Semi-automatic machine for cutting and scoring packaging structures
A new and improved semi-automatic machine, for forming slits within side wall members of a packaging structure so as to render successive sections of the packaging structure articulated with respect to each other whereby the packaging structure can be folded into a packaging container, includes a pair of oppositely disposed circular saw blade assemblies which are disposed at a cutting station and which are mounted upon a vertically movable reciprocating carriage mechanism. The carriage mechanism is initially disposed at a first ELEVATED INOPERATIVE position, the packaging structure is fed into the machine and stopped at a predetermined longitudinal position at which it is desired to cut or slit the packaging structure, and the carriage mechanism is moved vertically downwardly toward a second LOWERED OPERATIVE position at which the pair of circular saw blades cut the oppositely disposed dependent side wall members of the packaging structure. Subsequently, the circular saw blade assemblies are retracted vertically upwardly as a result of moving the carriage mechanism back to the first ELEVATED INOPERATIVE position, the packaging structure is advanced further and stopped at another predetermined axial position at which it is desired to cut the packaging structure, and the entire operative cycle is repeated as necessary.
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This patent application is related to United States Patent Applications entitled DEVICE FOR PERMITTING RE-ENTRY OF CIRCULAR SAW BLADE DURING RECIPROCATING STROKE MOVEMENTS, filed on ______ in the name of Anatoly Gosis et al. and assigned Ser. No. ______, and ANTI-VIBRATION DEVICE FOR USE WITH A CIRCULAR SAW BLADE filed on ______ in the name of Anatoly Gosis et al. and assigned Ser. No. ______.
FIELD OF THE INVENTIONThe present invention relates generally to a semi-automatic machine, and more particularly to a new and improved semi-automatic machine for simultaneously moving a pair of oppositely disposed circular saw blades in a predeterminedly timed, reciprocating manner between an elevated, RETRACTED, INOPERATIVE position and a lowered, EXTENDED, OPERATIVE position so as to repeatedly form slits within oppositely disposed dependent side wall members of a substantially C-shaped packaging structure at a plurality of positions which are located at predeterminedly defined locations spaced along the longitudinal or axial extent of the packaging structure such that different, axially or longitudinally spaced sections of the resulting packaging structure, which are integrally connected together in an articulated manner at the aforenoted, predeterminedly defined slit locations, can effectively be folded with respect to each other, as a result of the sections also being scored at the slit locations, such that a completely enclosed packaging container can be formed from the original C-shaped packaging structure.
BACKGROUND OF THE INVENTION Various articles, having substantial width, thickness, and length dimensions, need to be protected during, for example, the transportation and shipping thereof from their manufacturing facilities to their storage and/or point of sale locations so as to prevent damage from occurring to such articles prior to the purchase of the same by consumers. It is conventional practice to utilize substantially rigid, laminated U-shaped or channel-shaped packaging structures so as to effectively define composite packaging containers, which encase the articles therewithin, whereby the packaging structures can subsequently be secured together by means of, for example, suitable strapping or banding. One type of conventional packaging structure, which has been utilized for the foregoing purposes, is disclosed, for example, within U.S. Pat. No. 4,976,374 which issued to Macaluso on Dec. 11, 1990. More particularly, as disclosed within
Alternatively, in lieu of utilizing two separate packaging structures, such as, for example, the base unit 10 and the cover unit 12, so as to form the aforenoted composite packaging container, a single packaging structure can be utilized to form a composite packaging container. More particularly, by effectively forming slits within the pair of oppositely disposed dependent side wall members of the packaging structure at predetermined locations spaced along the longitudinal or axial extent of the packaging structure, and by scoring the wall member of the packaging structure which effectively integrally interconnects the pair of oppositely disposed dependent side wall members of the packaging structure, the packaging structure is effectively divided into sections which are integrally connected together in an articulated manner whereby the various sections can effectively be bent or folded at predetermined angles with respect to each other so as to effectively form the composite packaging container within which the predetermined articles can be packaged. For example, as disclosed within
More particularly, it is seen, for example, that when the packaging structure 110 is disposed in it manufacturing orientation as disclosed within
Continuing further, a third pair of longitudinally spaced, vertically oriented slits 132,134 are formed within the side wall member 114 such that the fifth slit 132 is disposed at a position which is located a predetermined distance D3 upstream from the position at which the second slit 120 of the packaging structure 110 is located, while the sixth slit 134 is disposed at a position which is located a predetermined distance D4 upstream from the fifth slit 132 wherein the distance D4 is effectively or substantially the same as the distance D2, as well as the depth or vertical extent of the side wall member 114, for the same reason or purpose in connection with the distance D2 which will become clear shortly hereinafter. In a similar manner, a fourth pair of longitudinally spaced, vertically oriented slits 136,138 are formed within the side wall member 116 such that the seventh and eighth slits 136,138 are respectively disposed directly opposite the fifth and sixth slits 132,134. In addition, a second pair of scored regions 140,142 are formed within the upper wall member 112 so as to respectively effectively extend between and interconnect the oppositely disposed slit regions 132,136 and 134,138 formed within the side wall members 114, 116 of the packaging structure 110. It can therefore be appreciated that as a result of the aforenoted structure, particularly the formation of the particular slits 118,120,124, 126,132,134,136,138 and the scored regions 128,130,140,142 within the side wall members 114,116 and the upper wall member 112 of the packaging structure 110, the packaging structure 110 is effectively divided into several articulated sections by means of which the resulting composite packaging container can be formed.
