US2643009A

US2643009A - Device for loading sheets or plates onto conveyers

Info

Publication number: US2643009A
Application number: US97042A
Authority: US
Inventors: Kenyon John Warner
Original assignee: Armco Inc
Current assignee: Armco Inc
Priority date: 1949-06-03
Filing date: 1949-06-03
Publication date: 1953-06-23
Anticipated expiration: 1970-06-23

Description

June 23, 1953 J. w. KENYON 2,643,009

DEVICE OR LOADING SHEETS 0R PLATES ONTO CONVEYERS Filed June a, 1949 2 S h'ets-Sheet 1 June 23, 1953 J. w. KENYQN DEVICE'F'OR'LOADING SHEETS OR PLATES ONTO CONVEYERS Filed June 5, 1949 2 Sheets-Sheet 2 W s R H m M m wk 0 V w T mWw n Patented June 23, 1953 DEVICE LOADING SHEETS OR PLATES ONTO CONVEYERS John Warner Kenyon,

Armco Steel Corpora corporation of Ohio Ashland, Ky., assignor to tion, Middletown, Ohio, a

Application June 3, 1949, Serial No. 97,042

16 Claims. 1

This invention relates to a device for loading heavy sheets, plates and the like onto a conveyor. It finds particular usefulness in connection with the so-called shear line in steel mills or the like. By way of example a shear line may comprise a conveyor upon which the sheets are placed and which feeds them successively to a roller leveler and to one or more of a breakdown shear, a side shear, a double end cut shear, a multiple shear gauge, a reject table and a piling machine. Where relatively light or thin sheets are being handled, the problem of removing them from a stack onto a conveyor to start them into the shear line is not a great problem. But when heavy sheets or plates are being handled the problem becomes very much more diih'cult. From about 16 gauge on up and with plates varying in length from 80 inches to 300 inches, and in width from 30 inches to 60 inches, it often transpires that a pile of plates or sheets may comprise individual plates weighing as much as one thousand pounds.

It has been the practice to employ unskilled labor to lift the individual heavy sheets or plates from a pile on a loading table or the like on to the traveling conveyor which conducts the sheets or plates to one or more of the apparatuses in the shear line.

In most steel plants a loading table is provided on each side of the conveyor and sheets or plates may be loaded alternately from one side or the other, and in the past it has been found to necessitate the services of two or more men to handle the plates on each side of the conveyor. This workis dangerous to personnel and is very difiicult and tiring work.

In the co-pending application of Willard M. Corbitt and Elmer C. Wenning, Serial'No. 19,536, filed April 6, 1948, and now abandoned, there is disclosed and claimed an organization intended to overcome the difficulties and problem discussedabove. The device of said ,co-pending ap-'- plication has proved successful and has greatly reduced the efforts required on the part of the workmen.

It is an object ofthe present invention to provide an improved device for loading sheets or platesfrom a pack stand onto a conveyor. It is another object of this invention to provide an arrangement whereby the relationship between the sheet to be fed and the tapered feed roll "remains the same regardless of the number of sheets or plates remaining upon the stand.

It is yet another object of the invention to provide-a device as outlined above wherein the sheets are held in an inclined position to further facilitate their feeding onto the conveyor.

Yet another object of the invention resides in the provision of an arrangement whereby the relationship between the pack stand and the tapered feed roll remains constant, whereas the distance of the feed roll and pack stand from the conveyor may be varied to suit sheets or plates of diiferent widths.

Still another object of the present invention resides in the provision of side guides movable with the tapered feed roll, so that when a change from one size of sheet or plate to another is to be made, a single adjustment only is necessary.

These and other objects of the invention which I shall describe in more detail hereinafter, or which will become apparent as the description proceeds, I accomplish by that certain construction and arrangement of parts of which I shall now describe an exemplary embodiment.

Reference is made to the drawings wherein:

Figure 1 is a plan View of an exemplary organization;

Figure 2 is an elevational View of the same; and

Figure 3 is a cross-sectional view taken on the line 33 of Figure 2 on an enlarged scale.

Briefly, in the practice of my invention I provide in combination with a conveyor, a movable support on each side thereof, each movable support carrying a mounting for a tapered feed roll and means for driving the feed roll and a pack stand. The movable supports are arranged for movement concurrently in opposite directions so that the respective tapered rolls and pack stands are always symmetrically disposed with relation to the conveyor axis. The pack stands according to the present invention are disposed at an angle .so that the sheets or plates on the pack stand slope toward the conveyor thereby facilitating their removal and loading onto the conveyor. In addition, pneumatic pullers, as disclosed in said co-pending application, may be used to feed the plates from the pack stands to the conveyor.

This device as disclosed herein is useful for the feeding of either sheets or plates and it will be understood that I am using the terms herein interchangeably.

