EP0078055A1 - Machine à emballer automatiquement des couches d'articles dans une boîte - Google Patents

Machine à emballer automatiquement des couches d'articles dans une boîte Download PDF

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Publication number
EP0078055A1
EP0078055A1 EP82109927A EP82109927A EP0078055A1 EP 0078055 A1 EP0078055 A1 EP 0078055A1 EP 82109927 A EP82109927 A EP 82109927A EP 82109927 A EP82109927 A EP 82109927A EP 0078055 A1 EP0078055 A1 EP 0078055A1
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EP
European Patent Office
Prior art keywords
box
assembly
articles
loading
containers
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
EP82109927A
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German (de)
English (en)
Inventor
John L. Booth
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Booth Manufacturing Co
Original Assignee
Booth Manufacturing Co
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Filing date
Publication date
Application filed by Booth Manufacturing Co filed Critical Booth Manufacturing Co
Publication of EP0078055A1 publication Critical patent/EP0078055A1/fr
Ceased legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B43/00Forming, feeding, opening or setting-up containers or receptacles in association with packaging
    • B65B43/42Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up state; Feeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging position; Locating containers or receptacles at the filling position; Supporting containers or receptacles during the filling operation
    • B65B43/48Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up state; Feeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging position; Locating containers or receptacles at the filling position; Supporting containers or receptacles during the filling operation using reciprocating or oscillating pushers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B25/00Packaging other articles presenting special problems
    • B65B25/02Packaging agricultural or horticultural products
    • B65B25/04Packaging fruit or vegetables
    • B65B25/046Packaging fruit or vegetables in crates or boxes

