US3206049A - Turnover cradle - Google Patents

Description

Sept. 14, 1965 L. M. LAlNG ETAL TURNOVER CRADLE 4 Sheets-Sheet l Filed March 26, 1963 `J nventorf VINIIIPIIIIIIlcIrUHwIIH/l blu.. .U

-LRLLLLL Gttorneg Sept. i4, 1965 l.. M. LAING ETAL TURNOVER CRADLE 4 Sheets-Sheet 2 Filed March 26, 1963 lrmentors 5575,? M f1/N@ Bg M40/wif 7. @U55 5. JMW

(Ittorneg L.. M. LAING ETAL1 Sept 14, 1965 TURNOVER CRADLE 4 Sheets-Sheet 3 Filed March 26, 1963 Bnventors w M um L7. M @j mw MM kXNN Gttomeg Sept. 14, 1965 L.M.LA1NG ETAL.

TURNOVER CRADLE 4 Sheets-Sheet 4 Filed March 26, 1965 United States Patent O 3,206,049 TURNQVER CRADLE Lester M. Laing, North Hollywood, and Maurice T. Dub, Glendale, Calif., assignors to La Dean Mfg. Co., Los Angeles, Calif., a corporation of California Filed Mar. 26, 1963, Ser. No. 268,187 8 Claims. (Cl. 214-130) This invention relates to a turnover cradle for changing the position of heavy articles, particularly heavy coils of strip steel and similar cylindrical articles.

An object of the invention is to provide a turnover cradle that will change such cylindrical articles from a at position to a position supported on its cylindrical surface, or vice versa, in a smooth, non-jarring operation, thereby avoiding nicking of the edges or otherwise marring the same during such change of position. Such coils of strip stock are frequently forty-two or more inches wide and are made up at the strip mills in coils five feet or more in diameter weighing twenty-live or more tons. Even a small uncontrolled shift of such a weight when transferring the same from one support wall of a cradle to a support wall normal thereto to change the position of the coil, as above referred to, may result not only in the mentioned damage to the coil, if the same strikes the latter wall, but will damage said wall also and, perhaps, operating components of the machine.

Another object of the invention is to provide a turnover cradle that gently, and under full control, allows a coil of metal on one support wall of the cradle to shift into contact with the wall normal thereto, thereby achieving support contact with said wall upon the same reaching its turned-over position.

A further object of the invention is to provide a turnover cradle of the character above referred to that automatically locks carriage means on which the coil is supported before cradle turnover, after the coil has shifted to engage the wall of the cradle that is normal to the wall mounting the carriage, thereby preventing said carriage from striking said normal wall.

This invention `also has for its objects to provide such means that are positive in operation, convenient in use, easily installed in a working position and easily disconnected therefrom, economical of manufacture, relatively simple, and of general superiority and serviceability.

The invention also comprises novel details of construction `and novel combinations and arrangements of parts, which will more fully appear in the course of the following description and which is based on the accompanying drawings. However, said drawings merely show, and the following description merely describes, one embodiment of the present invention, which is given by way of illustration or example only.

In the drawings, like reference characters designate similar parts in the several views.

FIG. 1 is a partly broken side elevational view of a machine embodying a turnover cradle provided With the present improvements, the cradle being shown with its support wall in normal support position for receiving a heavy article on a carriage that constitutes said support wall.

FIG. 2 is a similar view with the near side wall of the machine removed and with the cradle in the process of being turned and with the carriage and load thereon partly shifted toward the load-receiving wall of the cradle under control of the present improvements.

FIG. 3 is a view similar to FIG. 2, showing the cradle in turned-over position with the load supported on the load-receiving wall of the cradle, and showing the manner of locking the carriage in spaced relation to the latter wall.

FIG. 4 is a broken front elevational view of approximately one-half of the machine, as in the position of FIG. l, the line CL representing the center line between the right side of the machine, that is shown, and the left side, that is omitted since the same is the same but opposite to the right side.

FIG. 5 is a similarly broken sectional view, as taken on the line 5-5 of FIG. 1.

The present improvements are based on a machine having a base in which is provided a plurality ofsupport rollers 11 on each side for supporting acradle 12 by engaging thearcuate edges 13 of theside walls 14 of said cradle. In this case, therollers 11 are supported from theside walls 15 of the base 10, as ontrunnions 16, by means of plates 17 pivoted on said trunnions, and linkarms 18, that connect said rollers in pairs and are carried by said plates 17 onpivot pins 19. The foregoing, per se, forms no part of the present invention and is intended only to set a preferred environment and mode of support of thecradle 12 so the same may be rocked on the center of curvature ofedge 13 through 90 of movement. The means for so rocking the cradle is not shown, the motor, at 2t), representing such means, which also is well-known. In this connection, reference is made to Patent No. 3,035,715, dated May 22, 1962, the same, among other things, showing a 90 reversing drive for the cradle.