More particularly, as a result of the aforenoted structure, particularly the formation of the particular slits 118,120,124,126,132,134,136,138 and the scored regions 128, 130,140,142 within the side wall members 114,116 and the upper wall member 112 of the packaging structure 110, the upper wall member 112 of the packaging structure 110 is effectively divided into sections 112-1,112-2,112-3,112-4,112-5, the side wall member 114 of the packaging structure 110 is effectively divided into sections 114-1,114-2,114-3,114-4,114-5, and the side wall member 116 of the packaging structure 110 is likewise effectively divided into sections 116-1,116-2,116-3, 116-4,116-5. Accordingly, as can best be appreciated from
The pivotal rotation of the upper wall member sections 112-1,112-2, the side wall member sections 114-1,114-2, and the side wall member sections 116-1,116-2 is continued until the flap members 114-2, 116-2, effectively formed respectively within the side wall members 114,116, are able to be respectively completely tucked or disposed inside or between the primary side wall sections 114-3,116-3 at which time the section 112-2 of the original upper wall member 112 now becomes one of the vertically oriented, upstanding end walls of the finalized composite packaging container. Still further, the upper wall member section 112-1 and the side wall member sections 114-1,116-1 are then pivotally rotated in the clockwise direction CW around the pivotal axis effectively defined by means of the scored region or section line 128 whereby when the side wall member sections 114-1,116-1 are respectively tucked or disposed internally between the side wall sections 114-2,114-3 and 116-2,116-3, original upper wall member section 112-1 will now be disposed opposite original upper wall member 112-3. Similar pivotal, rotational, and folding operations are also to be performed in connection with the upper wall member sections 112-4,112-5 and the side wall member sections 114-4,114-5,116-4,116-5 in the counterclockwise direction CCW around or with respect to the scored regions or section lines 142,140 whereby, for example, when such pivotal, rotational, and folding operations are completed, the side wall member sections 114-4,116-4 will be respectively tucked or disposed inside of or between the side wall sections 114-3,116-3, and the original upper wall member section 112-4 will now form the opposite, vertically oriented, upstanding end wall of the composite packaging container. In addition, the side wall member sections 114-5,116-5 will be respectively tucked or disposed inside or between the side wall member sections 114-4,114-3, and the side wall member sections 116-4,116-3, and the original upper wall member section 112-5 will not only be disposed opposite the original upper wall member section 112-3 but will also be partially disposed atop the previously folded original upper wall member section 112-1 so as to complete the assembly of the composite packaging container.
A need therefore exists in the art for a new and improved semi-automatic machine for simultaneously forming pairs of slits within the oppositely disposed side wall members of a packaging structure, as well as scored regions extending between the oppositely formed slits, at predetermined axially or longitudinally spaced locations along the longitudinal or axial extent of the packaging structure such that the different, axially or longitudinally spaced sections of the resulting packaging structure, which are integrally connected together in an articulated manner at the aforenoted predeterminedly defined slit and scored locations, can effectively be folded with respect to each other such that the completely enclosed packaging container can be formed from the original C-shaped packaging structure in accordance with the aforenoted mode of operation.