Definitions

  • This invention relates to a machine and method for packaging articles, such as, fruit, a layer at a time, in containers.
  • a machine for automatically packaging layers of articles into containers comprises a multiple number of packing or loading stations, where separate layers of fruit are deposited into a container.
  • separator sheets between several of the layers which separator sheets serve not only to separate, but are impregnated with a chemical that serves as a disinfectant to facilitate preservation of the fruit.
  • separator sheets of this type are usually employed when the fruit is shipped great distances.
  • the packaging machine disclosed herein will in most cases not employ mechanisms for providing a separator sheet and it is to be clearly understood that the machine need not be provided with such a mechanism.
  • a layer of fruit in a nested pattern is provided in a container, such as, a carton, or box, and at several of the stations, separator sheets are provided between adjacent layers. While as aforementioned separator sheets need not be provided but in the situations where they are to be used, it is not necessary that the sheets be provided between all of the adjacent layers, but if that is desired, of course, the illustrated embodiment of the present invention can be modified to provide same.
  • the containers are indexed to the respective loading stations and after the container is completely loaded, the container is directed to a station where a container top is placed on the filled container in a telescoping relationship. While the illustrated machine employs a telescoping lid, other means, such as, flaps, can be used for closing the container.
  • empty containers are introduced into the machine and they are advanced in the requisite fashion to the various loading stations.
  • the containers are provided with a layer of fruit in a nested array, which fruit is received from a box nesting assembly into which fruit has been directed and subsequently nested.
  • the fruit is picked up from the nesting assembly, the nesting assembly is removed, and the fruit layer is then dropped into the container.
  • the design of the nesting assemblies is such that the adjacent layers are slightly offset from each other, so that not only the articles are nested within the layers, but are disposed in nested relationship between layers.
  • the machine has a total of four loading stations, but this is intended to be merely exemplary. Thus, if a container receives a layer at each loading station, the machine can provide for up to four separate layers in a container. If the size of the articles or containers dictates that more or less than four layers be provided, suitable arrangements can be made to provide filling in this manner.
  • the machine Since, as illustrated, the machine is set up to pack four layers of articles, it is set to deposit one layer at each of the four loading stations and each layer is deposited into a different one of four separate boxes. Each box then moves successively through each loading station, one at a time, and receives a layer at each loading station. Thus, a box receives one layer of articles at each station for each machine cycle, and accordingly the overall productivity of the machine is one filled box for each machine cycle during normal operation of the machine. This is a great advantage over various prior art devices that provide for loading only one layer of articles into a container for each machine cycle. Thus, the ivnention provides a way for packaging articles into containers efficiently and quickly.
  • FIG. 1 there is illustrated in outline form a fruit loading conveyor assembly 102 on which there is fruit 103 directed to four chute mechanisms 104 that lead to four separate loading stations 105a, 105b, 105c, 105d (see FIG. 3).
  • the loading conveyor 102 When the loading conveyor 102 is actuated, the fruit is advanced down through the chutes 104 in rows until they arrive at the position shown in FIG. 2, where they are stopped. The fruit in the rows are subsequently fed into nesting box assemblies 122 located under each of the chute assemblies.
  • the nesting box assemblies are moved to receive the fruit, as shown sequentially in FIGS. 4-7, the fruit is fed into the nesting box assembly, in the unnested position, as illustrated in FIG. 22.
  • the nesting box assembly is then operated to nest the fruit, as shown in FIG. 23.
  • the platen assemblies 106 which are located immediately above the nesting box assemblies when the nesting box assemblies are in the extended position, are lowered, as shown in FIG. 7, to pick up the fruit in the nested position from the nesting box assemblies and raise them above the nesting box after which the nesting box is returned to the position shown in FIG. 4.
  • the platen assemblies are then lowered into the containers 109, to deposit the fruit as shown in FIG. 5, after which they return to their upper position, as shown in FIG. 6.
  • a layer of fruit is then provided to each of the cartons at one of the stations. As shown in FIG. 3, the carton at station 105a receives its bottom layer, at station 105b its second layers, etc., which is accomplished by varying the downward movement of the platen assemblies.
  • the cartons to be loaded are fed into the packaging machine on a feed conveying system 108.
  • the containers 109 are indexed to move to another station, where another layer of fruit is removed from a nesting box assembly and dropped into the containers located at each of the stations, etc.
  • disinfectant separator sheets are introduced at stations 105b and 105c.
  • a vacuum box assembly 113 is secured to the nesting assemblies at stations 105b and 105c, which functions to pick up a separator sheet 124 and drop it into the container, as shown in FIG. 7 for station 105b.
  • a layer of fruit is disposed on top of the separator sheet, as illustrated in FIG. 6.
  • the containers move longitudinally through each of the stations, as shown in FIG. 3, they then end up being fully loaded at the final station 105d, after which they are moved to the end of the machine, as shown in FIG.
