US1824403A - Apparatus for demagnetizing magnetically conveyed material - Google Patents
Apparatus for demagnetizing magnetically conveyed material Download PDFInfo
- Publication number
- US1824403A US1824403A US460513A US46051330A US1824403A US 1824403 A US1824403 A US 1824403A US 460513 A US460513 A US 460513A US 46051330 A US46051330 A US 46051330A US 1824403 A US1824403 A US 1824403A
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- Prior art keywords
- demagnetizing
- magnetic
- coil
- current
- rollers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G39/00—Rollers, e.g. drive rollers, or arrangements thereof incorporated in roller-ways or other types of mechanical conveyors
- B65G39/02—Adaptations of individual rollers and supports therefor
- B65G39/08—Adaptations of individual rollers and supports therefor the rollers being magnetic
Definitions
- This invention relates to the art of han dling elongated magnetic material and is more particularly concerned with a method of and apparatus for Conveying and then demagnetizing magnetic articles by the use i of direct current.
- rollers of a conveyor for driving the conveyor rollers and also for energizing the demagnetizing means.
- I further contemplate converting such direct current into alternating current ofv low frequency, such as from a fraction of onecycle to about ten cycles. per second, byemploying a simple device that will reverse the direction of direct current flow through the demagnetizingv coil often enough to give the desired frequency.
- I employ resistances so disposed in the device as to be thrown into.
- I may use magnetic blowouts for a like purpose.
- FIG.1 is adiagrammatic plan view of a conveyor embodying myinvention I
- FIG. 2 is a fragmentary top plan view of a portion of the conveyor of Fig. showing one magnetic roller. .1
- Fig. 3 is a sectional view of the magnetic roller taken on line 3-3 of Fig. 2.
- Fig. 4 is a perspective view of one form of demagnetizing device.
- Fig. 5 is a diagrammatic view of a switch for use with the demagnetizing device.
- Fig. 6 shows diagrammatically the wave form of the current flowing in the demagnetizing device when used with the switch of Fig. 5.
- the conveyor A is composed of rollers and aprons with a demagnetizing device located at the discharging end. Certain of the rollers l ra are driven while others 1b are merely idlers.
- a magnetic rollers 2 are disposed at intervals along the conveyor. These rollers 2 are shown in detail in Figure 3 and serve the purpose of attracting the magnetic articles into close contact with the upper surface thereof, When the outer shell of the magnetic roller is driven as indicated herein the.
- the magnetic rollers 2 consist of an outer shell 3 which preferably is driven as by means of suitable gearing connected thereto and joined to a. motor 4 and a magnet disposed within the shell.
- the magnet consists of a hollow metallic member 5 generally rectangular in longitudinal crosssection with a central upstanding integral partition 6. This hollow member is supportedin any convenient, manner.
- the shell 3 Since the shell 3 is 0 non-magnetic material, the lines of force from the poles of the magnet pass into any'elongatedmagnetic metallic article, supported on the shell and attracts the article to the shell. Rotation of the shells 3 and driven rollers 1a propel the articles along the conveyor, the idlers 1- b and the aprons 9 maintaining the articles at approximately the levelof the top of the rollers. Some of the magnetism exerted by the-magnet on the article is retained by the latter and should be removed, not only from the surface but'from the inner portions of the article before certain subsequent operations are performed on the art cle, '1. e,, machining 1 operations.
- Means are provided, preferably at theend which alternating current is caused to flow and is disposed in proximity, for example, close to the underside of the metallic article being dischargedfrom the conveyor A.
- the coil 10 is disposed sufiiciently close to the magnetized articles so that the flux produced by alternating current flowing in the coil will penetrate the article to a sufficient dis tance beneath the surface to accomplish the desired purpose,
- suitable fluxdirecting apparatus may be employed in conjunction with the coil, as for example, steel bars 11 located on opposite sides thereof, but not between the coil and the magnetized articles.
- Alternating current of a frequency range of from a fraction of one cycle to about ten cycles is passed through the coil.
- I may use a .magneticf roller 2 as .the demagnetizing means, the Winding of the roller being supplied with current from the switching device, presently to be described. In such case the roller may be idleor driven.
