US1645794A

US1645794A - Vibrator for card doffers

Info

Publication number: US1645794A
Application number: US157150A
Authority: US
Inventors: Ralph W Bumstead; Robert S Robertson
Original assignee: HENRY J MONTY
Current assignee: HENRY J MONTY
Priority date: 1926-12-27
Filing date: 1926-12-27
Publication date: 1927-10-18
Anticipated expiration: 1944-10-18

Description

Oct. 1 19 R. w-. BUMSTEAD ET AL VIBRATOR FOR CARD DOFFERS Filed Dec. 27. 1926 F INVENTORS.

Ralph W. BumsTead By R. S. Roberfson WWi W ATTORNEYS.

Patented Oct. 18, 1927.

. UNITED sraras 1. 45.1 4 PATENT OFFICE.

RALPH W. BUMSTEAD, OI LOWELL, MASSACHUSETTS, AND ROBERT S. ROBERTSON, 0.? COVINGTON, TENNESSEE, ASSIGNORS OF ONE-THIRD TO HENRY J. MONTY, OII' LOWELL, MASSACHUSETTS.

vmna'ron roa can!) norrnns.

Application filed December 27, 1928. Serial No. 157,150.

This invention relates to cards such as are used in processing cotton, wool or other fibres, and particularly to the means for operating or vibrating the dofiing comb.

In the operation of a card the vibration of the dofling comb strips the fibres from the card clothing on the periphery of the cylinder, said fibres when stripped being formed into a web which is gathered up into 10 a strand called the sliver.

The dofling comb is carried by a rock shaft and the means now commonly employed for oscillating the rock shaft to give the dofling comb its vibrating movement is a yoke fixed to the rock shaft, and acted upon by a. rotating eccentric cam. The required vibration rate of the dofiing comb is usually in the neighborhood of thirty complete excurslons per second and it has been found necessary] 0 to submerge the cam and the yoke in a hatof oil to avoid excessive friction. This oil bath is generally enclosed in what is termed a comb box and difiiculty has always been experienced in confining the oil so that it would not work out vand stain the material in process. The cost of replenishing the oil has also been a considerable item.

It is one of the objects of the present invention to provide an improvedmechanism for operating the dofiing comb which is free from the objectionable features inherent in the known mechanism above described.

In accordance with the present invention the oscillatory movement of the rock shaft and the consequent vibratory movement of the dofling comb is secured by electromagnetic means thus enabling the yoke and cam and comb box to be entirely dispensed with.

In the illustrated embodiment ofthe invention such electromagnetic means comprises a direct current magnet and an alternating current magnet, one of which is connected tothe rock .Shaft, said magnets being so associated that the reaction between them 'will maintain a continual oscillation of the magnet attached to the rock shaft and thus the vibratory movement of the dofier.

invention we have illustrated in the drawings a selected embodiment thereof which will now be described after which the novel features will be pointed out in the appended claims.

In the drawings: 7

Fig. 1 1s a fragmentary perspective view of the front of the card stripped of certain parts which have no connection with the present invention; I

Fig. 2 shows an end elevation of the means for vibrating the doffing comb.

We shall now describe in detail the construction of the dofling comb, which of itself is not novel, and of the vibrator therefor which forms the subject of the present invention.

The dofiing comb is indicated at 1 and is of the usual construction. It consists of a strip of metal, one edge of which is formed 1nto sharp teeth for catching the fibres to strip them away from the card clothing on the cylinder 6. The comb is carried by the usual supporting arms 2 which are rigid with a rock shaft 3, the latter being journalled in suitable bearings 5 and 7. The end portions 4 of the rock shaft which are journalled in the bearings are made eccentric to the body of the shaft itself in order that the center of oscillation and the centerof gravity may coincide. all as usual in dofiing comb construction. The amplitude of oscillation of the comb 1 is indicated by the full and dotted lines in Fig. 2 and in said Fig. 2 the periphery of the card clothing or the outer extremity of the wires therein is indicated by the dot and dash lines 6.

The parts thus far described are or may be all as usual in cards and form no part of the present invention which relates to the means for oscillating the shaft 4 to give the dofiing comb its vibrating movement.

In accordance with the present invention such oscillation of the shaft is derived from the co-operation of two electromagnetic elements, one of which operates with a direct current and the other of which operates with a regularly varying current such for instance as an alternating current. One of these magnetic elements is attached to the rock shaft 3 as indicated at 14, this element 105 having a pole piece 10. The other electromagnetic element is stationarily mounted and has the two

windings

13 and 15 and the two pole pieces 8 and 9. These electroma netic elements are so arranged that the po e piece 10 is situated between and is adapted to vibrate between the pole pieces 8 and 9. The construction of the stationarily mounted electromagnetic element is such that the frame 5 forms the cores for the

windings

13 and 15 and this element is supported on a non-ferrous block 11 which in turn 15 secured to the card frame 21 by means of suitable bolts 12.

The electromagnetic element 14 may be secured to the rock shaft 3 in any approved way. As herein shown the core 26 thereof is provided with the enlarged portion 27 which is bored to receive one end 4 of the rock shaft 3, said core being keyed to the rock shaft by the key 25. One of these electromagnetic elements is excited by a direct current and the other by an alternating current. The direct currentelement will obviously have poles of fixed polarity while the polarity of the alternating current element will change with the oscillations of the current.

