US2179304A

US2179304A - Closer for wire rope or stranding machines

Info

Publication number: US2179304A
Application number: US258614A
Authority: US
Inventors: William E Somerville
Original assignee: Individual
Current assignee: Individual
Priority date: 1939-02-27
Filing date: 1939-02-27
Publication date: 1939-11-07
Anticipated expiration: 1956-11-07

Description

Nov. 7,` 1939.

CLOSER FOR WIRE ROPE 0R STRANDING MACHINES Filed Feb. 27, 1939 4 Sheets-Sheet l w E. soMERvlLLE 2,179,304r

W. E. SOMERVILLE Nov.` 7, 1939.

cLosER FOR WIRE ROPE 0R STRANDING MACHINES 4 sheets-shed 2 Filed Feb. 27, 1939 Nov. 7, 1939.,

W E. SOMERVILLE CLOSER FOR WIRE ROPE 0R STRANDING MACHINES l Filed Feb. 27, 1939 4 Sheets-Sheet 3 l $155 I w Nov. 7, 1939. w E. SOMERVILLE CLOSER FOR WIRE ROPE 0R STRANDING MACHINES Filed Feb. 1939 4 Sheets-Sheet 4 Patented Nov. 7, 1939 ATENT lFi? `CLOSER FOR VVIRJE` ROPE 013. STRANDING MACHINES William E. Somerville, Coal City, lill.

Application February 27, 1939, Serial No. 258,614

5 Olaims.

This invention relates in general to Wire rope or stranding machines, and more particularly to the closing mechanism for closing and for causing the proper positionor the placing of the shaped strands in the finished rope orcable. i

In machines of this character it is customary to provide a closer embodying a carrier for the reels from which the strands are fed or paid out, and in order to indicate whether or not the machine is operating properly and the strands are being properly fed, signals commonly known or designated in the art or industry as iiags are employed, one being provided for each strand, the position of these iiagsr being controlled by the individual strands.

Should any of the strands get outof synchron nism, the signal or ag will indicate the same.

Heretofore, the operation of synchronizing the strands When they got out of synchronism was a tedious and time consuming operation as it was first necessary to stop the machine, release the clutch oi the particular cradle, and then rotate the cradle by hand until the strand was placed in the proper position with respect to the remaining strands.

It is one of the objects of the present invention to overcome these diiiiculties and objections and to provide improved means, preferably electrically controlled clutch mechanism, whereby the operator is enabled to render any one or more of the clutches inoperative and render it possible to connect the respective reel carrying cradle with a suitable auxiliary driving mechanism, preferably gearing suitably operated, to rotate the cradle either forwardly or backwardly to place the particular strand in the position it should be placed with respect to the other strands so that they will all be in synchronism.

This may be, readily accomplished by slowing down the machine, and the clutch mechanism may be controlled by push buttons, andwhile the machine continues in operation.

To the attainment of these ends and the accomplishment of other new and useful objects as will appear, the invention consists in the features of novelty in substantially the construction, combination and arrangement of the several parts, hereinafter more fully described and claimed and shown in the accompanying drawings illustrating this invention, and in which Figure 1 is a vertical, longitudinal sectional View of one end of a machine of this character constructed in accordance With the principles of this invention.

Figure 1 A is a view of the other end of the machine partly in vertical section and partly in Figure 8 is a top plan view partly in elevation,

partly in section, partly broken awayand with parts omitted showing one form of driving and clutch mechanism,

Figure 9 is a detail View partly in elevation, partly in section,`partly broken away, and with parts omitted, similar to Figure 7, of -a modiiied form of the invention.

Figure l() is a detail sectional View taken on line lEl Iil, Figure 9.

`Referring more `particularly to the drawings, the machine consists essentially of a base It mounted upon which are supports I6 and in the supports it are arranged rollers il to form a supporting cradle. Any number of these supports or cradles may be provided.

The frame of the machine may consist of a series of spiders or members lil, any number oi' which may be employed according to the size of the machine, and these spiders or members i8 are secured to a shaft i9 at spaced intervals throughout its length so as to rotate therewith, and the shaft may be supported at one end by means of a bearing 2li in an upright or standard ill mounted upon the base iii. The other end of the shaft may be supported by meansof bearings 22 mounted upon uprights 23.

Rotation is given to theshaft lil from any suitable source of power through the medium of a gear` wheel 23.

In the present form of' the invention three of the -members or spiders i8 are provided, and supported between` adjacent members It are a series of cradles 2d, any number of which may be provided, and these cradles are provided at their ends with trunnions 25-25 journaled in bearings 2l inthe respective members i8.

Rotatably supported by each of the cradles 2li is a Wire or strand carrying reel 28.