  • the filled and closed containers 117 are then taken away on a conveyor 114.
  • a chute adjusting assembly 118 for adjusting the position of chutes 104 and a stationery trough assembly 120 that act to guide the platen housings into the container 109 during the filling operation.
  • the indexing mechanism will be activated to move the new box from the loading station to 105a, which occurs as the containers in stations 105a, 105b, and 105c are moved to stations 105b, 105c, and 105d, respectively, and the movement of the container in station 105d into position to be moved into the box top telescoping assembly station 112.
  • FIGS. 14-19 there is illustrated a portion of the apparatus for indexing the boxes to the various stations where they are to be loaded with layers of fruit.
  • the boxes are disposed as illustrated in FIG. 3, where there is one box disposed at each of the stations.
  • the box in the last station 105d is completely filled with four layers of fruit; the box in the next-to-the-last station 105c with three layers, the box in the second station 105b with two layers, and the box in the first station 105a with one layer.
  • FIG. 3 there is illustrated a series of container bottoms with the container 109 immediately to the left of station 105 being located in the box loading station 126 in position to be indexed into the first station 105a.
  • the paddle assembly 200 for indexing the boxes through the various stations is illustrated in schematic outline form in FIG. 10.
  • the paddle assembly is an integrated unitary assembly which reciprocates and functions to move forwardly an amount to move the containers from one station to the next station and then rearwardly an amount slightly greater than the distance between stations to permit the pivotally mounted paddles to be returned to their upright positions so that after each container receives a layer of fruit at its respective station the paddle assembly can again be reciprocated to move the containers forwardly when the next indexing is to occur.
  • the pivotal design of the paddles is necessary since the paddles, when withdrawn, have to slide under a container located at a preceding station and have to have enough room to return to their vertical position so they may again engage the containers located at each of the stations.
  • the paddle assembly 200 is reciprocated in the stated manner by piston 212 and controlled in the proper sequence as will be explained when discussing the method of operation.
  • a container 109 to be loaded is moved onto a shelf 250 above the end of the paddle assembly 200 which will be called the container or box loading station 126, which is spaced from the first fruit loading station 105a by an amount essentially equal to the distance between fruit loading stations.
  • the box 109 is subsequently lowered into the paddle assembly, and the paddle assembly is indexed forward to move the box from the box loading station into the first fruit loading station 105a, and the other boxes in the machine from their existing station to the station further on down the line or to the exit of the machine as the case may be.
  • a new box is moved from the stack of boxes 128 behind the box loading station onto the platform shelf 250, above the paddle assembly as the paddle assembly is returned to its original position after indexing the boxes through succeeding stations.
  • FIG. 16 there is illustrated the box loading station 126 where box 109 is located on the box support shelf 250 above the paddle assembly 200.
  • the box has been moved onto the shelf 250 against stops 252 by a mechanism to be described later.
  • the piston assembly 254 is operated to move the kickplate 256 outwardly, as shown in FIG. 17, to move the arms 258 located on opposite sides of the support shelf 250 from the position shown in FIG. 16 to that shown in FIG. 17 to lower the box onto the paddle assembly.
  • arms 258 being pivotally mounted to the frame by pin 260 and connected to the support shelf by pin 262.
  • the lowered parallel movement of the box support 250 is additionally facilitated by providing a parallel linkage arrangement which includes links 264 located on opposite sides of the carton support and connected to the main frame 116 by pivot pin 266 and to the box support by pin 268.
  • a parallel linkage arrangement which includes links 264 located on opposite sides of the carton support and connected to the main frame 116 by pivot pin 266 and to the box support by pin 268.
  • the cam surfaces 252a of stop plates 252 engage projections 274 located on the side of the main frame support structure to move the stop plates out of their box limiting position against the action of the tension spring 272.
  • the paddle assemblies are free when actuated by a suitable control mechanism to be moved forward to index the boxes.
  • the paddle assembly 200 consists of a series of spaced paddles 202a, 202b, 202c, 202d, and 202e, that contact the boxes to move them from one station to another, after which the paddle assembly is retracted and repositioned to move the boxes through another station movement.
  • the paddle assembly 200 is made up of angle irons 203 through which extend the rods 214 that support the paddles relative to the paddle assembly.
  • the paddle assembly 200 is movably supported in a track 208 that is secured to the main frame 116 through the action of rollers 206 secured to dependent plates 204 that are connected to the angle irons 203.
  • the boxes while moved by the paddle assembly slide off the upper surface of transversely spaced channel members 211 and are aligned by the vertical walls of longitudinally extending angle irons 213.
  • the movement of the paddle assemblies is accomplished by the piston assembly 212 that is secured to a paddle frame assembly depending plate 210.
  • movement of the cylinder rod of piston 212 to the right, as shown in FIG. 19, will index the paddle assembly, and retraction of the piston will return the paddle assembly back to its initial position.
  • all of the paddles, except the first one, 202a are pivotally mounted about pins 214, so that they can be moved clockwise, as shown in FIG. 19, and thus slide under the cartons, when the paddle assembly is retracted to permit the paddle assembly to be returned to its initial position.