SUMMARY OF THE INVENTIONThe foregoing and other objectives are achieved in accordance with the teachings and principles of the present invention through the provision of a new and improved semi-automatic machine which comprises an upstream set of longitudinally spaced idler rollers upon which the substantially U-shaped inverted packaging structure is guidably supported as the packaging structure is conveyed toward and through the cutting station, and a downstream railing upon which the substantially U-shaped inverted packaging structure is guidably support as the packaging structure is conveyed out from the cutting station. A pair of oppositely disposed circular saw blade assemblies are disposed at the cutting station and are mounted upon a vertically movable reciprocating carriage mechanism. In accordance with a typical cutting operation cycle, whereby the aforenoted articulated structure can be fabricated, the vertically movable reciprocating carriage mechanism is initially disposed at a first ELEVATED INOPERATIVE position, the packaging structure is fed or conveyed into the apparatus and stopped at a predetermined axial or longitudinal position at which the same is desired to be cut, and the vertically movable reciprocating carriage mechanism is moved vertically downwardly toward a second LOWERED OPERATIVE position at which the pair of circular saw blades cut the oppositely disposed dependent side wall members of the packaging structure so as to define a first pair of vertically oriented slits therein. Subsequently, the circular saw blade assemblies are retracted vertically upwardly as a result of moving the vertically movable reciprocating carriage mechanism back to the first ELEVATED INOPERATIVE position, the packaging structure is conveyed or advanced further to and stopped at another predetermined axial or longitudinal position at which it is desired to cut the side wall members of the packaging structure so as to define another pair of slits within the side wall members of the packaging structure, and the entire operative cycle can be repeated as desired.
BRIEF DESCRIPTION OF THE DRAWINGSVarious other features and attendant advantages of the present invention will be more fully appreciated from the following detailed description when considered in connection with the accompanying drawings in which like reference characters designate like or corresponding parts throughout the several views, and wherein:
Referring now to the drawings, and more particularly to
The elongated, longitudinally oriented support beam 214 is, in turn, fixedly supported upon a plurality of longitudinally spaced stanchions 216, each one of which has a substantially inverted T-shaped cross-sectional configuration, and it is seen that a plurality of vertically, upstanding idler roller mounting brackets 218 are fixedly mounted atop the elongated, longitudinally oriented support beam 214 at longitudinally spaced positions upstream of the semi-automatic cutting or slitting machine 212. An idler roller 220 is respectively mounted within an upper clevis portion of each one of the vertically upstanding idler roller mounting brackets 218, and it is seen that the plurality of idler rollers 220 are co-linearly aligned with respect to each other such that the plurality of idler rollers 220 together define an upstream, packaging structure infeed or entry end conveyor for conveyably supporting, for example, a U-shaped packaging structure, similar to the packaging structure 110 as disclosed in its inverted orientation within
It is to be noted that the semi-automatic cutting or slitting machine 212 can be utilized to form cuts or slits within the side wall members of various different U-shaped packaging structures having, for example, different width dimensions, such as, for example, within the range of two inches (2.00″) to twelve inches (12.00″). It is noted further, however, that the same arrangement or array of idler rollers 220, serving as the upstream packaging structure infeed conveyor mechanism, and that the same rail member 224, serving as the downstream packaging structure outfeed conveyor mechanism, are to be utilized regardless of the size or width dimension of the particular packaging structure. It may therefore be appreciated still further that if the transverse or lateral width dimension of the particular packaging structure substantially or significantly exceeds the transverse or lateral width dimensions of the idler rollers 220 and the rail member 224, then the longitudinal axis of the packaging structure will not necessarily be coaxially aligned with the longitudinal axis of the machine system 210 as effectively defined by means of the co-linearly arranged idler rollers 220 and the longitudinally extending rail member 224. Accordingly, when the packaging structure is conveyed into the semi-automatic cutting or slitting machine 212 so as to be processed in accordance with the manufacturing techniques for forming the articulated packaging structure, a properly fabricated articulated packaging structure may not in fact be achieved. Therefore, in accordance with further structure characteristic of the new and improved machine system 210 of the present invention, it is seen from
The packaging structure alignment guide rollers 226,228 are adapted to be disposed beneath the inverted U-shaped packaging structure, which is being conveyed along the packaging structure infeed conveyance path by means of the packaging structure infeed idler rollers 220, in such a manner that the packaging structure alignment guide rollers 226, 228 will effectively engage oppositely disposed interior surface portions of the oppositely disposed dependent side wall members of the packaging structure. Therefore, since at least two sets of packaging structure alignment guide rollers 226, 228 are being utilized, at least four of the packaging structure alignment guide rollers 226,228 will effectively form a parallelogram array so as to guide the packaging structure toward the semi-automatic cutting or slitting machine 212 in a coaxially aligned, stabilized manner. It is further appreciated from
In a similar manner, as can be appreciated from