The present improvements comprise,'generally, rotational means, such as a set of in-line rollers 21 spanning transversely between theside Walls 14 of the cradle, awall 22, also spanning between saidcradle walls 14 and disposed normal to the plane common to said rollers, acarriage 23 mounted on said rollers and movable thereon toward and fromsaid wall 22 of the cradle and constituting a movable support for a coil orcoils 24 or other similarly shaped load, a coil-centeringsupport 25 on thesupport wall 22, means 26 to control movement of thecarriage 23 and itsload 24 during rocking movement of the cradle from a position With the carriage horizontal to an angular position wherein the carriage will move on therollers 21 in a direction toward theWall 22 of the cradle, and means 27, elfective after theload 24 on the carriage has achieved gentle contact withsaid wall 22 and is in nesting or centering position with respect to thesupport 25 on said wall, to lock saidcarriage 23 against further movement toward the wall as the rocking movement of the cradle proceeds to the end of the movement thereof.

Each of therollers 21 is provided withend trunnions 30 that have bearing in thecradle walls 14, the same also extending through notches provided inguide angles 31 that are aiiixed to the outer faces ofcradle walls 14 and form retaining guides for thecarriage 23. At the front of the machine, a pair of transversely spacedbars 32 is affixed to the ends of saidangles 31 to constitute a position-limiting stop for the carriage.

Thewall 22 simply comprises a suitably thick metal sheet which may be reinforced as necessary to keep the safe flat under load.

Thecarriage 23 is shown as comprising abase Wall 33 that rests upon therollers 21, a plurality oflongitudinal cleats 34 aixed to the top of said base wall and constituting the members upon which aload 24 is supported, arear bar 35 preferably lower in height than thecleats 34, and retainingangles 36 axed to the outer edges of thebase wall 33 and extending downwardly into retention engagement with theguide angles 31, as best shown in FIG. 4. It will be clear that said carriage may move between thecradle wall 22 and thestop bars 32 but cannot be displaced in a direction away from the rollers except to a limited degree as permitted by the overlapped flanges of theangles 31 and 36 on each side of the machine.

Since thecleats 34 support acoil 24 in spaced relation to thebase wall 33, it is a simple matter to deposit a coil on said cleats by means of the forks of a fork-lift truck or other overhead means. FIGS. 4 and 5 show vthe spaces provided between the cleats for accommodating the forks.

The support on thewall 22 is here shown las a pair of similar but oppositelyangled support walls 37, one on each side of the center line CL, each being braced by a plurality ofbrace walls 38 from abase wall 39 that is placed iiat upon thewall 22. Said twoWalls 37 define fa blunt and shallow V into which the cylindrical face of a coil may tit, as best shown in FIG. 3.

It will be understood that thecarriage 23 may be provided with the V-support and thewall 22 with thecleats 34. In such case, thecoil 24 would be deposited on the carriage standing on its cylindrical side. It Will be clear that the present means operates in exactly the same way, whether turning a coil from a flat position to an on-end position or vice versa. In the latter case, the cleats onwall 22 may be replaced by a pallet. In either case, the forks of a fork-lift truck may be used to lift the repositioned load.

Themeans 26 comprises, generally, a pair of roller means at each rearward corner of the carriage, acontrol lever 41 on atrunnion 42 mounted on the inner side of eachside wall 15 of the base 10, afixed cam 43 on the outer face of eachside wall 14 of thecradle 12, and aspring bias 44 to resiliently retract the control lever against a stop pin 45.

Each roller means 40 is shown as abracket 46 on the side of the carriage laterally outward from thecradle wall 14, as clearly seen in FIG. 5, and aroller 47 on eachbracket 46, the axes of ythe rollers being aligned and parallel to the axes of therollers 21. It will be clear that saidrollers 47 are laterally spaced from the cradle sides.

Eachcontrol lever 41 is provided with anarm 48 with aseat 49 in the end thereof into which theroller 47, on that side nests, as may be seen in FIG. l. Saidlever arm 48 is provided with a weightedportion 50 that insures retraction of thelever 41 in the event of failure of thespring bias 44, or the bias may be omitted, if desired. Alcam larm 51 extends substantially normal to thearm 48 of eachlever 41 and in a forward direction, a cam roller orfollower 52 being provided on ktheend ofarm 51.

Thecam 43 comprises a slightly relieved'face 53 e11- gaged by theroller 52 and which may be arcuate on the center of rocking of the cradle, said face 53y being so located on the cradle that the same, for its entire length, holdsroller 52 and, therefore, thelever 41 stationary as rocking movement of the cradle is instituted in the direction indicated by thearrow 54 of FIG. 2. Thus, during the iirst three to iive degrees of rocking movement of the cradle, theseat 49 of the control lever does not move, allowing thecarriage 23 to settle thereagainst. As

the cradle continues its movement, the end of cam 53' with the load thereof, being gravitationally biased against thelever arms 41, moves down onrollers 21 toward thesupport wall 22 and the support means 25 thereon.