  • Stop 216 is provided to limit counterclockwise movement
  • stop 218 is provided to limit the clockwise movement of the pivoted paddles.
  • the design is such that the paddles will return to their vertical position after They have cleared the box under which it has been moved. There is no need for the first paddle assembly 202a to be pivotally mounted, since when it is returned, there is no carton under which it has to pass. Also, as previously mentioned, the paddle assembly travel is slightly longer than the distance between stations to permit the paddles to return to their vertical position when the assembly is retracted. Specifically, the distance between the paddles is equal to the distance between stations, but the piston stroke is slightly longer to accomplish the above.
  • the paddle assembly includes a pair of depending members 244 to which is connected rod 242.
  • a longitudinally extending arm 240 is secured to rod 242 and at its opposite end is connected to a clutch mechanism 238, including a chain sprocket 246, which engages chain 236 and a ratchet arm 248 that prevents movement of sprocket 246 in the counterclockwise direction.
  • the chain that is connected to the clutch mechanism is disposed around sprockets 232, 234, which sprockets are located on rods 228, 230, respectively.
  • pulleys 224 Secured to the ends of shaft 229 are pulleys 224, and to the ends of shaft 230 are pulleys 226. Spaced V-belts 222 are disposed around pulleys 224 and 226 and are driven thereby when the chain 236 is moved.
  • the paddle assembly 200 When in accordance with the operation of the control circuit the paddle assembly 200 is moved forward, the rod 242 moves forward and carries along with it arm 240.
  • arm 240 moves forward, the chain sprocket 246 freely rotates in a clockwise direction relative to the chain, and thus the chain is not moved.
  • the sprocket 246 cannot move in a counterclockwise direction and therefore it remains locked relative to the chain and pulls the chain along with it, with the result that pulleys 224 and 226 are driven clockwise and a box located on the V-belts 222 is moved onto the carton support shelf 250 located above the paddle assembly 200.
  • trough assemblies at each of the loading stations or schematically illustrated in FIGS. 3 through 10 are employed.
  • the trough assemblies 120 are interconnected and retained in a fixed position on the machine frame and partially supported via bushings 181 that surround vertical trough assembly guide bars 180.
  • the trough assembly 120 provides four individual troughs 182 which are interconnected.
  • the troughs 182 have four downwardly depending sides 186 which act as a funnel or guide means for the fruit platen housings 106 as it lowers fruit into the box. If the container 109 is provided with top flaps, suitable box location means (not shown) help assure that these top flaps of the container are not in the path of the fruit platen housings 106 as they lower fruit into the boxes.
  • FIGS. 20-21 show the details of the feed-chute assembly.
  • the fruit feeder assembly'280 consists of spaced guide rows 282 defined by spaced plates 284. Adjustable support mechanisms 286 located on the rod 288 are provided to provide the requisite spacing for the fruit being supplied to the fruit feeder assembly, so it can be properly introduced into the nesting box assemblies 122.
  • the rod 288 is located relative to the feeder assembly by support frame 290. Details of the mechanisms for varying the row widths are shown in my aforementioned application S.N. 169,625.
  • each of the rollers of the roller conveyor consists of a central rod 294 driven by the chain drive, and located on each of the rods are freely rotatable rollers 296 to facilitate movement of the fruit relative to the roller conveyor assembly.
  • the roller conveyor is driven by a pulley and feed-belt drive mechanism 298 shown partially in FIG. 20.
  • a front guide member 300 Located at the front of the fruit feeder assembly is a front guide member 300 which also includes freely rotatable rollers thereon.
  • the front guide 300 prevents the fruit from moving other than in the prescribed pattern.
  • These rod and roller assemblies are designated 302.
  • the fruit from the feeder assembly is directed into the nesting box assemblies 122, which are shown in perspective in FIG. 20, in plan view in FIGS. 22 and 23 and schematically in FIGS. 4-9.
  • the nesting box assemblies receive the fruit from the feeder assembly in a prescribed pattern and thereafter the assemblies are moved to nest the fruit to the desired nesting arrangement after which the fruit is lifted from the nesting box assemblies by the platen assemblies and placed in a box.
  • All of the nesting box assemblies of the packaging machine are secured to angle irons 305 and are movable together on Thompson rods 304 between the position adjacent the fruit feeder assembly into the fruit feeding stations in the sequence as shown in FIGS. 4-9.
  • the sequence shown in FIGS. 4-9 is that which occur at station 105b.
  • the nexting box assemblies, angle irons 305, and vacuum boxed secured to the nesting box assemblies and described hereinafter will be collectively referred to a carriage assembly.
  • the movement of the carriage assembly on the Thompson rods are controlled by piston 338.
  • the fruit from the feeder assembly 280 drops down into the nesting box assembly as the nesting box assembly is moved outwardly relative to the feeder assembly.
  • the nesting boxes are all secured to frame member 305 and thus they are all moved together.
  • FIG. 6 it is seen that the nesting-box assembly is located directly under the feeder assembly and no fruit is received thereby.
  • the nesting box assembly is moved to the right, as shown in FIG. 7, the fruit is free to drop out into the forward cups of the nesting box assembly and is precluded from dropping between the cups 306 by bars 308.
  • a stop plate 312 is located in its left-hand position and thus does not prevent the dropping of fruit from the feeder assembly into the nesting box.