The new and improved semi-automatic cutting or slitting machine 212 is adapted to be pre-programmed, in a manner to be described shortly hereinafter in detail, whereby the new and improved semi-automatic cutting or slitting machine will be ready to perform its cutting or slitting operations upon a particular packaging structure having predetermined dimensions or specifications. Accordingly, when cutting or slitting operations are in fact to be performed upon a packaging structure blank in order to effectively fabricate the packaging structure 110 comprising its integrally connected articulated sections as illustrated within
More particularly, as best seen in
A first vertically oriented air cylinder mechanism 266 is fixedly mounted upon the second horizontally disposed bridge member 264, and a vertically oriented, reciprocally movable piston rod 268, operatively connected to the air cylinder mechanism 266, is adapted to pass downwardly through the bridge member 264 and be fixedly connected to a horizontally oriented clamping bar 270. A roller mounting bracket 272, having a substantially triangular cross-sectional configuration, is disposed beneath the clamping bar 270, and an idler roller 274 is mounted at a substantially central, upwardly projecting apex portion of the roller mounting bracket 272. In this manner, when the clamping bar 270 is lowered to its lowermost position by means of the piston rod 268 of the air cylinder mechanism 266, the under-surface portion of the clamping bar 270 will engage the idler roller 274 and effectively form therewith the aforenoted stop mechanism against which the forward edge portion of the packaging structure is engaged at the commencement of a cutting or slitting operation. A pair of laterally spaced guide rods 276 are connected to the clamping bar 270 and pass upwardly through bearing members 278 fixedly mounted within the bridge member 264 so as to guide the vertically reciprocal movements of the clamping bar 270 between its elevated and lowered positions. Bumpers or shock absorbers 280, which can be seen in
With continued reference to
In a manner similar or corresponding to that which has been described in connection with the mounting and disposition of the upstream or infeed drive and driven rollers 288,292, and with reference now being made to
With reference now being made to
Continuing further, a pair of air or pneumatic drive motors 322,322 are respectively disposed externally of each one of the plastic housings 318,318 in such a manner that the plastic housings 318,318 are fixedly mounted upon flange portions of the drive motors 322,322, and rotary drive shafts, not illustrated, of the drive motors 322,322 extend through the side walls of the plastic housings 318,318 so as to be operatively connected to the circular saw blade members 316,316. As can best be seen in
A pair of scales or rulers 340,340 are effectively embedded within the upper surface portion of the carriage plate 330, and the pointer portions 338,338 of the cap members 334,334 are operatively associated with the scales or rulers 340,340 so as to effectively indicate to the operator the width dimension or size of the particular packaging structure, and the corresponding disposition of the circular saw blade assemblies 300,300 with respect to such particular packaging structure, which is being fabricated. It can therefore be appreciated that when, for example, the threaded fasteners 336,336 of the cap members 334,334 are effectively loosened so as to, in turn, effectively release the clamping forces impressed upon the upper and lower surface portions of the carriage plate 330 by means of the cooperating cap members 334,334 and the upper flange members 328,328 of the mounting shafts 324,324, the pair of circular saw blade assemblies 300,300 can be adjusted toward or away from each other so as to be capable of performing their cutting or slitting operations upon predeterminedly sized packaging structures. In addition, in order for the circular saw blade members 316,316 to properly perform their cutting or slitting operations in connection with the dependent side wall members of a particular one of the packaging structures, it is further seen that a vertically upstanding spacer block 342, having a substantially square cross-sectional configuration, is fixedly secured to the base plate 248 of the machine 212 along the longitudinal conveyor axis of the machine system 210, as can best be appreciated from
Still further, a pair of cutting dies 346,346 are fixedly connected to the opposite sides of the spacer block 342 by means of, for example, suitable bolt fasteners which are adapted to be inserted through through-apertures 348 formed within the cutting dies 346,346 and threadedly engaged within the spacer block 342 as can best be appreciated from
With reference continuing to be made to
With reference now being made to
It is further seen that the carriage plate 330 has a substantially C-shaped cross-sectional configuration and that the carriage plate 330 is only operatively engaged with, and mounted upon, the downstream pair of vertically oriented upstanding posts or masts 256,258. In particular, a pair of substantially C-shaped bearing members 370,372, fabricated, for example, from TEFLON®, enable the carriage plate 330 to be smoothly moved along, and guided by, the posts or masts 256,258 under the operative control of the piston rod 366 and the air cylinder 364. It is additionally seen and appreciated that in view of the fact that the pair of oppositely disposed circular saw blade assemblies 300,300 are mounted upon upstream end portions of the carriage plate 330 through means of the cap members 334,334 and the mounting shafts 324,324 fixedly connected to the air drive motors 322,322, a pair of cylindrically configured counterweights 374,374 are fixedly mounted upon the downstream end or leg portions 376,376 of the substantially C-shaped carriage plate 330. In this manner, the carriage plate 330 is properly counterbalanced so as to in fact be capable of being smoothly and easily moved during its reciprocal vertical movements between the aforenoted ELEVATED and LOWERED positions attendant the performance of the cutting or slitting operations by means of the circular saw blades 316,316.
