention it is provided that the setting the amount of coolant through a stepless speed control of a fan and / or through a stepless adjustment of a throttle element arranged in the coolant flow he follows. In this way, if necessary, it can be removed very easily from inside the jacket ring separator the excess or unwanted heat dissipated by means of the cooling medium will. The fact that the amount of cooling media is continuously adjusted, that is, depending is varied according to the required operating conditions at any time ensures that on the one hand there is no damaging overheating of the solenoid coils ahrough heat build-up or temperature overload, and on the other hand the advantage of a controlled heating of the outer rotating peripheral surface or surface of the drum jacket of the jacket ring separator to prevent is given by material hooks. So it can be very beneficial to the dissipation the amount of cooling media required for the excess heat in a simple manner, for example determined or depending on the temperature in the jacket ring separator can be set.

In a further embodiment of the invention it is provided that the amount of cooling medium as a function of the temperature measured on the drum shell and / or as a function on the separation efficiency and / or depending on material caking on the drum shell of the magnetic separator is regulated.

The one used for the process of maintaining a certain temperature in the jacket ring separator the relevant controlled variable can on the one hand the respective oer Surface or circumferential surface of the drum shell prevailing temperature be. By measuring this temperature in the drum shell or in or on the magnetic coils of the jacket ring separator, for example by means of under the drum jacket thermocouples built-in or wrapped in the solenoids, respectively temperature sensors, is simple Way very advantageously recognizable, whether the cooling capacity or the amount of coolant blown through increases or needs to be reduced in size.

On the other hand, the amount of coolant can vary depending on the separation efficiency, which is determined by simple measuring devices can be regulated. Also is one Regulation of the amount of cooling medium depending on material caking on the drum shell by means of simple optical and / or mechanical scanning devices for the adhering Material layer on the drum shell possible.

In this way, different measurement parameters alone are very advantageous or can be used in combination as control variables for the amount of coolant.

In a further embodiment of the invention it is provided that the temperature set on the drum shell via a controller and continuously variable with the help of the supplied controllable amount of coolant is kept constant. This will be very beneficial a fully automatic mode of operation of the jacket ring separator with monitoring and Constant maintenance of the operating temperature inside and on the outer surface of the jacket of the drum shell reached.

In the device-like embodiment of the invention it is provided that the magnetic separator, in particular a jacket ring separator, consists of a rotatably mounted, The drum shell enclosing magnetic coils consists in the for the supply of the amount of cooling medium a pipe with a fan is arranged so as to protrude centrally, for setting a regulator is provided for the amount of cooling media fed into the drum shell, the adjustable with the fan and / or with one arranged in the coolant flow Throttle body is in communication. This can be very beneficial in a simple way the inside of the drum with the solenoids and aem outside rotatable A cooling medium is introduced into the drum shell of the magnetic separator and thus excess, unwanted heat can be dissipated to the outside in a controlled manner.

Adjusted by the controller, aes gas-tight fan and / or oes adjustable throttle element in a very simple and advantageous manner the cooling medium, in particular air, in a variable amount into the interior of the magnetic separator drum introduced and maintained a certain temperature in the drum shell of the magnetic separator will.

In a further embodiment of the invention it is provided that the controller is connected to temperature sensors arranged within the drum shell. Through this, that the control of the fan or the fan motor and / or the throttle element in the cooling media flow fully automatically via a controller, for example as a function takes place from the temperature measured by means of temperature sensors in the drum shell, a precisely controllable operation of the magnetic separator with constant Field strength of the magnetic field possible at a freely selectable operating temperature.

In a further embodiment of the invention it is provided that the controller with a measuring device for determining the separation efficiency uno / or with a Measuring device for determining material caking on the drum shell of the Magnetscheders is in connection thereby, can be very advantageous further simply Measured variables to be determined from the operation of the magnetic separator as a control variable for the controller for setting the amount of cooling medium supplied, alone or in combination can be used.

In a further embodiment of the invention it is provided that the fan has an intake, in which the over a drive adjustable Throttle body is arranged. With the preferred use of the intake port on the Fan and the adjustable throttle element in the coolant flow is through a simple Component very advantageous a simple way of changing the sucked Given amount of cooling medium. The throttle member, for example a throttle valve or a throttle valve can also be used at any point in the cooling medium flow Example also be arranged in the outlet pipe for the cooling medium.

In a further development of the invention it is provided that the drive of the adjustable throttle device via the controller with the temperature sensors in the drum shell and / or with the measuring devices for determining the separation efficiency and / or the material caking is connected. So can a simpler, smaller, cheaper Servomotor, regulated by the controller, depending on the measured controlled variables, the step-by-step or stepless adjustment of the throttle valve and thus aie change the amount of coolant drawn in. This training according to the invention leaves can be retrofitted very easily with existing sheath ring separators.