  • the nesting box assembly consists of a box within a box.
  • the larger box 313 includes a portion 315 that is covered by rollers 317 so that when the box assembly is extended as shown in FIG. 20 the fruit will be prevented from dropping out of the feeder assembly 280 by the roller section 317.
  • the nesting box assembly can be readily connected to handle a different nesting array of articles.
  • the illustrated box can be removed and a box with a different nesting arrangement can be readily placed therein.
  • FIGS. 20, 22, and 23 After the nesting box assemblies are located at the stations, but prior to the operation of the platen assembly to engage and withdraw the fruit from the nesting box and permit the nesting box to be withdrawn and the fruit to be dropped into the container, the fruit has to be nested, and the apparatus for showing this is illustrated in FIGS. 20, 22, and 23.
  • the cups 306 are initially located in position to directly receive the fruit from the fruit feeder assembly (fingers 307 and roller bars 308 have not been shown to simplify the figures). These cups 306 are located on spaced bars 320, 322, 324, 326. The spaced bars are interconnected to each other through lost motion connecting plates 330.
  • separator sheets 124 at stations 105b and 105c, which separator sheets serve a dual function of separating adjacent rows of fruit and also are impregnated with a disinfectant that is exuded to minimize spoilage of the fruit during shipment.
  • the separator sheets are diphenyl sheets.
  • FIGS. 24-27 there is illustrated the mechanism for providing the separator sheets at stations 105b and 105c.
  • the diphenyl sheets are stacked in stack 334 located on platforms 336.
  • platforms 336 In order to take a sheet from the stack 334 and place it in the container, there is a vacuum box assembly 113 that is secured to the bottom of the nesting box assemblies located at stations 105b and 105c and thus moves with the nesting box assemblies.
  • the sheet stack 334 is located on a platform 336, which platform is biased upwardly by springs 338 disposed about rods 340 and located between plates 336 and support plate 342.
  • the movement of the sheet stack is controlled by piston assembly 344, which biases the stack upwardly into engagement with the vacuum box 113, and after its engagement therewith the plate 342 contacts the microswitch 346, which turns off the piston and returns the piston and stack to its lower position, leaving a single sheet in contact with the vacuum box 113.
  • the vacuum in the boxes 113 is controlled by vacuum pump 339.
  • the plate 342 had depending therefrom plate 343 to which are secured bushing blocks 345 which slide on rods 347 that are part of the main frame structure of the machine.
  • the support structure for the stack of separator sheets shown at the left in FIG. 24 is identical to that illustrated for the sheet stack on the right but has not been drawn to simplify the figure.
  • the platen assemblies 106 are lowered and moved into engagement as shown in FIG. 8, wherein the cups 144 engage the fruit and the assemblies are operated to retain the fruit in position and raise the fruit into the position shown in FIG. 9, after which the nesting box assemblies 122 are moved out of the way, as shown in FIG. 4, and then the fruit is moved into the container as shown in FIG. 5.
  • the fruit platen assembly 106 occupies an upward portion of the machine frame 116, as best shown in FIG. 28.
  • the fruit platen assemblies 106 are programmed to be moved simultaneously whenever fruit is vertically picked up from the nesting box assemblies. This control is facilitated using electrical circuitry, as will be described further below. The following discussion is merely-directed to the mechanical aspects of the fruit platen assembly 106.
  • the support for the fruit platen assemblies 106 is comprised generally of a U-shaped channel rail frame member 130 which extends the full length of the machine 100, as best seen in Fig. 28.
  • This channel 130 is supported by channel supports 132 that form part of the main machine frame.
  • the fruit platen housings 134 are moved vertically to lift the fruit from the nesting box assemblies and then deposit them into a box.
  • vertical guide bars 136 are fastened at their lower end to each of the fruit platen housings 134 and are adapted to slide within suitable sleeves 138 which are fixed at their lower end to the rail 130.
  • a vertical piston assembly 139 controls the vertical movement of the fruit platen housings 134, and one of these is provided for each fruit platen housing 134. The operation of each piston is identical except that the strokes will vary depending on how far the platen assembly is to move into the containers.
  • a bottom plate 140 is provided with apertures 142 (only one of which is shown) which are arranged in a predetermined pattern.
  • Each of these apertures 142 receives a cup assembly 144 which facilitates, in conjunction with a vacuum pump assembly which will later be described, the lifting of fruit from the nesting box assemblies 122.
  • air is sucked into the housing 134 generally in the direction of the arrow along passage 146 as shown in FIG. 32. When positioned over the fruit, this facilitates retaining the fruit in the cups 144 by the differential pressure acting on the fruit.
  • the fruit holding action results from the venturi effect created by the air flow around the fruit and through the cups 144 into the fruit platen vacuum housing 134, which results in a positive differential pressure acting against the fruit to hold it in its respective cups while the housing 134 is being vertically raised above the nesting box assemblies 122 and moved vertically downward into the containers 109.
  • the flow of air in passage 146 is reversed by way of a valve control mechanism which will facilitate in positively releasing the fruit from the cups by blowing air through the fruit platen housing to create a pressure condition in the fruit platen housing.
  • vacuum has been used for purposes of description, and refers to the situation where air flows upward through the cups 144, or where a sub-atmospheric air pressure condition exists in a vacuum housing 134.