With reference lastly being made to
Once a particular part or packaging structure has in fact been selected, the MACHINE SET-UP button 384 is depressed whereby, in effect, a checklist or similar monitoring program is displayed so as to inform the operator of the necessary procedures that must be taken in connection with the preparation of the machine 212 for performing the particular cutting or slitting operations upon the particular packaging structure. In a similar manner, depression of the CURRENT STATUS button 386 informs the operator of what is transpiring within the machine, such as, for example, which particular packaging structure is being fabricated, the progression of the cuts or slits within the overall operative cycle, and the like. Still further, when the MAINTENANCE RECORDS button 388 is depressed, information concerning the various operative components of the machine 212 will be displayed within the display window 378, such as, for example, how many cutting cycles the circular saw blade members 316,316 have performed, the date when they were replaced or refurbished, and the like. Lastly, the START button has been previously noted at 242, and an emergency STOP button 398 is also of course provided. In addition to the various control buttons 380-396 being operatively connected to the programmable logic controller (PLC) 246, it is to be noted that the programmable logic controller (PLC) 246 is of course operatively connected to the various operative or movable components of the semi-automatic cutting or slitting machine 212, such as, for example, the edge sensor 282, the rotary encoder 284, the stepper mot- or 290 for driving the drive roller 288, the air cylinder mechanisms 296,312 for controlling the driven rollers 292, 308, the drive motor 302, the vacuum means operatively associated with the dust collection bags 320,320, the air motors 322,322 for controlling the operations of the circular saw blade members 316,316, and the air cylinder 364 for controlling the vertical reciprocal movements of the carriage plate 330.
Having described substantially all of the operative components of the new and improved semi-automatic cutting or slitting machine 212 of the present invention, a brief description of a typical cutting or slitting operation, as performed upon a particular packaging structure 110, will now be described. Once a particular packaging structure 110 has been selected and the particular cutting dies 346,346 and the male scoring die 354 have been installed upon the machine 212, the particular parameters concerning such packaging structure 110 will be entered into the memory of the programmable logic controller (PLC) 246 such that the various pairs of slits 118-124,120-126,132-136, and 134-138 can be formed within the side wall members 114,116 of the packaging structure 110 at the precise or predetermined positions located along the axial or longitudinal extent of the packaging structure 110. The operator will then load the packaging structure 110 into the machine 212 in the orientation illustrated within
Continuing further, it is also noted that at this point in time, the stepper motor 290 and the drive motor 302 are inactive such that the infeed and outfeed drive rollers 288,306 are likewise inactive, the air cylinder mechanisms 296,312, for controlling the disposition of the driven rollers 292,308, have been activated such that the roller mounting brackets 294,310 are disposed at their lowered positions whereby the driven rollers 292,308 are spaced from, and not in contact with, the infeed and outfeed drive rollers 288, 306, and the air cylinder mechanism 266, for controlling the disposition of the clamping bar 270, has been activated such that the clamping bar 270 has been lowered, by means of the piston rod 268, so as to be engaged in contact with the idler roller 274 and thereby form therewith the aforenoted stop mechanism against which the forward edge portion of the packaging structure is now engaged in preparation for the commencement of a cutting or slitting operation. Accordingly, when the cutting or slitting operation is in fact ready to be commenced, the operator will push the START button 242 upon the programmable logic controller (PLC) display panel 244, and at this time, the programmable logic controller (PLC) 246 will activate the air cylinder 266 so as to retract the piston rod 268 thereof and thereby disengage the clamping bar 270 from the idler roller 274.
At substantially the same time, the programmable logic controller (PLC) 246 will activate the air cylinder 296 so as to cause the driven roller to be disposed in contact with the infeed drive roller 288. In addition, the programmable logic controller (PLC) 246, within the memory bank or database of which has been previously stored the specific parameters of the particular packaging structure being processed, such as, for example, the precise positions at which the pairs of slits 118-124,120-126,132-136 and 134-138 are to be formed within the side wall members 114,116 of the packaging structure 110, will activate the stepper motor 290 so as to rotate the infeed drive roller 288, and the driven roller 292 engaged therewith, whereby the packaging structure 110 will be fed into the machine 212. The edge sensor 282 will also detect the leading edge portion of the packaging structure 110 and will transmit a suitable signal to the programmable logic controller (PLC) 246, and concomitantly therewith, the rotary encoder 284 will also transmit suitable signals to the programmable logic controller (PLC) 246 concerning the actual lineal length that the packaging structure 110 has travelled past the rotary encoder 284. The programmable logic controller (PLC) 246 will therefore operatively control the stepper motor 290 so as to terminate the operation thereof when the packaging structure 110 has been fed the precise distance into and through the machine 212 such that the position, at which the first pair of cuts or slits 118-124 are to be formed, has been reached. Accordingly, further conveyance or advancement of the packaging structure 110 within the machine 212 is halted or terminated, and the air cylinder 266 is once again activated so as to extend the piston rod 268 and thereby effectively move and lower the clamping bar 270 into contact with the idler roller 274 whereby the packaging structure 110 will be clamped therebetween.
