US3334838A

US3334838A - Apparatus for feeding wound material to a processing machine

Info

Publication number: US3334838A
Application number: US482789A
Authority: US
Inventors: Kopp Heinz
Original assignee: KOPP AND ODENWALD
Current assignee: KOPP AND ODENWALD
Priority date: 1964-09-05
Filing date: 1965-08-26
Publication date: 1967-08-08
Anticipated expiration: 1984-08-08

Description

Aug. 8, 1967 H. KOPP 3,334,838

APPARATUS FOR FEEDING WOUND MATERIAL TO A PROCESSING MACHINE Filed Aug. 26, 1965 2 Sheets-Sheet 1 Fig. 1

Inventorfl k; W B

AmA Y Aug. 8, 1967 H. KOPP 3,334,838

APPARATUS FOR FEEDING WOUND MATERIAL TO A PROCESSING MACHINE Filed Aug. 26, 1965 2 Sheets-Sheet 2 Inventor- M KW United States Patent 3,334,838 APPARATUS FOR FEEDING WOUND MATERIAL TO A PROCESSING MACHINE Heinz Kopp, Niefern, Pforzheim, Germany, assignor to Kopp & Odenwaid, Niefern, Pforzheim, Germany, a German firm Filed Aug. 26, 1965, Ser. No. 482,789 Claims priority, application Germany, Sept. 5, 1964, K 48,951 3 Claims. '(Cl. 242-7 8.7)

This invention relates generally to improved apparatus for feeding strip mtaerial, particularly a metal band, from a wound supply roll thereof to a processing machine.

In the feeding of strip material to high speed processing machines, such as rapid operating eccentric presses or bending machines, the proper rate of supply of the material relative to the operating rate of the processing machine is of particular importance. For example, in order that the proper tension be maintained on the strip material for accurate clamping or gripping by the working means of the processing machine, care must be exercised over the control of the feed rate, particularly in the case of relatively thin strip materials where the danger of breakage of the material is always great.

In the strip feeding apparatus of the prior art, it has been proposed to supply material from a reel arranged for rotation on a bed, which reel is driven by electric drive means at a given speed relative to the processing machine. Switch means are provided for interrupting the drive means of the reel when a predetermined length of the material is unwound from the reel. In some cases the switch control means may be operated by a loop formed in the band or strip material during the feeding thereof from the reel to the processing machine. The installation of the band material in such known arrangements is very complicated and difficult, since each time the material must first be wound on a reel prior to use in the supply apparatus. Furthermore, the use of the known apparatus is limited solely to relatively strong, resilient strip material, which material has a sufficiently great resistance or strength to control the switching device. As far as relatively thin materials are concerned, the control of the switching means to interrupt the drive apparatus is normally so complex as to render the known apparatus impractical for actual use.

The primary object of the present invention is to provide an improved apparatus for feeding band material (specifically, a metal strip) from a wound roll thereof to a processing machine, such as a high speed press or strip bending machine, said apparatus being characterized by the provision of drive means for driving a reel-less supply roll peripherally supported for rotation on a frame, and separate switching means operable by the material supplied from the roll for energizing and de-energizing the drive means to regulate the linear speed of travel and tension of the strip material. The apparatus is specifically designed for use with any type of strip material, including extremely thin or relatively thick material. According to the invention, the various drawbacks inherent in the known apparatus are avoided by conducting the strip in an arched configuration from the roll in such a manner that the curved strip portion engages first contact element means to de-energize the supply roll drive means when the feed rate exceeds the demand rate of the processing ma- 3,334,838 Patented Aug. 8, 1967 chine. As a consequence of the invention the use of complex de-energizing switch means for the drive arrangement is avoided, and the apparatus is suitable for control by thin foil bands of material.

In this connection, it is, of course, possible to so form the contact element that the drive means is again switched on as soon as the band material is displaced from the contact element. However, in such an arrangement, the electrical control device is necessarily undesirably large and costly. In accordance with a more specific object of the invention, this is avoided by providing a second switch means spaced from the contact element means on the opposite side of the arched portion of the strip. By this construction, the contact element mean-s serves solely to de-energize the drive means, and the second switch means serves solely to subsequently energize the drive means, whereby in the simplest manner an extremely functional control is obtained. In this manner, the supply roll is maintained stationary both as long as the curved strip portion engages the contact element, and until the slack is removed from the strip material to cause subsequent engagement with the second switch operator, whereupon the drive means in re-energized.

Other objects and advantages of the invention will become apparent from a study of the following specification when considered in the light of the accompanying drawing, in which:

FIGURE 1 is a front elevational view of the strip feeding apparatus of the present invention;

FIG. 2 is a left hand end view of the apparatus of FIG- URE 1; and

FIGURE 3 is a rear elevational view of the apparatus of FIGURE 1.