  • the fruit platen housings 134 are lowered to different levels in the containers or carton bottoms 109, as determined by how many layers of fruit have been previously deposited into the carton or container. This is facilitated by providing a fruit platen housing stop mechanism (not shown) associated with the fruit platen vertical guide bars 136 and fruit platen vertical piston 139.
  • the stop positions can, of course, be adjusted, when desired, to load different sized fruit.
  • the bottom plates 140 of the fruit platen housings 134 are capable of being removed and replaced, depending upon the different sized fruit to be loaded into containers.
  • FIG. 32 shows the construction of a cup assembly 144 secured to the plate 140 of a fruit platen vacuum housing 134.
  • These cups 144 are mounted on a tubular member 148 and are spring-biased by spring 150 against a depending flange portion 152.
  • the cup 144 is moved upwardly against the action of the spring 150.
  • the cups 144 are designed to be moved slightly so as to minimize any bruising of fruit when it is picked up, and also facilitates packing varying sizes of fruit, within a given range of tolerance.
  • the control of the flow of air relative to the cups 144 is regulated by a vacuum manifold assembly which includes two vacuum pumps 154 secured in position relative to the frame structure of the machine as shown in FIG. 28.
  • the air flow in line 170 is determined by the schematically illustrated piston-operated flow control mechanism 158.
  • One of the pumps and associated flow control mechanisms is for stations 105a and 105b and the others for stations 105c and 105d. They are identical and only one of which will be described.
  • the flow-control mechanism consists of a first plate 160 having openings 162, 164 leading to conduits 166, 168 connected to opposite sides of the vacuum pump 154 and a second plate 169 having an opening 171 connected up to conduit 170 leading to conduits 172 connected to each of the platen housings 134.
  • Plate 169 includes an opening 173 which is aligned with opening 164 when air is pulled in from the atmosphere as whon in FIG. 30. Controlled operation of the piston assembly 174 controls the position of plate 169 to determine whether there is a positive or negative pressure in conduit 170. The piston assembly 174 is controlled by the electrical circuitry, as will be later described. Conduit 170 is either in communication with conduit 168 to create a vacuum condition, as shown in FIG. 29, or with conduit 166 to create a pressure condition, as shown in FIG. 30.
  • conduits 172 and 170 When loading or carrying the fruit, air will be withdrawn through conduits 172 and 170 to create the pressure differential necessary to retain the fruit in the cups, whereas when the fruit platen assemblies 106 are to deposit the fruit, air flows through conduits 170 and 172, which acts to aid in releasing the fruit from the cups.
  • Conduits 170 and 172 include flexible tubing, as shown in FIG. 28, to facilitate movement of the fruit platen housings 134, as well as flow control mechanism 158.
  • FIGS. 1 and 10-13 there is illustrated in both schematic and in detail form the mechanism 110 for providing box tops to the telescoping station 112, where they are to be telescoped onto a loaded container.
  • the box tops are initially placed on a platform 400, after which they are moved transversely onto a platform 402 against the stop 404.
  • a pressure plate 406 which is adapted to contact the box top is moved by a cylinder 408, to move the box top past the marking rolls 410 onto a V-belt conveyor 412 which is in constant motion.
  • the conveyor then moves the box tops through guides 44 (see FIG. 3) into the telescoping station.
  • Electrical control circuitry comprises numerous limit switches which sense movement of various parts of the machine and relays which are energized in response to certain conditions.
  • certain circuit components i.e., limit switches and relays, will be referred to by their location with a line number. Line numbers appear at the extreme right of each of the FIGS. 34a, b, and c.
  • carriage front relay and carriage rear relay are two independent relays which control the operations of certain other components based upon whether the carriage assembly is deposed at the rear of the machine, i.e., under the fruit conveyor and over the separator sheets, or at the front of the machine, i.e., over the channel members (211).
  • LS-1 and LS-18, respectively are large contact switches which are closed by the movement of the carriage assembly, when in the extreme front or the extreme rear positions, respectively.
  • the top, container, and fruit sensors must find a top (111), a container (109), and fruit (103) in place. If all these conditions exist, current will flow into the on-delay timer, since LS-1 is latched and the on-delay timer coil is energized.
  • the timer allows the operations conducted by momentary switch LS-2 (line 9) to be performed before the platen heads (106) move down to pick up fruit. Therefore, since LS-1 is latched and the carriage front relay coil is energized, the fruit stop coil is energized, so the fruit stop plate (312) moves into place stopping the fruit flow in line. 9.
  • the off-delay timer coil is also energized, signifying that the operations performed by the closing of momentary switch LS-2 have been completed and the machine can continue with its cycle.
  • the platen heads move downward in line 6 to pick up the fruit that has been deposited into cups (306) after the carriage was moved to the front of the machine facilitated by the energizing of the carriage front relay coil in line 2.
  • switch LS-3 in line 13 closes. This energizes the platen head-up coil, and the platens begin their upward movement lifting the fruit from the nested cups (122).
  • switch LS-4 is closed when the platen heads, now holding fruit, reach their full extreme upper vertical position, over the nesting boxes. Since the carriage front relay is energized at this time, the carriage assembly moves to the rear (line 14) and the cups (306) are unnested (line 15). The closing of switch LS-5 (line 18), by the movement of the carriage assembly to the rear, causes the carriage rear relay coil (line 18) to energize the carriage rear relay, closing carriage rear relay contacts.