Subsequently, the programmable logic controller (PLC) 246 will activate the air cylinder 364 so as to extend and lower the piston rod 366 thereof whereby the carriage plate 330, upon which the circular saw blade assemblies 300, 300 are fixedly mounted, will likewise be lowered from their ELEVATED, INOPERATIVE positions or states to their LOWERED, OPERATIVE positions or states, the air drive motors 322,322 will be actuated so as to rotate the circular saw blade members 316,316, and the first pair of cuts or slits 118-124 will therefore be simultaneously formed within the oppositely disposed side wall members 114,116 of the packaging structure 110. When the carriage plate 330 reaches its lowermost position, it is noted that the male and female scoring dies 354, 360 will also form the score line 128 within the upper wall member 112 of the packaging structure 110. Upon completion of the downward stroke of the piston rod 366, the carriage plate 330, and the circular saw blade assemblies 300,300, and the completion of the cutting or slitting operation, the programmable logic controller (PLC) 246 will terminate the air drive motors 322,322 and will activate the air cylinder 364 so as to retract the piston rod 366 thereof back to its original position whereby the carriage plate 330 and the circular saw blade assemblies 300,300 will likewise be returned to their original ELEVATED, INOPERATIVE positions. At this point in time, the programmable logic controller (PLC) 246 will activate the air cylinder 266 so as to retract the piston rod 268 whereby the clamping bar 270 is disengaged from the idler roller 274, and the stepper motor 290 will be activated so as to rotate the infeed drive roller 288 in order to advance or convey the packaging structure 110 the next predetermined distance at which the next pair of cuts or slits 120-126 are to be formed.
The entire cycle is then of course repeated until the last pair of cuts or slits 134-138 are formed within the side wall members 114,116 of the packaging structure 110, the only significant difference in the operative cycle being the fact that, after the stepper motor 290 and the infeed drive roller 288 have advanced or conveyed the packaging structure to its position at which the last pair of cuts or slits 134-138 are to be formed, the stepper motor 290 and the infeed drive roller 288 are not re-activated in order to effectively discharge the completed packaging structure 110 from the machine 212. The reason for this is that the stepper motor 288 and the infeed drive roller 288 are only activated in a substantially intermittent manner in order to advance or convey the packaging structure 110 for predetermined distances corresponding to the locations or positions at which the pairs of cuts or slits 118-124,120-126,132-136 and 134-138 are to be formed. Therefore, upon completion of the formation of the last pair of cuts or slits 134-138, the programmable logic controller (PLC) 246 will activate the outfeed drive motor 302, and will also activate the air cylinder mechanism 312 so as to effectively elevate the driven roller 308 into engagement with the outfeed drive roller 306 rotatably mounted upon the output drive shaft of the outfeed drive motor 302 such that the completed packaging structure 110 will be discharged from the semi-automatic cutting or slitting machine 212 and thereby be ready to be folded into its packaging container state.
It is to be lastly noted that in conjunction with each one of the circular saw blade members 316,316, there is provided a guide member 402,402, as best seen in
Thus, it may be seen that in accordance with the principles and teachings of the present invention, there has been provided a new and improved semi-automatic cutting or slitting machine, comprising a pair of oppositely disposed, vertically movable, circular saw blade assemblies for forming pairs of oppositely disposed cuts or slits at predetermined axially located positions within side wall members of a packaging structure so as to render the sections of the packaging structure articulated and foldable with respect to each other in order to form an enclosed packaging container. The movement of the circular saw blade assemblies, and the various components operatively associated therewith, are controlled by means of a suitable programmable logic controller (PLC).
Obviously, many variations and modifications of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the present invention may be practiced otherwise than as specifically described herein.
Claims
1. Apparatus for forming slits within an elongated structure, so as to fabricate the elongated structure in integrally connected, articulated sections, comprising:
- a conveyor path along which an elongated structure can be conveyed;
- cutting means, disposed at a cutting station defined at a predetermined position along said conveyor path and movable between a first ELEVATED, INOPERATIVE position and a second LOWERED, OPERATIVE position, for cutting slits within an elongated structure;
- means for conveying the elongated structure along said conveyor path in an intermittent manner so as to successively dispose longitudinally spaced locations of the elongated structure at said cutting station; and
- means for repetitively moving said cutting means between said first ELEVATED, INOPERATIVE position and said second LOWERED, OPERATIVE position such that said cutting means can successively cut slits within the elongated structure at the longitudinally spaced locations of the elongated structure so as to fabricate the elongated structure in integrally connected, articulated sections.