Referring now in more detail to the drawings, I have shown a conveyor framework generally at IU upon which a belt conveyor runs, the upper flight of the belt conveyor being indicated at H and the lower flight at I2. The conveyor belt passes over rolls [3 and I4 as is conventional and a suitable motor and speed reducer is pro- 3 vided as generally indicated at l5 for driving the conveyor.

The framework includes pairs of rails extending at right angles to the path of movement of the conveyor. These rails are indicated at l6. On each side of the conveyor is provided a support and since these supports are identical, only a single one will be described, it being understood that all the features thereof are duplicated in the other. These supports are indicated at I! and are provided with wheels l8 which ride upon the rails [6. Each of these supports carries a framework including the columns l9 which are provided with journals at for the tapered feed rolls 2|. The feed rolls 2| are suitably driven by means of a sprocket chain 22, driven by a motor and speed reducer indicated generally at 23. The motor 23 is mounted upon a bracket 24 constituting a part of the framework carried by the support ll. Extending between the columns IS on each side of the conveyor is a side guide plate 25. The upper edge of each said plate 25 is bent in the direction of the respective feed roll as indicated at 26, and is of course disposed at an angle as indicated by the shaded area 21 in Figure 3, to accommodate the taper of the roll 2|.

The frame on each side of the conveyor carries fixed thereto a pair of nuts 28 which coact with the respective screws 29. The screws 29, as will be clear from a study of the figures are oppositely threaded at their opposite ends. Each screw 29 at its center is secured to a worm wheel (not shown) which meshes with a worm indicated in broken lines in Figure 3 at 30. The two worms 30 are driven through couplings 3| by the motor 32.. The worms 30 and the respective worm wheels are preferably enclosed within a gear housing indicated in the figures at 33.

From the foregoing description it will be clear that when the motor 32 is caused to operate it drives the worms 30 through the couplings 3| and that each worm 30 engaging with its respective worm wheel drives the two screws 29. Since these screws 29 are oppositely threaded at their opposite ends the result will be that the supports |T together with all the apparatus mounted thereon will be caused to move in opposite directions. Thus, if the motor 32 turns in one direction the two supports H are brought closer together, whereas if the motor 32 turns in the opposite direction the two supports H are moved apart. The movement of the support I1 is by virtue of the rollers l8 riding upon the tracks l6 and is such that the supports will always be symmetrically disposed with respect to the conveyor Each of the supports l1 carries a pack stand which will now be described in more detail. On each of the supports l1 there is provided a pair of housings indicated generally at 40. Within the housing 40 there is rotatably mounted a nut 4| which nut has secured to it a worm wheel 42. Also provided in the housing 40 is a journal for a worm 43 on the shaft 44. The shaft 44 issuing from each of the housings 40 is connected through a coupling 45 to a motor 46, so that as the motor 46 rotates it drives the shaft 44 and worm 43, thereby rotating the worm wheel 42 and the nuts 4| in the respective housings 40.

Operatively engaged with each of the nuts 4| is a screw 41. The pack stand proper indicated at 48 is secured to the ends of the two screws 41.

- Thus as the nut 4| rotates the screws 41 are caused to move axially carrying with them the pack stand 48. A pack of sheets or plates to be loaded is indicated at 49.

It will be observed that the pack stands are angularly disposed. It may be said that the two screws 41 have their axes in a plane parallel to the path of movement of the conveyor and inclined to the vertical so as to slope with its upper end toward the feed roll and conveyor. In this way the planes of the sheets being loaded are inclined toward the feed roll and conveyor to facilitate loading of the sheets from the pack stand over the tapered feed roll on to the conveyor.

In order to maintain the level of the uppermost sheet on each pack stand substantially constant in relation to the tapered feed roll, I have provided for each pack stand a flag switch indicated generally at 50. This switch may be of the well known type arranged to throw a contact in one direction upon movement of the switch in one direction, and to throw the contact in the other direction upon movement of the switch in the other direction. It will be clear that as sheets are removed from the pack 49 the arm 50 will drop, thus causing the motor 46 to operate to elevate the pack stand 48 and the pack 49 resting thereon, so that the uppermost sheet in the pack will be maintained at substantially a constant level with respect to the tapered feed roll.

From the foregoing description it will be seen that I have provided an arrangement which makes the loading of sheets or plates from a pack onto a conveyor very much easier than anything that has been available heretofore. Not only is the level of the uppermost sheet in a pack always at the same level with respect to the feed roll adjacent thereto, but the relationship of the uppermost sheet and the feed roll is constant for any width sheet with relation to the conveyor ll. When it is desired to load sheets of different widths actuation of the motor 32 will caus the supports IT to move toward each other or to move apart as may be required. In each case everything mounted upon the support I! moves with it, and the two supports with all the apparatus mounted thereupon remain symmetrically disposed with respect to the conveyor axis.