The trunnions 2li of the cradles 2d at one end of the machine are each provided with an ex- 5 tension 29 and rotatably mounted upon this extension to one side of the adjacent member i8 and for free rotation upon the extension is a gear 3Q, each of which meshes with a gear 3i, and these gears 3l in turn mesh with a gear 32 that is secured to a sleeve or bearing 33 forrotation therewith and which bearing or sleeve 33 encompasses the shaft i9. To the sleeve 33 and for rotation therewith is secured a drive gear 34 which may be of the worm type. Meshing with this gear 34 is a Worm 35 on a shaft 36 which latter receives its power from any suitable source. The gear 34 and worm 35 are preferably encased within the housing 3l which latter is preferably disposed adjacent the upright or standard 2l.

Thus when the gear 34 and the sleeve 33 are rotated and when the gears 35 are locked to the extension 29 of the trunnion 25, in a manner to be described, the cradles 24 will be given a rotary motion with respect to the members i8.

Locsely mounted upon the extension 29 of the trunnicns 25 and laterally spaced from the respective gears 3B is another gear 38 and is preferably of the sprocket type.

Rotatably supported by the sleeve 33 is another sleeve 39 provided with sprocket teeth 4i] and the teeth 4U together with the sprocket gears 3B are arranged in alinement, and a sprocket chain 4l (see particularly Figure 6) passes over all of the gears 38 and also around the gear or teeth 40 on the sleeve 39, so that when the sleeve 35 is rotated, all of the gears S8 will be correspondingly rotated. The gears 35 and 35 are respectively provided with clutch faces or teeth 491-43 and a clutch member '54 slidably mounted upon the extension is movable into and out of engage-- ment with relation to the clutch faces or teeth 42-43 to lock either of the gears Sil-38 for rotation with the extension shaft 29 and release the other of the gears with respect to such extension. This will cause the cradles 25 to be rotated in one direction or the other according to the direction of rotation of the gears Sil- 38.

Rotary motion is imparted to the sleeve 39 from any suitable source, Such as from a motor 45 which is of a reversible type so as to drive the sprocket chain in one direction or the other.

On the motor shaft 46 is secured a worm 4'! which meshes with a gear 48 over which a sprocket 49 passes, and the sprocket also passes over a sprocket or teeth' that are secured to the sleeve 39 for rotation therewith.

Thus by driving the motor 45 in a forward or backward direction, (by mechanism well known in this art and therefore not disclosed) the sprocket chain 4l will cause the gears 38 to rotate in the same, or in the opposite direction with respect to the direction of rotation of the gears 3B.

The clutch members 44 may be controlled in any desired or suitable manner such as by means of a lever 5i (see particularly Figure '7) pivotally mounted at one end, as at 52, and which lever is provided with a yoke 53 that encompasses the shaft extension 29 and is provided with lugs 54 that enter grooves in the clutch member 44.

Connected to the other end of the lever is an electroresponsive device designated generally by the reference numeral 55 and which electroresponsive device may be of any ordinary and well known construction, the core 55 of which has a pivotal connection as at 51 with the lever (see particularly Figure 8). A spring 58 connected at one end as at 59, to the lever and anchored at its other end, as at 50, to the member i8 serves as a means for moving the clutch member 44 in one direction, while the action of the electroresponsive device moves the clutch member 44 in the opposite direction and against the stress of the spring 58. These electroresponsive devices may be controlled in any desired or suitable manner. A simple and efficient manner embodies a series of push buttons El controlling switches in a box designated generally by the reference numeral G2 and preferably located at the opposite end of the machine.

Connectors 53 lead from the switch box to brushes or contacts 54 that co-operate with co1- lector or distributor rings 65 and leading from the latter are conductors designated generally by the reference numeral 65 which in turn are connected to the respective electroresponsive devices 55. Thus by operating one or the other of the push buttons iii the respective clutch device i4 may be controlled and the respective cradles 24 may be locked for rotation with either the gear 353 or the gear S8.

The forward cradles 24 are also controlled in their rotation in a similar manner and in order that the clutch devices for the forward cradles may be located in proximity to the clutch devices for controlling the rear cradles 261, the shafts or extensions l leading from the trunnions 25 of the foremost cradles extend through the adjacent member i8 and have connected therewith similar gears 33 and 38, similar clutch devices 44 and clutch faces l2-63 being provided for co-operation with the faces 542-43 and are operated and controlled in the same manner as the clutches fifi for the rearmost cradles 24 are controlled.

Thus it will be seen that by operating the desired push button 6 i one of which is provided for each of the cradles, any one or more of the cradles may be selectively connected to a predetermined driving mechanism.

The strands as they pass from the reels may pass over suitable guide pulleys GB and are brought together by passing through a suitable die 65 at the forward end of the machine.

A signal device shown more clearly in Figures l-A and 3 may be provided for indicating the operation of the respective strands and may comprise a member il) preferably in the form of a disc which encompasses and is secured to the shaft i9 for rotation therewith in any desired or suitable manner. Rotatably mounted upon this member l0 are bearings 'M which are provided with openings 'l2 therethrough that may be of any desired configuration and cross-section, preferably irregular to conform to the conguration of a strand i3.