Owing to the relation between the electromagnetic elements the change in polarlty of the portions ofthe alternating current element will cause the pole piece 10 to be attracted first to the pole piece 9 and then to the pole piece 8 thus causing an oscillation of the shaft 3 and a vibration of the doifer comb. I

In one of the arrangements of the magnets it has been found possible to obtain the desired oscillation by introducing a direct current into the magnet 14 and an alternating current into the

windings

13 and 15. The leads of the magnet windings are so connected that the ole piece 10 may be continuously of north -polarization while the pole pieces 8 and 9 are caused to reverse thelr polarity with each semi-cycle of the alternating current, the pole 8 always being of opposlte polarity to that of pole 9. It is evident that the magnetizing reaction of these currents will be an attraction of the pole 10 toward the pole 8 when the latter has south polarity, and with the next semic cle of the alternating current the attraction will be toward the pole piece 9 which then takes on south polarity. Thus, with the polarity of the pole pieces 8 and 9 continually changing and the polarity of the pole iece 10 fixed, an oscillation is maintaine of the same frequency as that of the alternating current. If the alternating current is derived from a 30-cycle generator, then the frequency of the oscillations will be consistent with common practice in respect to the vibrating of the dofi'er comb mechanically.

As an alternative arrangement of the magnets, it is equally possible to obtain the desired oscillation by use of an alternating current in the winding 14 and a direct current in the

windings

13 and 15. In this case, the pole pieces 8 and 9 would be of fixed but opposite polarity, while the pole piece 10 would change polarity with each reversal of the alternating current. The pole 10 would then be attracted toward the poles 8 and 9 alternately according to its own attraction for a pole opposite to itself.

It will be understood, of course, that which ever arrangement is employed the core of the alternating current magnet will have a laminated structure as is the usual practice. In case the core of the magnet 14. has a laminated structure these laminations may be held together at their upper end by a stud or rivet indicated at 24.

It IS a well known fact that magnetic lines of force are very much reduced in density by increasin the air gap between the pole pieces an the armature of a magnet. Bearmg this in mind the

pole ieces

8, 9 and 10 have been specially shape to provide at all times a minimum air gap between them. The pole pieces 8 and 9 are formed with the inclined faces 28, 29 and the pole piece 10 has the two inclined faces 30, 31, these several faces being so arranged that when the magnets are in the relative position shown in Flg. 1 the faces 29, 31 are in enga ment while when the magnet 14 swings to t e left Fig. 2 the faces 28 and 30 will be in en agement. Owing to the inclination 'of the aces, however, there is a relatively small air ap between any two pole pieces even when t ey are separated to their greatest extent.

While the air gap has been minimized as far as possible as between the pole pieces 10 and either of the poles 8 or 9, the power consumption necessary to maintain a continuous oscillation of the comb can be reduced in another way, namely by the application of springs to assist in starting the stroke and to make up for the loss of efficiency of the magnets at the time the air gap is greatest.

There are two springs 19 which are provided for this purpose. They are coiled about plungers 18 which are supported in housings 16, the springs at one end bearing against the screw caps 17 of the housings and at the other end bearing against collars 20 on the plungers. The core of the ma et 14 is provided with an extension 23 whic is shown as enclosed by a saddle 22, said saddle being situated between the inner ends of the plungers 18. These plungers 18 thus constitute suitable bumpers or cushion devices for the oscillating rock shaft and during the final movement of the rock shaft in either direction one of the springs is com.-

pressed. The energy thus stored up in the spring reacts to reverse the direction of motion of the oscillating unit at the time when the polarity of the magnet is changed by the alternating current.

The construction above described is simple and comprises a minimum ofmechamcal parts and may be operated with extreme accuracy.

\Ve claim:

1. The combination with the dofier comb of a card and the rock shaft on which it is mounted, of two electromagnetic elements, one of which is carried by the rock shaft, one of said elements being a direct current element and the other arranged to operate with a regularly varying current, and said elements being so coordinated that the reaction between them will maintain a continuous 0scillation of the element carried by the rock shaft.

2. In a device of the class described, the combination with a dofler comb of a card and a rock shaft on which it is mounted, of a stationarily mounted electromagnetic element, a second electromagnetic element carried by the rock shaft, one of said elements being a directcurrent element and the other an alternating current element and said elements bein so co-ordinated that the reaction between t em maintains a continuous vibration of the comb at the same frequency as that of the alternating current use 3. In a device of the class described, the combination with a doffer comb of a card and a rock shaft on which it is mounted, of a stationarily mounted electromagnetic element, a second electromagnetic element carried by the rock shaft, one of said elements being a direct current element and the other an alternating current element and said elc ments being so co-ordinated that the reaction between them maintains a continuous vibration of the comb at the same frequency as that of the alternating current used, and springs by which the initial movement of the rock shaft in each direction is accelerated.

In testimony whereof we have signed our names to this specification.

RALPH W. BUMSTEAI). ROBERT S. ROBERTSON.