- FIG. 5 Apparatus for accomplishing this latter and preferred operation is shown in Figure 5 in which 8a and'Sb indicate the leads from a source of direct current connected to semicircular conductors 13 carried by a circular member 12. Brushes 1 L are'carried by a circular, member 15 and are connected to collector rings 16 which are connected in sulated from each other as at 17. 136
- the switching device operates as follows The member 15 which carries the brushes 14 is rotated while the other member 12 is stationary. At the position shown for the brushes 14 and members 13a in Figure 5, current will flow in the direction indicated by the arrows 18 through the brushes and thence into the demagnetizing coil 10, Without any of the resistances 130 being included in the circuit. As the brushes rotate they progressively contact with members 13?) about the stationary member 12 and the'current progressively travels through the resistances which intervene between the respective members and the conductor members 13a and is cut down.
- a source of direct current connected to the coil and means in the circuit between the said source and the coil for reversing the direction of direct current flow in the coil. 7
- the current is reversed without arcing and all the resistances of each conductor are cut out of the circuit.
- the speed of relative rotation of the brush carrying member and conductor carrying member the number of reversals per second of the current flowing in the demagnetizing coil may be controlled and the low frequency desired for this invention may be obtained.
- the curve of current flow in the output terminals of the switching device is shown in Figure 6. By varying the number of resistances 130 or the relative position of such resistances the curve may be varied.
- a conveyor for magnetic metallic material including magnetic roller energized by direct current for supporting and conveying such material, a coil energized by alternating currentadjacent to the path of said material after it passes the magnetic roller, and means associated with said coil for converting direct current into alternating cur-u rent of low frequency for energizing said coil.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Rollers For Roller Conveyors For Transfer (AREA)
Description
Sept. 22, 193-1.
M OKEE 1,824,403
APPARATUS FOR DEMAGNETIZING MAGNETICALLY CONVEYED MATERIAL Filed June 11 1930 2 Sheets-Sheet 1 Max . zem
I Max;
dbkomqs Sept. 22, 1931 w. McKEE 1,824,403
APPARATUS FOR DEMAGNETIZING MAGNETICALLY CONVBYED MATERIAL Filed June 11, 1930 2 Sheets-Sheet 2 gwve'ntoz W Ill /5 NCAEE amt/15 Patented Sept. 22, 1931 UNITED STATES PATENT OFFICE.
.. WILLIS MoKEE, OF CLEVELAND, OHIO,ASSIGNOR TO THE CENTRAL UNITED NATIONAL BANK, A CORPORATION OF THE UNITED STATES APPARATUS FOR DEMAGNETIZING MAGNETIOALLY GONVEYED MATERIAL Application filed' June 11,
This invention relates to the art of han dling elongated magnetic material and is more particularly concerned with a method of and apparatus for Conveying and then demagnetizing magnetic articles by the use i of direct current. Y
In my co-pending application, Serial No. 47,490, filed August 1st, 1925, now Patent No. 1,774,392, issued Aug. 26, 1930, is disclosed a magnetic roller (that is a roller whose traction is increased by magnetism) which is especially adapted for use in conveying elongated magnetic material, such for example as steel bars. Inmy co-pending application Serial No. 220,111, .filed September 17, 1927, is disclosed a conveyor in which a plurality of idler rollers are.
employed. with one or more magnetic rollersto convey elongated magnetic articles, 201 and. in which the magnetic rollers are driven by motors therewithin. The present invention contemplates the use of apparatus such as those applications disclosetogether.
with other apparatus.
When magnetic rollers are used or when steel articles are brought within thefield of any other magnets energized bya nonreversing current there is some residual magnetism left in thesteel. In soft steel EOithlS is not enough to be objectionable but when steel of say 0.50 carbon isconveyed the residual magnetism is great andis quite objectionable especially when the material is to be machined without heat treating.
trate substantially as far as did the mag-' netizing lines. When a motor generator set is used to produce say cycle current In my conveyor, I incorporate notonly 1930. in m. 460,513.
cheap and novel method to produce the very low frequency current required for the demagnetizing coil.