Aheavy load 24 on the carriage, due to the friction thereof with thecleats 34, will have no tendency to shift relative to the carriage until an angle approximating 18"` of the carriage relative to the horizontal is reached. This angle may vary according to the coecient of friction. However, since the rollers 21may be mounted in anti-friction bearings, the same, even when heavily weighted, willroll, after the initial inertia to rotation is overcome. Since such' inertia is overcome within the first 5 of movement `of the cradle, thecam face 55 is designed to retain contact with theroller 52 until after the carriage has moved from its fully retracted position against thestop bars 32 to a position where the coil achieves contact with the support means 25 on thecradle Wall 22. So that such contact of coil and support may be had, the coil is placed on the carriage with its rear portion overhanging the rear of the carriage, as in FIGS. l and 2.

At any time after the coil has been so gently brought into contact with the support means 25, thecam roller 52 may lose engagement with thecam face 55, as the turning movement of the cradle continues.

The locking means 27, on each side of the machine, comprises agravity pawl 56 pivotally mounted on abracket 57, aflixed to the side ofcarriage 23, and provided with adog point 58. Said pawl has a Weightedportion 59 that, when hanging pendent, holds thepoint 58 of the pawl in a horizontal, rearwardly directed position, as shown in both FIGS. l and 2. Said locking means 27 further includes a set of ratchet teethl 60 provided on the under face of one of theguide angles 31 and vertically aligned with the pawl, as may be seen in FIG. 4.

With the cradle in the normal starting position of FIG. l, thepawll point 58 is considerably spaced from said ratchet teeth and, as the cr-adle rocks, as described, gravity holds theweighted portion 59 of the pawl pendent and the pawl points horizontal, thus bringing the ratchet teeth 6i) nearer to said point, as in FIG. 2. From the latter iigure, it will be clear that continued movement of the cradle in the direction of thearrow 54 Will cause the ratchet teeth to catch up to the pawl point which will engage one of said teeth to prevent thecarriage 23 from continuing the movement that brought the coil into position on thesupport 25. This locking of the carriage to the cradle occurs long before the latter reaches the full turnover position of FIG. 3, but is retained not only when the cradle reaches the latter position but even after the cradle is returned to about the position of FIG. 2.

It will be realized that the weight of the carriage, when the pawl locks the same, will cause thedog point 58 to wedge tightly `against the tooth with which it is engaged. As a consequence, thepawl 56 will remain in its locking position, as in FIG. 3, so long as the weight of the carriagey is effective to place a load on said point. The lock is released only after thecontrol lever 41 is re-rocked from the fully retracted position against the stop 45 to which thespring bias 44 moved said lever. Theffull-line position of FIG. 3 showslever 41 in such fully retracted position, wherein thecam roller 52 is disposediin the path of' return movement of thecam face 55 so said face and theface 53 of thecam re-rock lever 41 back to v its origin-al operating position shown in FIG. 1. In s o doing, thearmv48A oflever 41 moves into pushing engagement with the roller means, thereby pushing thecarriage 23 toward the stop bars 32 and releasing thepawl 56 from its wedged engagement with the ratchet tooth 60. The pawl now falls gravitationally to a pendent position and, `when the cradle stops its return movement as limited by the engagement of the stop brackets 61y with thebase walls 15, the carriage is in the position of FIG. 1 and ready to receive anothercoil 24. It will be understood'that stops similarl to stop brackets 61 are providedwto ylimit the position of the cradle, as in FIG. 3.

While the foregoing has illustrated .and described what is now contemplated to be the best mode of carrying out the invention, the construction is, of course, subject to modiiication without departing from the spirit and scope of the invention. Therefore, it is not desired to restrict the invention to the particular form of construction illustrated and described, but to lcover all modiiications that may fall within the scope of the lappended claims.

Having thus described this invention, what is claimed and desired to be secured by Letters Patent is:

1. A turnover cradle comprising (a) a support wall,

(b) rotational means arranged in a common plane that is normal to said wall,

(c) a support carriage on and movable on said rotational means toward and from the mentioned support wall,

(d) means to control the movement of the carriage and an article thereon in the direction toward the support Wall to ease the force of contact of the article with said wall during transfer of said article from the carriage to the wall during a 90-turnover movement of the cradle, and

(e) means to lock the carriage to the cradle after the article has made contact with the support wall and before the carriage has engaged said wall.