  • Momentary switch LS-6 in line 19 is closed just after switch LS-5 in line 18, by the same movement of the carriage assembly to the rear.
  • switch LS-8 When the platen heads reach their full extreme lower vertical position into the container, switch LS-8 is closed (line 22). Since the carriage assembly is at the rear of the machine and carriage rear relay contacts are closed, the functions in lines 22, 23, 24, and 25 are performed. This is facilitated by the respective energized coil closing the proper relay contacts. Specifically, the platen head suction relay is energized, allowing the piston-operated control mechanism (158) to move to the pressure condition, causing the vacuum to cease.and the fruits to be deposited into the container (line 22). Simultaneously, the fruit stop rods (302) open to allow fruit to flow into the cups when the carriage assembly begins its next movement to the front of the machine (line 23). Also, the platen heads begin movement upward, out of the containers (line 24) and a counter is advanced signalling the completion of one cycle of the machine (line 25).
  • switch LS-4 in line 14 closes. Since the carriage is now at the rear of the machine (under the fruit conveyor and over the diphenyl sheets), the carriage rear relay is closed and the carriage moves to the front of the machine (line 16). Simultaneously, assuming that either the automatic or manual mode has been chosen, and the carriage rear relay is closed, the cartonadvance coil energizes the carton-advance relay, causing piston (212) to activate the paddle aseembly (200), advancing the containers to the next station (line 17). This completes one cycle of the packaging machine components as illustrated in FIGS. 4-9.
  • momentary switch LS-9 is closed by paddle assembly (202e) coming to the end of its forward motion. This causes the paddle assembly (200) to start its return motion and simultaneously engages piston assembly (254), causing an empty container to be lowered into place in front of the paddle assembly (202a). Switch LS-9 also energizes the container-pusher-out relay coil, causing the container-pusher-out relay contacts to close, activating piston (218). This pushes a full container into its telescoping box assembly (112).
  • FIGS. 10, 16 and 17. The operations depicted by the close of LS-9 and LS-10 are illustrated in FIGS. 10, 16 and 17. These electrical connections complete one full cycle of the packaging machine.
  • the packaging machine's manual mode electrical operation will now be described.
  • Switch MS-1 (line 3a) will be in the manual position, and when the machine's main power is switched on, the carriage assembly will be in the front of the machine, over the paddle assembly (200), causing switch LS-1 to be closed (line 1). Therefore, the carriage front relay coil energizes, which closes the carriage front relay contacts.
  • Loading circuitry is also provided, as can be seen in lines 15a and 22a.
  • switch MS-1 line 3a
  • the pole selects either the manual or automatic mode, allowing current to flow through the normally closed contacts of the automatic and manual relays and reach the load push buttons.
  • packaging machine can be used independently of a box top telescoping assembly in the illustrated embodiment one is used and will be described below.
  • a telescoping box assembly 112 comprising a frame 115 where a box top 111 is placed in telescoping relationship on the filled container 109.
  • the box tops 111 are introduced on a conveyor 110, as shown in FIGS. 11-13 and guided into the telescoping 112 by guides 414 (see FIG. 1).
  • the box top 111 is moved into the telescoping box assembly and placed on tipable shelves 420.
  • a presser plate 422 pivotally mounted at 423 operated by a cylinder 424 is biased into position on top of the box top 111.
  • a movable frame assembly including the presser plate and presser plate cylinder is supported by bushing supports 426 that slide along stationary rods 428. This movable assembly is operated by a main piston 430 as shown schematically in FIG. 3.
  • a spreader assembly 432 is provided.
  • This spreader assembly consists of a generally rectangular frame member 434 that has secured to its inner walls a plurality of spring fingers 436.
  • the spreader assembly is secured to the main movable frame assembly through a cylinder 438 having a depending piston rod 440 that is secured through a clevis 442 to the frame 444.
  • the cylinder 438 is attached to a bracket 446 that is part of the movable frame assembly.
  • the spreader assembly When a box top is provided in the telescoping assembly, the spreader assembly is moved to the upper position, which releases the box top from the shelves 420 and the box top is then supported by the spreader assembly.
  • the fingers 436 are located internally of the box top and the other ends of the fingers engage the outer surface of the filled container. Specifically, cam members 437 secured to the fingers engage stationary plates 439 when the spreader assembly is raised to insure that the fingers are located inwardly of the box top.
  • the spreader assembly 412 is moved out from under the box top by operation of the cylinder 438 and moved below a platform 450 on which the loaded container is located to permit the loaded container to be removed from the telescoping box assembly.
  • the spreader assembly is secured to bushing supports 440 that are slidably disposed on rods 428.
  • a conventional electrical control system is provided for operating the cylinders in the desired sequence.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Agronomy & Crop Science (AREA)
  • Container Filling Or Packaging Operations (AREA)
  • Supplying Of Containers To The Packaging Station (AREA)
  • Packaging Of Special Articles (AREA)
EP82109927A 1981-10-27 1982-10-26 Machine à emballer automatiquement des couches d'articles dans une boîte Ceased EP0078055A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US31536781A 1981-10-27 1981-10-27
US315367 1981-10-27

