Claims
- 1. In apparatus for moving the front and rear top flaps of an upwardly open packing case away from their folded positions alongside the front and rear end panels of a packing case while the case is moving, said apparatus including conveyor means for moving the case in a horizontal path, the improvement comprising transversely opposed flap folding chains, said chains provided on either side of said case path, and having active runs moving downstream at the same horizontal speed as that of the cases, at least one flap engageable tucker provided pivotally on each chain and cam track means for engaging portions of said flap tuckers, portions of said tuckers moving upwardly into the path of said cases as the tucker moves in the downstream direction to selectively contact the case front and rear end walls for locating the case therebetween and for folding the front and rear top flaps of the case.
- 2. The apparatus of claim 1 wherein said cam track means associated with both chains for engaging portions of said flap tuckers serves to pivot them away from the front and rear end panels of the case as said tuckers are moved by said chains, and spring biasing means to urge said flap tuckers toward the case end panels.
- 3. In an apparatus for handling packing cases so as to provide a separation between adjacent packing cases in a line of end-to-end cases, and for folding at least the front and rear top flaps thereof after the case has been loaded, the improvement comprising an infeed flight bar conveyor having transverse flight bars defining a case path in which the flight bars move at a speed S which varies cyclically between an upper limit determined by the speed of movement of the cases through the machine S2 and a lower limit speed S1, said infeed flight bars spaced apart by a distance D1 on said infeed conveyor and driven at said variable speed S in synchronized relationship with the speed S2, which limit speeds are related to one another in accordance with the relationship S1 over S2 is less than or equal to D1 over D2 where D2 equal the spacing between the cases moving through the apparatus, said improvement further including means for moving the front and rear top flaps of the packing case away from their folded positions alongside the front and rear end panels thereof, said improvement including transversely opposed flap folding chains, said chains provided on either side of said case path, and having active runs moving downstream at the same horizontal speed as that of the case (S) at least one flap engageable tucker provided pivotally on each chain, and cam track means for engaging portions of said flap tuckers, portions of said tuckers moving upwardly into the path of said cases as the tucker moves in a downstream direction to selectively contact the case front and rear endwalls for locating the case therebetween and for folding the front and rear top flaps of the case.
- 4. The apparatus of claim 3 wherein said infeed conveyor has an upper run of sufficient length to provide for approximately one and on-half (11/2) cycles of speed change for each said flight bar during its contact with a particular case being fed into a particular pocket of said pocket conveyor.
- 5. The apparatus of claim 4 wherein said speed S of each infeed flight bar moving through said upper run varies from said low limit speed S1 upon initial contact with a case entering said infeed conveyor through said maximum speed S2 and decreases to said low limit speed S1 to again return to said maximum speed at the downstream end of said upper run of said infeed conveyor.
- 6. The apparatus of claim 5 wherein said flight bar spacing D1 is less than the longitudinal in-line dimension of the packing cases to be separated so that the forward end of each case moving into the infeed station engages.the rear of one flight bar lifts that case slightly whereby the line of cases is held back until the said one flight bar moves downwardly out of said upper run which defines the path of the cases on said infeed flight bar conveyor.
- 7. The apparatus of claim 6 further characterized by auxiliary means at said infeed station between the downstream end of said infeed flight bar conveyor means and the upstream end of said pocket chain conveyor, said auxiliary means controlling each case as it is moved off said infeed flight bar coveyor and into a pocket on said pocket conveyor.
- 8. The apparatus of claim 7 wherein said auxiliary means at said infeed station comprises side belts which are driven at a lineal speed at least approximately equal to the speed S2 of said pocket conveyor, said belts including active portions which move into contact with each case moving off said infeed flight bar conveyor and which portions move at substantially the same speed as the maxinum speed of said flight bars during said case movement into a pocket on said pocket conveyor.
CROSS REFERENCE TO RELATED APPLICATION
This application is a division of Ser. No. 254,638, filed Apr. 16, 1984, which was a division of Ser. No. 075,324, filed Sept. 12, 1979 now U.S. Pat. No. 4,291,518 issued Sept. 29, 1981.
US Referenced Citations (12)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1479168 |
May 1966 |
FRX |
Divisions (2)
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Number |
Date |
Country |
Parent |
254638 |
Apr 1984 |
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Parent |
75324 |
Sep 1979 |
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