2. The apparatus as set forth in claim 1, wherein:
- said cutting means comprises a pair of oppositely disposed cutting mechanisms for cutting a pair of slits within oppositely disposed sides of the elongated structure.
3. The apparatus as set forth in claim 2, wherein said means for repetitively moving said cutting means between said first ELEVATED, INOPERATIVE position and said second LOWERED, OPERATIVE position comprises:
- a framework;
- a carriage mechanism;
- means for mounting said pair of oppositely disposed cutting mechanisms upon said carriage mechanism;
- means mounted upon said framework and operatively connected to said carriage mechanism for moving said carriage, and said pair of oppositely disposed cutting mechanisms upon said carriage mechanism, between said first ELEVATED, INOPERATIVE position and said second LOWERED, OPERATIVE position.
4. The apparatus as set forth in claim 3, further comprising:
- means for adjustably mounting said pair of oppositely disposed cutting mechanisms upon said carriage mechanism at one of a plurality of predetermined positions such that said pair of oppositely disposed cutting mechanisms can cut slits within different elongated structures having different width dimensions.
5. The apparatus as set forth in claim 4, further comprising:
- means for removably mounting one of a plurality of differently sized pairs of cutting dies, having slots defined therein for respectively accommodating said pair of oppositely disposed cutting mechanisms, upon said framework so as operatively cooperate with said pair of oppositely disposed cutting mechanisms when said pair of oppositely disposed cutting mechanisms are disposed at any one of said plurality of predetermined positions.
6. The apparatus as set forth in claim 3, wherein:
- said means for conveying the elongated structure along said conveyor path in an intermittent manner, so as to successively dispose the longitudinally spaced locations of the elongated structure at said cutting station, comprises a stepper motor mounted upon said framework, an infeed drive roller operatively connected to said stepper motor, and a first driven roller operatively engageable with said infeed drive roller;
- edge sensor means is mounted upon said framework for detecting the forward edge portion of the elongated structure;
- rotary encoder means is mounted upon said framework for determining how far the elongated structure has been conveyed by said stepper motor; and
- a programmable logic controller (PLC) is mounted upon said framework for controlling said stepper motor in response to signals transmitted from said edge sensor means and said rotary encoder means.
7. The apparatus as set forth in claim 6, further comprising:
- outfeed drive motor means, mounted upon said framework and operatively connected to said programmable logic controller (PLC), for discharging the elongated structure when all slits have been cut within the elongated structure;
- an outfeed drive roller operatively connected to said outfeed drive motor means; and
- a second driven roller operatively engageable with said outfeed drive roller.
8. The apparatus as set forth in claim 7, further comprising:
- means for moving said first and second driven rollers between a first position, at which said first and second driven rollers are disposed in engagement with said infeed and outfeed drive rollers such that said infeed and outfeed drive rollers and said first and second driven rollers can respectively convey the elongated structure along said conveyor path, and a second position at which said first and second driven rollers are disengaged from said infeed and outfeed drive rollers such that said infeed and outfeed drive rollers and said first and second driven rollers cannot respectively convey the elongated structure along said conveyor path.
9. The apparatus as set forth in claim 5, further comprising:
- scoring dies mounted upon said carriage mechanism and said cutting dies so as to score the elongated structure at positions corresponding to the longitudinally spaced locations of the elongated structure at which the slits are cut within the elongated structure.
10. Apparatus for forming slits within an elongated structure, so as to fabricate the elongated structure in integrally connected, articulated sections, comprising:
- an elongated structure;
- a conveyor path along which said elongated structure can be conveyed;
- cutting means, disposed at a cutting station defined at a predetermined position along said conveyor path and movable between a first ELEVATED, INOPERATIVE position and a second LOWERED, OPERATIVE position, for cutting slits within said elongated structure;
- means for conveying said elongated structure along said conveyor path in an intermittent manner so as to successively dispose longitudinally spaced locations of said elongated structure at said cutting station; and
- means for repetitively moving said cutting means between said first ELEVATED, INOPERATIVE position and said second LOWERED, OPERATIVE position such that said cutting means can successively cut slits within said elongated structure at said longitudinally spaced locations of said elongated structure so as to fabricate said elongated structure in integrally connected, articulated sections.
11. The apparatus as set forth in claim 10, wherein:
- said cutting means comprises a pair of oppositely disposed cutting mechanisms for cutting a pair of slits within oppositely disposed sides of said elongated structure.