Publications (1)

Publication Number Publication Date
EP0078055A1 true EP0078055A1 (fr) 1983-05-04

Family

ID=23224071

Family Applications (1)

Application Number Title Priority Date Filing Date
EP82109927A Ceased EP0078055A1 (fr) 1981-10-27 1982-10-26 Machine à emballer automatiquement des couches d'articles dans une boîte

Country Status (3)

Country Link
EP (1) EP0078055A1 (fr)
JP (1) JPS5882803A (fr)
CA (1) CA1223574A (fr)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2197841A (en) * 1986-11-04 1988-06-02 Bowater Packaging Ltd Apparatus for inserting articles into a container
ES2130035A1 (es) * 1996-03-14 1999-06-16 Paniagua Olaechea Rosalina Maquina para el envasado de fruta.
ES2174701A1 (es) * 2000-04-19 2002-11-01 Olaechea Rosalina Paniagua Maquina para el llenado automatico de cjas de frutas y similares.
ES2186524A1 (es) * 2001-02-07 2003-05-01 Invest Y Desarrollos Automatiz Maquina de encajar frutas
WO2007049145A1 (fr) * 2005-10-26 2007-05-03 Miliotti & C. S.R.L. Systeme de manutention de contenants destines a l’alimentation d’empaqueteuses
CN104176322B (zh) * 2014-08-13 2016-04-06 许昌烟草机械有限责任公司 棒状物料装盒机空纸盒输送装置及其输送方法
CN109515858A (zh) * 2018-12-07 2019-03-26 重庆衍裕机电科技有限公司 一种自动套箱机
CN110194293A (zh) * 2019-07-09 2019-09-03 揭阳市汇宝昌电器有限公司 一种电机机壳的装箱设备
CN110589098A (zh) * 2019-10-28 2019-12-20 昆山市工研院智能制造技术有限公司 一种磁保持继电器的下料装箱设备及方法

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0662146B2 (ja) * 1987-05-30 1994-08-17 井関農機株式会社 果実の箱詰装置
JPH0662147B2 (ja) * 1988-04-15 1994-08-17 井関農機株式会社 果実の箱詰装置

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3590551A (en) * 1969-03-27 1971-07-06 Sunkist Growers Inc Automatic apparatus for packing articles in boxes
US3796300A (en) * 1972-07-17 1974-03-12 Olinkraft Inc Multiple finger pushers
GB2014532A (en) * 1978-02-10 1979-08-30 Booth J L Packaging
US4203274A (en) * 1977-12-08 1980-05-20 Pennwalt Corporation Apparatus for packing articles of fruit into boxes
EP0044001A1 (fr) * 1980-07-16 1982-01-20 Booth Manufacturing Company Machine d'emballage à stations multiples et procédé d'emballage

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3590551A (en) * 1969-03-27 1971-07-06 Sunkist Growers Inc Automatic apparatus for packing articles in boxes
US3796300A (en) * 1972-07-17 1974-03-12 Olinkraft Inc Multiple finger pushers
US4203274A (en) * 1977-12-08 1980-05-20 Pennwalt Corporation Apparatus for packing articles of fruit into boxes
GB2014532A (en) * 1978-02-10 1979-08-30 Booth J L Packaging
EP0044001A1 (fr) * 1980-07-16 1982-01-20 Booth Manufacturing Company Machine d'emballage à stations multiples et procédé d'emballage

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2197841A (en) * 1986-11-04 1988-06-02 Bowater Packaging Ltd Apparatus for inserting articles into a container
ES2130035A1 (es) * 1996-03-14 1999-06-16 Paniagua Olaechea Rosalina Maquina para el envasado de fruta.
ES2174701A1 (es) * 2000-04-19 2002-11-01 Olaechea Rosalina Paniagua Maquina para el llenado automatico de cjas de frutas y similares.
ES2186524A1 (es) * 2001-02-07 2003-05-01 Invest Y Desarrollos Automatiz Maquina de encajar frutas
WO2007049145A1 (fr) * 2005-10-26 2007-05-03 Miliotti & C. S.R.L. Systeme de manutention de contenants destines a l’alimentation d’empaqueteuses
CN104176322B (zh) * 2014-08-13 2016-04-06 许昌烟草机械有限责任公司 棒状物料装盒机空纸盒输送装置及其输送方法
CN109515858A (zh) * 2018-12-07 2019-03-26 重庆衍裕机电科技有限公司 一种自动套箱机
CN110194293A (zh) * 2019-07-09 2019-09-03 揭阳市汇宝昌电器有限公司 一种电机机壳的装箱设备
CN110589098A (zh) * 2019-10-28 2019-12-20 昆山市工研院智能制造技术有限公司 一种磁保持继电器的下料装箱设备及方法

Also Published As

Publication number Publication date
JPS5882803A (ja) 1983-05-18
CA1223574A (fr) 1987-06-30

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