In practicing my inventionI contemplate using direct current supply available in a steel mill for energizing the magnets. in
rollers of a conveyor, for driving the conveyor rollers and also for energizing the demagnetizing means. I further contemplate converting such direct current into alternating current ofv low frequency, such as from a fraction of onecycle to about ten cycles. per second, byemploying a simple device that will reverse the direction of direct current flow through the demagnetizingv coil often enough to give the desired frequency. Preferably I employ resistances so disposed in the device as to be thrown into.
the circuit during each'reversal to decrease arcing to a negligible amount, or alternate;- ly, I may use magnetic blowouts for a like purpose. I
Bymy invention the direct current ordi narily available in a steel-mill may-be utilized for all these purposes without any need for an alternating current source, a motorgenerator set or anyother expensive apparatus. Thus the invention makes available to many uses conveyors containing magnetic rollers and/or magnetic motor rollers and anticipates anyobjectiQnsas to current sources which might be met with in e2:- ploiting such conveyors. T
My invention will be more fully set forth I in the following detailed descriptionof one form of apparatus which embodies myinvention and with which '"my invention may 7 be practiced. This apparatus is shown in the drawings in which- Fig.1 is adiagrammatic plan view of a conveyor embodying myinvention I Fig. 2 is a fragmentary top plan view of a portion of the conveyor of Fig. showing one magnetic roller. .1
Fig. 3 is a sectional view of the magnetic roller taken on line 3-3 of Fig. 2.
Fig. 4 is a perspective view of one form of demagnetizing device.
Fig. 5 is a diagrammatic view of a switch for use with the demagnetizing device, and
Fig. 6 shows diagrammatically the wave form of the current flowing in the demagnetizing device when used with the switch of Fig. 5.
In the drawings, the conveyor A is composed of rollers and aprons with a demagnetizing device located at the discharging end. Certain of the rollers l ra are driven while others 1b are merely idlers.
At intervals along the conveyor A magnetic rollers 2 are disposed. These rollers 2 are shown in detail in Figure 3 and serve the purpose of attracting the magnetic articles into close contact with the upper surface thereof, When the outer shell of the magnetic roller is driven as indicated herein the.
magnetic attraction afforded by the magnet within the shell causes the articles on the shell to be attractedto, the shell with force suflicient to enable the shell to' propel the pieces at the same speed as the rollers and to overcome the resistance due to the idlers, m
' The magnetic rollers 2 consist of an outer shell 3 which preferably is driven as by means of suitable gearing connected thereto and joined to a. motor 4 and a magnet disposed within the shell. The magnet consists of a hollow metallic member 5 generally rectangular in longitudinal crosssection with a central upstanding integral partition 6. This hollow member is supportedin any convenient, manner. A coil otelectrical conductlng wlre 7 1s wound about partition 6 in the hollow member 5, the terminals being lead out therefrom and connected to leads 8a and 8b of .a suitable source of direct current, (not shown). When current passes through the coil the sides of the hollow member'5' act as one pole of the magnet while the partition 6 acts as the other pole of the magnet. Since the shell 3 is 0 non-magnetic material, the lines of force from the poles of the magnet pass into any'elongatedmagnetic metallic article, supported on the shell and attracts the article to the shell. Rotation of the shells 3 and driven rollers 1a propel the articles along the conveyor, the idlers 1- b and the aprons 9 maintaining the articles at approximately the levelof the top of the rollers. Some of the magnetism exerted by the-magnet on the article is retained by the latter and should be removed, not only from the surface but'from the inner portions of the article before certain subsequent operations are performed on the art cle, '1. e,, machining 1 operations.
Means are provided, preferably at theend which alternating current is caused to flow and is disposed in proximity, for example, close to the underside of the metallic article being dischargedfrom the conveyor A. The coil 10 is disposed sufiiciently close to the magnetized articles so that the flux produced by alternating current flowing in the coil will penetrate the article to a sufficient dis tance beneath the surface to accomplish the desired purpose, If desired, suitable fluxdirecting apparatus may be employed in conjunction with the coil, as for example, steel bars 11 located on opposite sides thereof, but not between the coil and the magnetized articles. Alternating current of a frequency range of from a fraction of one cycle to about ten cycles is passed through the coil. Alternately I may use a .magneticf roller 2 as .the demagnetizing means, the Winding of the roller being supplied with current from the switching device, presently to be described. In such case the roller may be idleor driven. r
Since the cost of equipment necessary to produce alternating current of this low frequency is quite high, I contemplate the use of inexpensive means for changing direct current into alternating current. To accomplish this, I contemplate employing a switching .device between the direct cur- 7 rent source and the alternating current coil 105 and either to employ therewith any suitable well known magnetic blow-out device to decrease the arcing incident to the switching or alternatively to throw resistance into the circuit before each reversal.
