The present invention relates generally to boxes, and more specifically, in accordance with one example embodiment, to an apparatus and method for sealing boxes.
There are countless ways to package products. One such way is the use of a box, an example of which is shown in
A bottom 12 of the box 10 is formed from first bottom flap 12a, second bottom flap 126, third bottom flap 12c and fourth bottom flap 12d. Typically, the second bottom flap 12b and the fourth bottom flap 12d and folded toward each other until they are positioned perpendicular to the sides 14. Then, the first bottom flap 12a and the third bottom flap 12c are likewise folded toward each other until they also are positioned perpendicular to the sides 14. The first bottom flap 12a and the third bottom flap 12c are usually sized so that the edge 12e of the first bottom flap 12a abuts the edge 12f of the third bottom flap 12c. In order to maintain the edge 12e of the first bottom flap 12a in abutment with the edge 12f of the third bottom flap 12c, the edges 12e and 12f are typically stapled together. More specifically, a plurality of staples are employed along the lengths of the edges 12e and 12f, such that a first prong of each staple penetrates and fastens the edge 12e of the first bottom flap 12a, and a second prong of each staple penetrates and fastens the edge 12f of the third bottom flap 12c.
Once the bottom of the box 10 has been fastened, the box 10 can be filled with any conceivable type of product. Once filled, the box 10 can then be closed and sealed. In order to seal the box, a top 16 of the box 10 is formed from a first top flap 16a, a second top flap 16b, a third top flap 16c and a fourth top flap 16d. Typically, the second top flap 16b and the fourth top flap 16d are folded toward each other until they are positioned perpendicular to the sides 14. Then, the first top flap 16a and the third top flap 16c are likewise folded toward each other until they also are positioned perpendicular to the sides 14. Again, the first top flap 16a and the third top flap 16c are usually sized so that the edge 16e of the first top flap 16a abuts the edge 16f of the third top flap 16c. In order to maintain the edge 16e of the first top flap 16a in abutment with the edge 16f of the third top flap 16c, the edges 16e and 16f are typically stapled together, whereby a plurality of staples are employed along the lengths of the edges 16e and 16f, such that a first prong of each staple penetrates and fastens the edge 16e of the first bottom flap 16a, and a second prong of each staple penetrates and fastens the edge 16f of the third bottom flap 16c.
The conventionally employed method for sealing boxes, as described above, is labor-intensive in that the staples must be individually applied. In addition, this method is ineffective in that the boxes are inadequately sealed, e.g., there is space along the edges 16e and 16f in between the staples through which products may leak out of or escape from the box, or through which other substances may leak into or enter the box. Furthermore, the method is unsafe, in that the prongs of the staples may injure persons that are applying the staples to seal the box or persons that are opening the box. Also, the method is unsanitary. For instance, the staples that are employed may inadvertently puncture the products, such as food, inside the box. In addition, if the product or products in the box-is food wrapped in individual packaging, the puncturing of the packaging may cause the food to spoil, creating health risks to consumers and causing economic loss to the producer of the food. In addition, the staples may oxidize or rust and thereby contaminate the food in the box, creating additional health problems and economic losses.
Thus, there is a need for an improved method and apparatus for sealing boxes.
One example embodiment of the present invention relates to an apparatus for sealing a box that has four top flaps initially disposed in an open position. The apparatus includes a conveying system for conveying the box from a first end of the apparatus to a second end of the apparatus. The apparatus also includes a flap folding system for folding the top flaps of the box into folded and horizontal positions as the box is conveyed from a first end of the apparatus to a second end of the apparatus. More specifically, the flap folding system includes a first flap folding member, a second flap folding member and a pair of oppositely disposed side flap folding members. The first flap folding member is configured to fold a fourth top flap of the box. The second flap folding member is configured to fold a second top flap of the box. The pair of oppositely disposed side flap folding members are configured to fold a first and third top flaps of the box so as to abut each other. The apparatus also includes a tape dispensing system. The tape dispensing system is configured to dispense tape across at least a portion of the third and fourth top flaps of the box in order to maintain the third and fourth top flaps in abutment with each other, thereby sealing the box.
The apparatus, according to one example embodiment thereof, also includes a size determination system. The size determination system may employ sensors and a processor, and is configured to determine a size of the box to be sealed. The size determination system may include a width sensor configured to determine a width of the box to be sealed, and size data obtained from the width sensor may be employed to adjust the width of a pair of side conveyors which convey the box through the box sealing apparatus. Advantageously, the width of the pair of the conveyors is adjusted so as to correspond to the width of the box to be sealed. The size determination system may also include a height sensor configured to determine a height of the box to be sealed, and size data obtained from the height sensor may be employed to adjust the height of a carriage to which is connected the tape dispenser and the second end of the side flap folding members. Advantageously, the height of the carriage is adjusted so as to correspond to the height of the box to be sealed.