2. A turnover cradle `according to claim 1 in which 'the latter means comprises a set of ratchet teeth xedly provided on the cradle and a gravity pawl carried by the carriage and provided with a dog point that engages one of said ratchet teeth when the cradle has been turned to an angle that brings .said tooth into locking contact with the dog point as the pawl hangs gravitationally pendent.

3. A turnover cradle comprising (a) asupportwall,

(b) rotational means arranged in a common plane that is normal lto said Wall,

(c) a support carriage on and movable on said rotational means toward tand from the mentioned support wall,

(d) means to control the movement of the carriage and an article thereon in the direction toward the support wall to ease the force of contact of the article with said wall during transfer of said article from the carriage to the wall during a 90-turnover movement of the cradle.

(e) a locking lever pivotally carried by the cradle,

said lever having one arm disposed in movementlimiting engagement with the carriage, and a second arm provided with a cam follower, and

(f) a cam .affixed to the cradle and engaged with the cam follower to control retractive rocking movement of the lever and said movement-limiting arm during a 90-turnover movement of the cradle to effect -controlled contact of an article on said carriage with the support wall.

4. A turnover cradle comprising (a) a support wall,

(b) rotational means arranged in a common plane that is normal to said wall,

(c) a support carriage on and movable on said rotational means toward and from the mentioned support wall,

(d) means to control the movement of the carriage and an article thereon in the direction toward the support wall to ease the force of Contact of the article with said wall during transfer of said article from the carriage to the wall during a 90-turnover movement of the cradle,

(e) a locking lever pivotally carried by the cradle,

said lever having one arm disposed in movementlimiting engagement with the carriage, and a second arm provided with a cam follower,

(f) a cam affixed to the cradle and engaged with the cam follower to control retnactive rocking movement of the lever and said movement-limiting arm during a -turnover movement of the cradle to effect controlled contact of an article on said carriage with the support wall, and

(g) means to lock the carriage to the cradle after the article has made contact with the support wall :and before the carriage has engaged said wall.

S. A turnover cradle according to claim 3 provided with a retraction-limiting stop for said control lever to leave the cam follower thereof in the path of return movement of the cam upon reverse turnover movement of the cradle, sai-d cam thereby moving said lever to effect re-engagement with the carriage of said one arm of the lever.

6. A turnover cradle according to claim 4 provided with a retraction-limiting stop for said control lever to leave the cam follower thereof in the path of return movement of the cam upon reverse turnover movement of the cradle, said cam thereby moving said lever to effect re-engagement with the carriage -of said one arm of the lever, said re-engagement of the control lever and carriage releasing the gravity pawl to unlock the carriage from the cradle.

7. A turnover cradle 'according to :claim 3 provided with a retraction-limiting stop for said control lever to leave the cam follower thereof in the path of return movement of the cam upon reverse turnover movement of the cradle, said cam, as the same nears its original position, moving said lever back toward the position thereof in which the mentioned one lever arm is in its original movement-limiting position to thereby effect re-engagement with the carriage of the latter lever arm when the cradle reaches its original position.

8. A turnover cradle according to claim 4 provided with a retraction-limiting stop for said control lever to leave the cam follower thereof in the path of return movement of the cam upon reverse turnover movement of the cradle, said cam, as the same nears its original position, moving said lever back toward the position thereof in which the mentioned one lever arm is in its original movement-limiting position to thereby effect re-engagement with the carri-age of the latter lever arm when the cradle reaches its original position, said re-engagement of the control lever and carriage releasing the gravity pawl to unlock the carriage from the cradle.

References Cited by the Examiner UNITED STATES PATENTS 1,745,381 2/30 Ray 214-130 1,967,683 7/34 Ostrander 214-13() 2,567,819 9/51 Matterson 214-1 HUGO O. SCHULZ, Primary Examiner.

Claims (1)

1. A TURNOVER CRADLE COMPRISING (A) A SUPPORT WALL, (B) ROTATIONAL MEANS ARRANGED IN A COMMON PLANE THAT IS NORMAL TO SAID WALL, (C) A SUPPORT CARRIAGE ON AND MOVABLE ON SAID ROTATIONAL MEANS TOWARD AND FROM THE MENTIONED SUPPORT WALL, (D) MEANS TO CONTROL THE MOVEMENT OF THE CARRIAGE AND AN ARTICLE THEREON IN THE DIRECTION TOWARD THE SUPPORT WALL TO EASE THE FORCE OF CNTACT OF THE ARTICLE WITH SAID WALL DURING TRANSFER OF SAID ARTICLER FROM THE CARRIAGE TO THE WALL DURING A 90* -TURNOVER MOVEMENT OF THE CRADLE, AND (E) MEANS TO LOCK THE CARRIAGE TO THE CRADLE AFTER THE ARTICLE HAS MADE CONTACT WITH THE SUPPORT WALL AND BEFORE THE CARRIAGE HAS ENGAGED SAID WALL.

Images