It will be understood that jacking or pulling devices such as disclosed and claimed in the copending application above referred to may be used in the same manner with the device of the present invention to further facilitate loading.

To those skilled in the art it will be clear that numerous modifications may be made without departing from the spirit of my invention, and I therefore do not intend to limit myself except as set forth in the claims which follow.

Having now fully described my invention, what I claim as new and desire to secure by Letters Patent is 2 1. In combination with a conveyor, a sheet loading organization comprising a tapered feed roll and a pack stand mounted upon a common support, said support being arranged for movement at right angles to the path of movement of said conveyor, the longitudinal axial plane of said pack stand being disposed parallel to said path of movement, and inclined to the vertical so that said pack stand slopes with its upper end toward said feed roll and conveyor, said pack stand bein provided with means for elevating and lowering it in said plane.

2. A device according to claim 1, in which the axis of said tapered feed roll is disposed parallel to the path of movement of said conveyor, and in which a side guide is mounted on said common support in a vertical plane parallel to said path of movement.

3. A device according to claim 2, in which driving means for said tapered feed roll are also mounted on said common support.

4. A device according to claim 1, in which control means are provided for said elevating and lowering means, said control means being arranged for actuation by the uppermost sheet of a pack on said pack stand, whereby as sheets are removed from said pack, th uppermost sheet or group of sheets is maintained at a substantially constant level with respect to the tapered feed roll.

5. In combination with a conveyor, a support movable at right angles to the path of movement of said conveyor, a pair of columns on said support, a tapered feed roll rotatably mounted in said columns with its axis parallel to the said path of movement, a side guide mounted on said columns in a vertical plane parallel to said path of movement, and an elevatable pack stand mounted on said support, the longitudinal axial plane of said pack stand bein disposed parallel to said path of movement, and inclined to the vertical so that said pack stand slopes with its upper end toward said feed roll and conveyor.

6. A device according to claim 5, in which said pack stand is provided with a screw disposed in said plane and perpendicular to said path of movement, and a rotatable nut in operative engagement with said screw, and power means for rotating said nut.

7. A device according to claim 6, in which control means are provided for said power means, said control means being arranged for actuation by the uppermost sheet of a pack on said pack stand, whereby as sheets are removed from said pack, the uppermost sheet is maintained at a substantially constant 1eve1 with respect to said tapered feed roll.

8. In combination. with a conveyor, a sheet loading organization on each side of said conveyor, each said organization comprising a tapered feed roll and a pack stand mounted upon a common support, said supports being arranged for movement at right angles to the path of movement of said conveyor, the longitudinal axial planes of said pack stands being disposed parallel to said path of movement, and inclined with the upper ends of said pack stands toward each other, said pack stands being provided with means for elevating and lowering them in their respective planes.

9. A device according to claim 8, in which means are provided for concurrently moving said supports in opposite directions.

10. A device according to claim 9, in which the axes of said tapered feed rolls are disposed parallel to the path of movement of said conveyor, and in which a side guide is mounted on each of said supports in a, vertical plane parallel to said path of movement.

11. A device according to claim 10, in which driving means for each of said feed rolls are also mounted upon the respective common supports.

l2. A device according to claim 8, in which control means are provided for each of said elevating and lowering means, each said control means being arranged respectively for actuation by the uppermost sheet of a pack on its said stand, whereby as sheets are removed from each of said packs, the uppermost sheet of each pack is maintained at a substantially constant level with respect to its respective feed roll.

13. In combination with a conveyor, a support on each side thereof movable at right angles posed parallel to said to the path of movement of said conveyor, a pair or" columns on each of said supports, a tapered feed r011 rotatably mounted in each pair of columns with its axis parallel to said path of movement, a side guide mounted on each pair of columns in a vertical plane parallel to said path of movement, and an elevatable pack stand mounted on each of said supports, the longitudinal axial planes of said pack stands being dispath of movement, and inclined with the upper ends of said pack stands toward each other.

14. A device according to claim 13, in which means are provided for concurrently moving said supports in opposite directions.

15. A device according to claim 14, in which each of said pack stands is provided with a screw disposed in its respective plane and perpendicular to said path of movement, and a rotatable nut in operative engagement with said screw, and power means for rotating said nut.

16. A device according to claim 15, in which control means are provided for each of said power means, said control means being arranged for actuation by the uppermost sheet of a pack on the respective pack stand, whereby as sheets are removed from said packs, the uppermost sheet of each pack is maintained at a substantially constant level with respect to its respective tapered feed roll.

JOHN WARNER KENYON.

References Cited in the file of this patent UNITED STATES PATENTS