The present invention, in accordance with one example embodiment, relates to an apparatus and method for sealing boxes. The apparatus described below may be employed to seal any side of a box—however, for the purposes of clarity only, the apparatus and method will be described hereinafter as sealing a top of a box which has already had its bottom sealed and which has already been filled with products. However, the present invention, in accordance with various embodiments thereof, may also be employed to seal the bottom of a box, before the box is filled, as will be evident from the discussion below.
As shown in
For the purposes of illustration, once the bottom of the box 100 has been fastened, the box 100 can be filled with any conceivable type of product. Once filled, the top flaps of the box 100 can then be sealed by employing the method and apparatus of the present invention, as described below. The top flaps 116 of the box 100 includes first top flap 116a having a top edge 116e, second top flap 116b having a top edge 116f, third top flap 116c, and fourth top flap 116d having a bottom edge 116g. When unsealed, the first top flap 116a, the second top flap 116b, the third top flap 116c and the fourth top flap 116d of the top 116 of the box 100 are unrestrained and free to move relative to the corresponding sides 114 which they are connected to.
The box sealing apparatus 200 may also include a size determination system 230 for determining the size of the box to be sealed. Advantageously, the size determination system 230 includes a width sensor 232 for determining the width of the box 100, a height sensor 234 for determining the height of the box 100, and a length sensor 236 for determining the length and/or position of the box 100. The width sensor 232, the height sensor 234 and the length sensor 236 are coupled to a processor 240 which is configured to process the data received from the width sensor 232, the height sensor 234 and the length senor 236, as described more fully in connection with
The box sealing apparatus 200 may also include a conveying system 220 for conveying the box 100 from the first end 200a of the box sealing apparatus 200 (at which the box is unsealed) through the box sealing apparatus 200 to a second end 200b of the box sealing apparatus 200 (at which the box has been sealed). In accordance with the example embodiment of the invention shown in
According to one example embodiment of the present invention, the first side conveyor 224 and the second side conveyor 226 are adjustable so as to accommodate boxes of various different widths. In this embodiment, the first side conveyor 224 is coupled to a first side conveyor adjustment mechanism 225 which is configured to adjust the first side conveyor 224. Similarly, the second side conveyor 226 is coupled to a second side conveyor adjustment mechanism 227 which is configured to adjust the second side conveyor 226. Advantageously, the first side conveyor adjustment mechanism 225 and the second side conveyor adjustment mechanism 227 are coupled to the processor 240, which processes the data received from the width sensor 232 of the size determination system 230 and which controls the adjustment of the first side conveyor adjustment mechanism 225 and the second side conveyor adjustment mechanism 227 accordingly.
The box sealing apparatus 200 may also include a flap folding system 250 for folding the top flaps of the box to be sealed. In accordance with the example embodiment of the invention shown in
The flap folding system 250 also includes a second flap folding member 254. The second flap folding member 254 includes a hammer 255 pivotably mounted via a pivot 253 to the box sealing apparatus 200. The second flap folding member 254 may be pivotably connected at the pivot 253 at a predetermined height (as shown in
In accordance with the example embodiment of the invention shown in
According to one example embodiment of the present invention, the carriage 258 to which the second end 2561b of the first side flap folding member 2561 and the second end 2562b of the second side flap folding member 2562 are connected is adjustable so as to accommodate boxes of various different heights. In this embodiment, the carriage 258 is coupled to a carriage adjustment mechanism 259 which is configured to adjust the carriage 258. Advantageously, the carriage adjustment mechanism 259 is coupled to the processor 240, which processes the data received from the height sensor 234 of the size determination system 230 and which controls the adjustment of the carriage adjustment mechanism 259 accordingly.
The box sealing apparatus 200 may also include a tape dispensing system 260 for dispensing tape onto the box to be sealed. In accordance with the example embodiment of the invention shown in
Next is described the operation of the box sealing apparatus 200 (in accordance with the example embodiment of the present invention shown in
Once the conveyors of the conveying system 220 are appropriately adjusted, the first conveyor 222, the first side conveyor 224 and the second side conveyor 226 convey the box 100 from the first end 200a of the box sealing apparatus 200 into the box sealing apparatus 200 toward the second end 200b of the box sealing apparatus 200. Upon entering the box sealing apparatus 200, the vertical face 252a of the first flap folding member 252 engages the fourth top flap 116d of the box 100. As the box 100 moves through the box sealing apparatus 200, the fourth top flap 116d of the box 100 is gradually folded over by its contact with the vertical face 252a until the fourth top flap 116d eventually contacts the horizontal face 252b of the first flap folding member 252. The horizontal face 252b of the first flap folding member 252 maintains the top flap 116d in the folded position, whereby the top flap 116d is substantially perpendicular to the side 114d.