Referring now to the drawing, the strip feeding apparatus of the present invention includes a base 10 having a stationary base plate 12 upon which are mounted trunnion means that support for pivotal movement a horizontal shaft 13. Rotatably supported by parallel spindles carried by the horizontal shaft 13 are a pair of parallel horizontally-spaced

drive rollers

14, 16 that are adapted to be driven in the same direction (as shown by the arrows in FIGURE 1) by drive means 22 including an electric motor 26, variable speed transmission 24, endless belt 20, and a pair of pulleys 18 connected with the drive rollers, respectively. As shown in FIGURES 2 and 3, the drive means 22 is carried by the horizontal base shaft adjacent, rearwardly of, and slightly above, the

drive rollers

14 and 16.

Also carried by the horizontal shaft 13 of the base 10 is a support plate 28 which laterally supports a roll of wound strip material (for example, a metal band) that is peripherally. supported by the spaced

drive rollers

14, 16. The roll 30 is also laterally retained in position by a holder frame 32 parallel with and spaced from the plate 28. At its upper end, the frame 32 is pivotally connected with threaded rods 34 which are longitudinally adjustable relative to the plate 28 by adjusting nuts 36. At its lower end, the frame 32 is releasably connected with the horizontal base shaft by locking means 38. The horizontal base shaft is normally pivoted to a position in which the plate 28, frame 30, drive means 22 and

drive rollers

14, 16 carried as a unit thereby are slightly inclined rearwardly as shown in FIGURE 2. Frustoconical guide rollers 40, 42 rotatably carried by the lower portion of the holder frame 32 laterally support the lower portion of the roll 30 from which the strip material 44 is removed.

The strip 44 is guided by successively arranged con ducting or guide means 48, 46, 54 that are carried by the plate 28. Each of these conducting means comprises a pair of

rollers

50, 52 between which the strip 44 is conducted as it is fed to an electrically driven processing machine, not shown, having a given continuous rate of operation. By appropriate control of the variable transmission means 24, the rate of feed of the strip material is normally adjusted to substantially equal (and possibly slightly exceed) the operation of the processing machine.

Rigidly secured to the plate 28 is a carrier frame formed of rod elements 56, which carrier frame supports element means 58 arranged between the conducting

means

46, 48 and having a relatively large surface parallel with the axis of supply roll 30. The contact element means 58 is adapted to open normally closed switch means 58a (FIGURE 2) that control the energization of the electric motor 26. As shown in FIGURE 1, when the variable transmission means 24 is adjusted to cause

drive rollers

14, 16 to supply strip 44 at a faster rate than the rate of operation of the processing machine, an arched portion or loop is formed between guide means 46, 48 which arched portion eventually engages the vertical surface of the contact element means 58, thereby operating the same to open the aforementioned switch means and de-energize the drive motor 26.

Mounted on the carrier frame on the opposite side of the arched portion of the strip 44 in spaced relation to the contact element means 58 is an additional normally-open switch means 60 operable to energize the drive motor 26. The switch means 60 includes a roller 62 carried by pivotal lever 64 for engagement by the strip 44 when in the position shown by the phantom line in FIGURE 1.

According to a further feature of the invention, the plate 28 carries on its rear surface safety or protective switch means 66 including normally-closed contacts for energizing the drive motor 67 of the aforementioned processing machine, not shown. These safety switch means include a pivotally mounted lever 68 carrying the roller 52 of the first or lower conducting means 48, said roller extending through the arcuate slot 70 contained in the plate 28. If desired, spring means 71 may be provided for biasing the lever 68 of FIGURE 3 in the clockwise direction. As long as the strip 44 is fed with a predetermined tension between the

rollers

50, 52 of conducting means 48, the safety switch means 66 remains closed to energize the processing machine. If the strip tension should increase above a desired value (as might result from failure of operation of switch means 60), the safety switch means 66 is operated to de-energize the drive motor 67 of the processing machine, thereby avoiding undesirable waste of the processed material.

Operation Upon closing of the start switch S, motors 26 and 27 are energized to drive the

rollers

14, 16 and the various means of the processing machine, respectively. By adjustment of the variable transmission means 24, the

drive rollers

14, 16 are driven at a slightly increased peripheral speed relative to the rate of operation of the processing machine, whereby an arcuate portion is formed in strip 44 between conducting

means

46 and 48 as shown in FIGURE 1. When this arcuate portion engages contact element means 58, switch 58a is opened to de-energize drive motor 26, whereby the supply of strip material 44 is momentarily interrupted. Since the processing machine is still withdrawing strip material from the conducting

means

46 and 54, the arcuate portion assumes the position shown in phantom in FIGURE 1, whereby roller 62 is engaged by the strip and pivots lever 64 to close the contacts of switch means 60. The drive motor 26 is thereby re-energized to supply material from roll 30, whereupon the arcuate portion is again formed between conducting

means

46 and 48 as previously described.

If for any unforeseen reason, the operation of switch means 60 should fail, the roller 52 of conducting means 48 will be displaced in slot 70 by the increased tension of the strip material to operate switch means 66 to deenergize motor 67 of the processing apparatus.