Apparatus for accomplishing this latter and preferred operation is shown in Figure 5 in which 8a and'Sb indicate the leads from a source of direct current connected to semicircular conductors 13 carried by a circular member 12. Brushes 1 L are'carried by a circular, member 15 and are connected to collector rings 16 which are connected in sulated from each other as at 17. 136
The switching device operates as follows The member 15 which carries the brushes 14 is rotated while the other member 12 is stationary. At the position shown for the brushes 14 and members 13a in Figure 5, current will flow in the direction indicated by the arrows 18 through the brushes and thence into the demagnetizing coil 10, Without any of the resistances 130 being included in the circuit. As the brushes rotate they progressively contact with members 13?) about the stationary member 12 and the'current progressively travels through the resistances which intervene between the respective members and the conductor members 13a and is cut down. When the brushes alternating current and disposed adjacent to the path of said material and beyond the last magnetic roller, a source of direct currentconnected to the coil and means in the circuit between the said source and the coil for reversing the direction of direct current flow in the coil. 7
In testimony whereof I hereunto afiix my signature this 9th day of June, 1930.
'WILLIS MoKEE.
pass from the ends of their respective conuctors across insulation 7 and onto the next conductor, the current is reversed without arcing and all the resistances of each conductor are cut out of the circuit. By suitably controlling the speed of relative rotation of the brush carrying member and conductor carrying member the number of reversals per second of the current flowing in the demagnetizing coil may be controlled and the low frequency desired for this invention may be obtained. The curve of current flow in the output terminals of the switching device is shown in Figure 6. By varying the number of resistances 130 or the relative position of such resistances the curve may be varied.
The operation of the switching device is substantially the same as just described when the brush carrying ring 15 is held stationary and the conductor carrying member 12 is rotated. V
Certain obvious changes in lead connections must be made from those shown when the member 12 is to rotate.
Having thus described my invention so that others skilled in the art may be able to understand and practice the same, what I I desire to define in the Letters Patent is defined in what is claimed, it being understood that various alterations and changes may be made in the detailed disclosure hereof within the scope of which is claimed.
What is claimed is- 1. A conveyor for magnetic metallic material including magnetic roller energized by direct current for supporting and conveying such material, a coil energized by alternating currentadjacent to the path of said material after it passes the magnetic roller, and means associated with said coil for converting direct current into alternating cur-u rent of low frequency for energizing said coil.
2. A conveyor for magnetic metallic ma-,
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US460513A US1824403A (en) | 1930-06-11 | 1930-06-11 | Apparatus for demagnetizing magnetically conveyed material |
Applications Claiming Priority (1)
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US460513A US1824403A (en) | 1930-06-11 | 1930-06-11 | Apparatus for demagnetizing magnetically conveyed material |
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US1824403A true US1824403A (en) | 1931-09-22 |
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US460513A Expired - Lifetime US1824403A (en) | 1930-06-11 | 1930-06-11 | Apparatus for demagnetizing magnetically conveyed material |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2805856A (en) * | 1953-06-26 | 1957-09-10 | Metal Box Co Ltd | Metal sheet feeding devices |
US2820632A (en) * | 1953-06-04 | 1958-01-21 | Fowler Alexander | De-magnetizer for magnetic feed system |
US3938654A (en) * | 1971-04-02 | 1976-02-17 | Karl M. Reich Maschinenfabrik | Method and machine for conveying and aligning rod-shaped fasteners |
-
1930
- 1930-06-11 US US460513A patent/US1824403A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2820632A (en) * | 1953-06-04 | 1958-01-21 | Fowler Alexander | De-magnetizer for magnetic feed system |
US2805856A (en) * | 1953-06-26 | 1957-09-10 | Metal Box Co Ltd | Metal sheet feeding devices |
US3938654A (en) * | 1971-04-02 | 1976-02-17 | Karl M. Reich Maschinenfabrik | Method and machine for conveying and aligning rod-shaped fasteners |
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