Similarly, as the box 100 moves through the box sealing apparatus 200, the hammer 255 of the second flap folding member 254 is caused to pivot between its first position and its second position. Specifically, the hammer 255 of the second flap folding member 254 is maintained in its first position above of the top flaps 116 of the box 100 until the top flap 116b has traveled past the length sensor 236. According to one example embodiment of the present invention, the length sensor 236 of the box sealing apparatus 200 provides an indication that the box 100 is in the appropriate position to activate the movement of the hammer 255. Once the box 100 is in this position, the hammer 255 is caused (such as by gravity, pneumatic controls, electro-mechanical controls, etc.) to pivot around the pivot point 253 and contacts the second top flap 116b in order to move it into the folded position, whereby the top flap 116b is perpendicular to the second side 114b and is folded toward the fourth side 114d. After the hammer 255 is in the second position, its folding surface 255a is in a substantially horizontal orientation at a relative height substantially the same as the horizontal face 252b of the first flap folding member 252. The folding surface 255a of the hammer 255 maintains the second top flap 116b in the perpendicular position until, by the conveyance of the box 100 toward the second end 200b of the box sealing apparatus 200, the top flap 116b is positioned beneath the horizontal face 252b of the first flap folding member 252. Once the second top flap 116b is positioned beneath the horizontal face 252b of the first flap folding member 252, the horizontal face 252b of the first flap folding member 252 maintains the second top flap 116b in the perpendicular, folded position.
In addition, when the box 100 enters the first end 200a of the box sealing apparatus 200, the first top flap 116a, which is initially disposed in a substantially vertical position, engages the first end 2561a of the first side flap folding member 2561. Simultaneously, when the box 100 enters the first end 200a of the box sealing apparatus 200, the third top flap 116c, which is initially disposed in a substantially vertical position, engages the first end 2562a of the second side flap folding member 2562. As the box 100 moves through the box sealing apparatus 200, the first top flap 116a moves towards the horizontally-disposed second end 2561b of the first side flap folding member 2561, thereby gradually being folded over until it is maintained in a horizontal position. Likewise, as the box 100 moves through the box sealing apparatus 200, the third top flap 116c moves towards the horizontally-disposed second end 2562b of the second side flap folding member 2562, thereby gradually being folded over until it too is maintained in a horizontal position. Thus, all four top flaps 116 of the box 100 are thereby folded over horizontally, such that the second top flap 116b and the fourth top flap 116d are disposed beneath the first top nap 116a and the third top flap 116c.
As explained previously, when the box 100 is in this closed position, the edge 116e of the first top flap 116a advantageously abuts the edge 116f of the third top flap 116c. Thus, once the first top flap 116a and the third top flap 116c of the box 100 are disposed in the horizontal, folded positions, the advancement of the box 100 through the box sealing apparatus 200 causes the fourth side 114d of the box 100 to contact the tape dispensing system 260. As previously explained, the tape dispensing system 260 is configured so as to initially maintain a first end 261a of tape 261 at a predetermined distance (e.g., preferably several inches) below the top edge 116g of the box 100, thereby affixing the first end 26] a of the tape 261 to the outside surface of the fourth side 114d of the box 100. The tape dispensing system 260 is then lifted by the box 100 so that the tape 261 is disposed on the top of the box 100. As the box 100 is moved through the box sealing apparatus 200, the tape 261 is unwound from the tape reel 262, and is pressed into adhesive contact with the first top flap 116a and the third top flap 116c of to box 100. Advantageously, the tape 261 is pressed into adhesive contact with the first top flap 116a and the third top flap 116c of the box 100 such that a first half of the width of the tape 261 is pressed into adhesive contact with the first top flap 116a along edge 116e, and a second half of the width of the tape 261 is pressed into adhesive contact with the third top flap 116c along edge 116f. When the entire lengths of edges 116e and 116f have been taped, the tape dispensing system 260 is lowered back to its initial position, thereby affixing a predetermined length of the tape 261 to the outside surface of the second side 114b of the box 100. The tape is cut at this predetermined length by the tape cutter 264, and the tape dispensing system 260 is thereby returned to its original position awaiting the next box to be passed through the box sealing apparatus 200.
Once the box 100 has been taped along the fourth side 114d, the first top flap 116a, the third top flap 114c and the second side 114b, the box 100 is sealed and is thereby further conveyed by the conveying system 220 out of the second end 200b of the box sealing apparatus 200. Once the sealed box 100 has exited the box sealing apparatus 200, the box 100 may be moved to another location for further processing, loaded onto trucks for transport, etc.