Connected to each of these bearings l2 is a signal preferably in the form of a flag I4 that indicates the position of the bearing or the strand as it is passing through the machine. These ilags, as is usual in machines of this character indicate to the operator whether or not the strands are operating in synchronism, and by watching the signals the operator is enabled to determine whether any adjustment is necessary.

In the form of the invention shown in Figures 9 and l0 the cradles are provided with individual driving mechanism and for that purpose the sprocket gear 38 is dispensed with and in lieu thereof a gear 'i5 is secured to each of the extensions 29 and 5l of the respective cradles. These gears l5 are provided with clutch faces i6 which co-operate with clutch faces of the clutches 44.

In all other respects the operation of this form of the invention is the same as with the form of the invention shown in Figures 1 and 1--A.

The form shown in Figures 9 and 10, however, shows that the gears l5 are individually driven by individual motor devices 'Il supported by means of brackets 'i8 secured to one of the members or spiders I8.

The shaft of each of the motors TI carries a gear which meshes with a gear 'I8 secured to a shaft i9 and secured to each of the shafts 19 is a driving gear St that meshes with the respective gears l5. Therefore in order to impart rotation to the cradles by means of the gears l5, the clutch devices 44 are operated in a manner to render this gear 'l5 active with respect to the extension shafts 29 or 6l of the respective cradles.

The motors ll are adapted to be operated forwardly or backwardly, in a manner well known and therefore not illustrated, for causing the corresponding rotation of the gears 15.

With this improvement it will be manifest that the machine may be operated to synchronise the strands when they get out of synchronism and it is not necessary to stop the operation ofthe machine for that purpose. To accomplish this, the push buttons ti may be selectively actuated according to which strands are out of synchronism.

The operation of these buttons will disconnect the respective cradles with respect to the mechanisms that rotate them in one direction and cause them to be connected to another driving mechanism, which latter will rotate them in the opposite or in the same direction. The cradles remain operatively connected to the second driving mechanism until the strands are again placed in synchronism. This second or additional driving mechanism may be operated at any desired rate of speed, and therefore the readjustment or the synchronizing of the strands may be readily accomplished.

What I claim as new is:-

1. A closer for wire rope or stranding machines embodying a rotatable support, a plurality of reel carrying cradles mounted upon said support for rotation therewith and with respect thereto, a plurality of separate driving means individual to the cradles for rotating them separately with respect to said support in a forward or backward direction with respect to others of the cradles, means for selectively connecting the said driving means with the respective cradles to selectively rotate them in either direction, the second recited means embodying clutch devices individual to the said cradles, electroresponsive devices for controlling said clutches, and means for controlling said electroresponsive devices.

2. A closer for wire rope or strandng machines embodying a rotatable support, a plurality of reel carrying cradles mounted for normally floating movement upon said support and also for rotation therewith, a plurality of separate driving means individual to the cradles for rotating them separately with respect to said support, and means for selectively connecting the said driving means with the respective cradles for rotating them, one of the said driving means operating to rotate the said cradles with respect to the said support in a direction opposite to the direction of rotation of the cradle by the other of the said driving means.

3. A closer for wire rope or stranding machines embodying a rotatable support, a plurality of reel carrying cradles carried by the support for rotation therewith and normally for free floating movement respect thereto, a plurality of separate driving means individual to the cradles for rotating them separately with respect to the support in the same or opposite directions with respect to each other, means individual to the cradles but common to the said driving means for selectively rendering the driving means active with respect to predetermined cradles, the second recited means embodying clutch devices, and means for controlling the clutch devices.

4. A closer for wire rope or stranding machines embodying a rotatable support, a plurality of reel carrying cradles carried by the support for rotation therewith and normally for free rotation with respect thereto, a plurality of separate driving means for rotating them separately with respect to the support either in a forward or backward direction with respect to each other, means individual to the cradles but common to the said driving means for selectively rendering the driving means active with respect to predetermined cradles, the second recited means embodying clutch devices, electroresponsive means for controlling the said clutches, and means for controlling at will the said electroresponsive devices.

5. A closer for wire rope or stranding machines embodying a rotatable support, a plurality of reel carriers mounted upon said support in a normally floating condition with respect to the support, driving means individual to the reel carriers and also mounted upon said support, actuating means for operating the reel carriers, each of said driving means embodying mechanism for imparting a forward or backward rotation to the respective reel carriers, said driving means also embodying mechanism for selectively connecting the driving means to the said actuating means for imparting a predetermined direction of rotation to predetermined reel carriers with respect to the direction of rotation of others of said reel carriers, means for controlling at will the said connecting mechanism, the said connecting mechanism embodying clutch devices individual to the said reel carriers, and means individual to the clutch devices for controlling them.

WILLIAM E. SOMERVILLE.