Another advantageous embodiment of the invention consists in that the pipe protruding into the drum jacket of the jacket ring separator has bores which are connected to coolant lines, the coolant lines sina arranged between the magnetic coils. Through a large number of coolant lines between aen solenoid coils can be very beneficial to many the introduced Kühlmeutum Channels are distributed so that subsets of the cooling medium are targeted to the solenoid coils can flow and a Dessere heat dissipation is achieved. With this indirect Cooling, the tube protruding into the drum shell is preferably continuous educated. With this embodiment of the invention the possibility the use of liquid cooling media, such as water, in addition to the preferred Use of gaseous cooling media such as nitrogen or inert gases created. In relation to the cooling medium flow, the fan is then simply replaced by a Pump for pumping or transporting the liquid cooling medium set.

An apparatus for performing the method according to the invention is based on an embodiment shown schematically in the drawing explained in more detail, from which further advantageous details can be found in sina.

The drawing shows a partial longitudinal section through an inventive, Magnetic separator designed as a jacket ring separator. The magnetic separator exists from a housing 1, an upper bulk material feed 2 and a lower multiple oeteilen bulk material discharge device 3. In the oem housing 1 there is an adjustable one mounted drum 4 with a rotatably mounted drum shell 5. Inside the Drum 4, several magnetic coils 6 are arranged, aie a magnetic field of high field strength of, for example, about 1.5 Tesla and the separating effect on the magnetizable and non-magnetizable components of the bulk material in the magnetic field. At the In operation of the magnetic separator, these magnetic coils 6 generate heat through conversion of electrical energy. The heating of the drum shell 5 causes sticking or caking of the moist bulk material is prevented with certainty. Around However, to protect the magnetic separator from overheating and deterioration the separating effect of the magnetic separator through temperature-related weakening of the magnetic field To avoid this, a protruding tube 7 is arranged in the middle of the drum 4, through which a cooling medium for cooling the magnet coils 6 and of Drum shell 5 is introduced. The tube 7 can, for example, as a continuous Hollow axle or as a hollow axle section of the drum 4.

A fan 8 is arranged in a gas-tight manner in front of an outer end of the tube 7. With this fan & wea a gaseous cooling medium, preferably air, through the tube 7 is blown into the drum 4. The air flows through a pipe 7 opposite Pipe section or hollow axle section out of the drum 4 again. as Coolants are also other gaseous or liquid media, such as nitrogen, Inert gases, water or similar common cooling media can be used. For the use liquid cooling media, a pump is used instead of the fan.

When using gaseous cooling media, preferably air, can the amount of air supplied is infinitely variable by regulating the speed of a fan motor 9 and / or by a throttle valve arranged in the intake port 10 of the fan 8 11 take place. The throttle valve 11 is an adjustable drive 12 in any Positions set. The amount of cooling air is regulated by a controller 14 as a function of the temperature measured in the drum shell 5 and / or in Depending on the severity of the separation effect and / or depending on the material caking on the drum shell of the magnetic separator. For this purpose, the controller 14 is on the one hand over electrical lines 15, 16 with the adjustment drive 12 of the throttle valve 11, respectively with the fan motor 9 and on the other hand via electrical lines 17 with temperature sensors 18, 19 in the drum shell 5 or on the solenoids 6 and / or with the Measuring device for determining the separation efficiency and / or with the measuring device connected to the determination of material caking.

The measuring devices, not shown in the drawing, for determining the separation efficiency and the determination of material caking can be based on optical and / ocier mechanical means, for example by means of light barriers or scanning Sensors to determine the required measured values as control variables.

The measuring device for determining the separation efficiency can be found in the subdivided bulk material discharge device 3 and the measuring device for determining the separation efficiency on the back of the drum shown in the drawing 4 can be attached to the housing 1 with a slight spacing from the drum shell 5.

When using temperature sensors 18, 19, for example of the type Thermocouple PT 100, results when there is a change in the temperature prevailing on the drum shell 5 Temperature also changes the electrical resistance. This change of resistance is input to the controller 14 and amplified. This measured variable represents an actual value X represents the temperature. With a setpoint adjuster, the controller 14 can set the desired Setpoint W of the temperature, for example 60 OC, can be set. The regulator 14 compares aen setpoint W with the actual value X and forms the difference between Setpoint W and actual value X, which results in the control deviation X minus W. Exceeds the control deviation a certain freely selectable, predetermined size, for example 3 DC, when the input signal X is greater than W, the controller 14 switches a relay 20 and with input signal X less than W a relay 21. The switch position of the respective Relay is indicated by light emitting diodes. The heating relay activates the fan motor 9 or the adjustment drive 12 of the throttle valve 11 is controlled.