As shown in
The processor 304 is coupled to the adjustment means 306, which in turn is coupled to the adjustable components of the box sealing apparatus 200. The adjustment means 306 is made up of at least one adjustment mechanism for adjusting components of the box sealing apparatus 200. In the example embodiment illustrated in
The processor 304 is also coupled, in accordance with one example embodiment of the present invention, to the actuation means 308, which in turn is coupled to the actuatable components of the box sealing apparatus 200. The actuation means 308 is made up of at least one actuation mechanism for actuating components of the box sealing apparatus 200. In the example embodiment illustrated in
Generally, the processor 304 is configured to process the data received from the sensor system 302 and to generate appropriate instructions or signals to adjustment means 306 and/or to actuation means 308. It is recognized, however, that the box sealing apparatus 200 discussed herein may also have a myriad of additional features which are controlled by the processor 304, whereby the processor 304 receives data from the box sealing apparatus 200 and transmits corresponding signals back to the apparatus in response thereto or transmits the corresponding signals to a separate system for further processing (e.g., in accordance with another example embodiment of the present invention, the processor 306 may be configured to track inventory such as by counting the number and size of the boxes which are sealed thereby). For instance, in accordance with one example embodiment of the present invention, the processor 306 may be configured to switch between manual and automatic operations, in accordance with the selection of one of these modes by a user via a mode selection switch (not shown). Furthermore, in accordance with another example embodiment of the present invention, the processor 306 may be configured to switch between forward and reverse directions of operation, in accordance with the selection of one of these directions by a user via a direction selection switch (not shown). Also, in accordance with still another example embodiment of the present invention, the processor 306 may be configured to switch between different speeds of operation, in accordance with the selection of a particular speed by a user via a speed selection switch (not shown). As previously mentioned, the processor 306 may include a computer programmed to operate the box sealing apparatus in accordance with the switch settings selected by a user, or else, the processor 306 may include a combination of relay switches and solenoid valves (such as are illustrated in
Generally,
The present invention, according to the example embodiments described herein, may help alleviate some of the problems which are experienced by the conventional methods of sealing boxes. For instance, and as previously mentioned, the conventionally employed method of stapling boxes closed is labor-intensive in that the staples must be individually applied. By contrast, the box sealing apparatus 200 of the present invention, according to the example embodiment described herein, eliminates the need to individually apply each staple to the box because it automates the process of sealing the boxes.
In addition, and as previously mentioned, the conventionally employed method of stapling boxes closed is ineffective in that the boxes are inadequately sealed. More specifically, referring to the box 10 illustrated in
Furthermore, and as previously mentioned, the conventionally employed method of stapling boxes closed is unsafe, in that the prongs of the staples may injure persons that are applying the staples to seal the box. In addition, the prongs of the staples may injure persons that are opening the box. By contrast, the box sealing apparatus 200 of the present invention, according to the example embodiments described herein, is more safe, in that no staples, and thus no prongs, are employed to seal the box. Instead, the present invention, according to the example embodiments described herein, employs tape which has no sharp edges or points that can injure a person that handles the box.
Finally, and as previously mentioned, the conventionally employed method of stapling boxes closed is unsanitary. For instance, if the product or products in the box is food which is unwrapped, the staples that are employed may inadvertently puncture the products inside the box. In addition, if the products in the box is food wrapped in individual packaging, the puncturing of the packaging may cause the food to spoil. Also, the staples may oxidize or rust and thereby contaminate the products in the box. Any of these occurrences may create health risks to consumers and may cause economic loss to the producer of the food. By contrast, the box sealing apparatus 200 of the present invention, according to the example embodiments described herein, is more sanitary, in that no staples are present to puncture either products or packaging within the box or to contaminate the contents of the box with rust or oxidation. Instead, the present invention, according to the example embodiments described herein, employs tape 261 on the outside of the box 200 only, and which does not penetrate into the box 200.
Thus, the several aforementioned objects and advantages of the present invention are most effectively attained. Those skilled in the art will appreciate that numerous modifications of the exemplary embodiment described hereinabove may be made without departing from the spirit and scope of the invention. Although a single exemplary embodiment of the present invention has been described and disclosed in detail herein, it should be understood that this invention is in no sense limited thereby and that its scope is to be determined by that of the appended claims.
This application is a Divisional of U.S. patent application Ser. No. 09/999,555, filed on Nov. 30, 2001 now U.S. Pat. No. 7,140,165, entitled APPARATUS AND METHOD FOR SEALING BOXES, which is incorporated herein by reference in its entirety.
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Number | Date | Country | |
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20070157546 A1 | Jul 2007 | US |
Number | Date | Country | |
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Parent | 09999555 | Nov 2001 | US |
Child | 11605725 | US |