Although in the illustrated embodiment, the various switch means have been indicated :as having normally open and closed positions, it is apparent, of course, that many other connections and arrangements are possible in accordance with the invention. It will be apparent, therefore, to those skilled in the art that various other modifications and improvements may be made in the apparatus described without deviating from the invention set forth in the following claims.

What is claimed is:

1. Apparatus for supplying strip material from a roll to high speed strip processing means including first drive motor means, comprising support means including a frame for rotatably supporting the roll;

second drive motor means for rotating the roll to unwind the strip therefrom;

means for guiding the unwound strip into an arched configuration, comprising first and second guide roller means arranged at each end of the strip arch, respectively, each of said guide roller means including a pair of cooperating rollers between which the strip is fed;

first switch means for de-energizing said second drive motor means when the height of the arched strip exceeds a given first value, said first switch means including stationary contact element means connected with said frame for tangential engagement by the outer surface of the strip arched portion; and

second switch means for energizing the second drive motor means when the height of the arched strip is less than a given second value, said second switch means including a switch housing rigidly connected with said frame, and a pivotally mounted switch operating lever arranged for actuation by the inner surface of the arched portion of said strip to operate said second switch means and thereby energize the second drive motor means.

2. Apparatus for supplying strip material from a roll to high speed strip processing means including first drive motor means, comprising second drive motor means for rotating the roll to unwind the strip therefrom;

means for guiding the strip into an arched configuration, said guide means comprising first and second guide roller means arranged at each end of the strip arch, respectively, each of said guide roller means including a pair of cooperating rollers between which the strip is fed;

first switch means for de-energizing the second drive motor means when the height of the arched strip exceeds a given first value, said first switch means including contact element means arranged for tangential engagement by the outer surface of the strip arched portion;

second switch means for energizing the second drive motor means when the height of the arched strip is less than a given second value, said second switch means including a pivotally mounted switch operator arranged for engagement by the inner surface of the arched portion;

and safety switch means associated With one of said first and second guide roller means for de-energizing said first drive motor means when strip tension exceeds a given value.

3. Apparatus as defined in claim 2 wherein said first guide roller means are arranged adjacent said second 5 6 drive motor means, wherein said safety switch means is 2,757,880 8/1956 De La Motte 24278.7 associated with said first guide roller means, and further 2 377 9 1 3 1959 11 242 7 7 wherein the rollers of said first guide means are mounted relative to each other as a function of increase in tension FOREIGN PATENTS of the strip material above a given value. 5 744,063 2/1956 Great Britain.

References Cited UNITED STATES PATENTS STANLEY N. GILREATH, Primary Examiner.

2,207,663 7/ 1940 Glasner 24278.7 N. L. MINTZ, Assistant Examiner.

2,345,656 4/ 1944 Calleson et a1 24278.7 X 10

Claims

1. APPARATUS FOR SUPPLYING STRIP MATERIAL FROM A ROLL TO HIGH SPEED STRIP PROCESSING MEANS INCLUDING FIRST DRIVE MOTOR MEANS, COMPRISING SUPPORT MEANS INCLUDING A FRAME FOR ROTATABLY SUPPORTING THE ROLL; SECOND DRIVE MOTOR MEANS FOR ROTATING THE ROLL TO UNWIND THE STRIP THEREFROM; MEANS FOR GUIDING THE UNWOUND STRIP INTO AN ARCHED CONFIGURATION, COMPRISING FIRST AND SECOND GUIDE ROLLER MEANS ARRANGED AT EACH END OF THE STRIP ARCH, RESPECTIVELY, EACH OF SAID GUIDE ROLLER MEANS INCLUDING A PAIR OF COOPERATING ROLLERS BETWEEN WHICH THE STRIP IS FED; FIRST SWITCH MEANS FOR DE-ENERGIZING SAID SECOND DRIVE MOTOR MEANS WHEN THE HEIGHT OF THE EACH STRIP EXCEEDS A GIVEN FIRST VALUE, SAID FIRST SWITCH MEANS INCLUDING STATIONARY CONTACT ELEMENT MEANS CONNECTED WITH SAID FRAME FOR TANGENTIAL ENGAGEMENT BY THE OUTER SURFACE OF THE STRIP ARCHED PORTION; AND SECOND SWITCH MEANS FOR ENERGIZING THE SECOND DRIVE MOTOR MEANS WHEN THE HEIGHT OF THE ARCHED STRIP IS LESS THAN A GIVEN SECOND VALUE, SAID SECOND SWITCH MEANS INCLUDING A SWITCH HOUSING RIGIDLY CONNECTED WITH SAID FRAME, AND A PIVOTALLY MOUNTED SWITCH OPERATING LEVER ARRANGED FOR ACTUATION BY THE INNER SURFACE OF THE ARCHED PORTION OF SAID STRIP TO OPERATE SAID SECOND SWITCH MEANS AND THEREBY ENERGIZE THE SECOND DRIVE MOTOR MEANS.