If relay 20 responds, the cooling capacity is increased, that is to say either the speed of the fan 8 is increased, or the adjustment drive 12 opens the Throttle 11. Speaking Relay 21 on, then the cooling capacity reduced, that is, either the speed of the fan 8 is reduced or the adjusting drive 12 closes the throttle valve 11. This can be very advantageous a certain coil or surface temperature of the jacket ring separator Freely set and constant within a tolerance of e.g. plus minus 3 ° C be held so that caking of the magnetic field without loss of power Bulky material on the surface of the drum shell 5 can be avoided with certainty.

To achieve effective, targeted cooling at certain points inside To reach the drum 4, the tube 7 can, for example, as a continuous tube (as shown in dashed lines in the drawing) formed and with several Be provided bores 22 which are connected to cooling medium lines 23, wherein the cooling medium lines 23 are arranged between the magnet coils 6. To a to ensure sufficient flow of coolant through the coolant lines 23, can also have a removable baffle inside the continuous pipe 7 24 be arranged. By inserting different baffle plates inside the Tube 7 a different flow cross-section can be set and achieved, that more or less coolant the pipe 7 or the coolant lines 23 flows through. The direction of flow of the cooling medium is on the inlet side on the fan & by the arrow 25 and on the exit side from the pipe 7 respectively the hollow axle section opposite the input side by arrow 26 marked. This advantageous embodiment of the invention is particularly useful for Indirect cooling using liquid cooling media is suitable.

Legend for reference numerals 1 housing 2 bulk material feed 3 bulk material discharge device 4 drum 5 drum shell 6 magnet coils 7 protruding pipe 8 fan 9 fan motor 10 intake port 11 throttle valve 12 adjustment drive 13 14 controller 15 electr. cables 16 electr. Lines 17. electr. Lines 18 temperature sensor 19 temperature sensor 20 relays 21 relays 22 bores 23 coolant lines 24 storage disc 25 arrow (Input) 26 arrow (output) - blank page -

Claims (10)

Claims 1. Method for maintaining a certain Temperature in the drum shell of a magnetic disk, in particular a cladding ring, whereby the magnetic separator is cooled by means of a cooling medium, in particular air, a characterized in that the amount of cooling medium is continuously adjustable. 2. The method according to claim 1, characterized in that the setting the amount of cooling media through a stepless speed control of a fan and / or through a stepless adjustment of a throttle element arranged in the coolant flow he follows. 3. The method according to claim 1 or 2, characterized in that the Cooling medium quantity depending on the temperature measured on the drum shell and / or depending on the separation efficiency and / or depending on material caking is regulated on the drum shell of the magnetic separator. 4. The method according to claim 1, 2 or 3, characterized in that the temperature on the drum shell is set via a controller and with the help of the supplied amount of cooling media is kept constant. 5. Device for performing the method according to the claims 1 to 4, consisting of a magnetic separator, in particular a jacket ring separator, with a rotatably mounted drum shell enclosing magnetic coils, in which for the Supply of the amount of coolant a pipe with a fan protruding centrally is arranged, characterized in that for setting the in the drum shell (5) the amount of coolant supplied is provided a controller (14) which works with the fan (8) and / or with an adjustable throttle element arranged in the coolant flow (11) is in connection. 6. Apparatus according to claim 5, characterized in that the regulator (14) with temperature sensors (18, 19) arranged inside the drum shell (5) connected is. 7. Apparatus according to claim 5 or 6, characterized in that the controller (14) with a measuring device for determining the separation efficiency and / or with a measuring device for determining material caking on aem Drum shell (5) of the magnetic separator is in connection. 8. Device according to one of the preceding claims 5, 6 or 7, characterized in that the fan (8) has an intake port (10), in which is arranged via a drive (12) adjustable throttle member (11). 9. Device according to one of the preceding claims 5 nis 8, characterized characterized in that the drive (12) of the adjustable throttle member (11) via the Controller (14) with the temperature sensors (18, 19) in the drum shell (5) and / or with the measuring devices for determining the separation efficiency and / or the material caking communicates. 10. Device according to one aer voryehenuen claims 5 to 9, characterized characterized in that the tube (7) protruding into the drum shell (5) has bores (22) which are connected to cooling medium lines (23), the cooling medium lines (23) are arranged between the magnetic coils (6).