12. The apparatus as set forth in claim 11, wherein said means for repetitively moving said cutting means between said first ELEVATED, INOPERATIVE position and said second LOWERED, OPE-RATIVE position comprises:
- a framework;
- a carriage mechanism;
- means for mounting said pair of oppositely disposed cutting mechanisms upon said carriage mechanism;
- means mounted upon said framework and operatively connected to said carriage mechanism for moving said carriage, and said pair of oppositely disposed cutting mechanisms upon said carriage mechanism, between said first ELEVATED, INOPERATIVE position and said second LOWERED, OPERATIVE position.
13. The apparatus as set forth in claim 12, further comprising:
- means for adjustably mounting said pair of oppositely disposed cutting mechanisms upon said carriage mechanism at one of a plurality of predetermined positions such that said pair of oppositely disposed cutting mechanisms can cut slits within different elongated structures having different width dimensions.
14. The apparatus as set forth in claim 13, further comprising:
- means for removably mounting one of a plurality of differently sized pairs of cutting dies, having slots defined therein for respectively accommodating said pair of oppositely disposed cutting mechanisms, upon said framework so as operatively cooperate with said pair of oppositely disposed cutting mechanisms when said pair of oppositely disposed cutting mechanisms are disposed at any one of said plurality of predetermined positions.
15. The apparatus as set forth in claim 12, wherein:
- said means for conveying said elongated structure along said conveyor path in an intermittent manner, so as to successively dispose said longitudinally spaced locations of said elongated structure at said cutting station, comprises a stepper motor mounted upon said framework, an infeed drive roller operatively connected to said stepper motor, and a first driven roller operatively engageable with said infeed drive roller;
- edge sensor means is mounted upon said framework for detecting the forward edge portion of said elongated structure;
- rotary encoder means is mounted upon said framework for determining how far said elongated structure has been conveyed by said stepper motor; and
- a programmable logic controller (PLC) is mounted upon said framework for controlling said stepper motor in response to signals transmitted from said edge sensor means and said rotary encoder means.
16. The apparatus as set forth in claim 15, further comprising:
- outfeed drive motor means, mounted upon said framework and operatively connected to said programmable logic controller (PLC), for discharging said elongated structure when all slits have been cut within said elongated structure;
- an outfeed drive roller operatively connected to said outfeed drive motor means; and
- a second driven roller operatively engageable with said outfeed drive roller.
17. The apparatus as set forth in claim 16, further comprising:
- means for moving said first and second driven rollers between a first position, at which said first and second driven rollers are disposed in engagement with said infeed and outfeed drive rollers such that said infeed and outfeed drive rollers and said first and second driven rollers can respectively convey said elongated structure along said conveyor path, and a second position at which said first and second driven rollers are disengaged from said infeed and outfeed drive rollers such that said infeed and outfeed drive rollers and said first and second driven rollers cannot respectively convey said elongated structure along said convey- or path.
18. The apparatus as set forth in claim 14, further comprising:
- scoring dies mounted upon said carriage mechanism and said cutting dies so as to score said elongated structure at positions corresponding to said longitudinally spaced locations of said elongated structure at which said slits are cut within said elongated structure.
19. A method for forming slits within an elongated structure, so as to fabricate the elongated structure in integrally connected, articulated sections, comprising:
- providing a conveyor path along which an elongated structure can be conveyed;
- positioning cutting means at a cutting station defined at a predetermined position along said conveyor path;
- conveying said elongated structure along said conveyor path such that a first location of said elongated structure, at which a first slit is to be formed, is positioned at said cutting station;
- moving said cutting means from a first ELEVATED, INOPERATIVE position to a second LOWERED, OPERATIVE position so as to cut said first slit within said elongated structure at said first location;
- moving said cutting means from said second LOWERED, OPERATIVE position back to said first ELEVATED, INOPERATIVE position;
- conveying said elongated structure along said conveyor path such that a second location of said elongated structure, longitudinally spaced from said first location of said elongated structure and at which a second slit is to be formed, is positioned at said cutting station;
- moving said cutting means from said first ELEVATED, INOPERATIVE position to said second LOWERED, OPERATIVE position so as to cut said second slit within said elongated structure at said second location;
- whereby a plurality of slits are formed within said elongated structure at longitudinally spaced locations of said elongated structure so as to fabricate said elongated structure in integrally connected, articulated sections.
20. The method as set forth in claim 19, further comprising the step of:
- simultaneously scoring said elongated structure at said first and second longitudinally spaced locations so as to facilitate folding of said integrally connected, articulated sections with respect to each other.
Type: Application
Filed: Sep 22, 2004
Publication Date: Mar 23, 2006
Applicant:
Inventors: Anatoly Gosis (Palatine, IL), Richard Edwards (Cary, IL), Michael Loeschen (Hawthorn Woods, IL), Ron Gustafson (Woodridge, IL)
Application Number: 10/946,079
International Classification: B65H 35/02 (20060101);