EP0281716A1 - Machine to refund the deposit on empty bottles taken back by super markets - Google Patents

Abstract

The machine comprises a front face (4), in which is arranged a printer (5) of the deposit voucher and at which terminates a central conveyor (2), onto the end (3) of which the bottles are placed one by one, a synchronising station comprising a stop flap (10) and a retaining flap (25) for the second bottle, each controlled by an electromagnet (16, 26), a shape recognition station (1) equipped with feelers (72) and with their actuating means (88, 89) and with a stop flap (20) for the bottles on the conveyor (2), located in line with the feelers, and an automatic sorting station (32) equipped with a pusher carriage having switching flaps (30) and conveyors (C1 to C5) for dynamic storage according to bottle type. <IMAGE>

Description

There is already known a machine for consigning bottles in which:
- the shape recognition of the bottles is carried out by light rays passing through small holes drilled in a mask and corresponding to the profiles of the bottles to be recognized, at each test point (mask holes) correspond a light source and a receiver;
- the system is rigid and limits the number of bottles to be recognized,
- the system presents difficulties in adding a new form of bottles, it is necessary to drill new holes, associate them with the light sources and corresponding receivers and modify the use of the signals received by the control electronics delivering the deconsign tickets;
- recognition is sometimes distorted by labels peeling off, by the relative transparency of the bottles, by reflection deviations or parasitic reflections,
- the bottles are not operated positively, they move on turntables and can lie down before entering the evacuation corridor towards a manual sorting table,
- it does not make it possible to differentiate a full bottle from an empty returned bottle, which sometimes results in the return of unpaid instructions,
- it does not recognize that a bottle is made of plastic,
- if a bottle is refused, it is evacuated on a second turntable which stores it at the exit of the machine on the side of use by the public, which sometimes produces an annoying bulk.

The machine described in the main patent overcomes these various drawbacks, however it itself has imperfections and in particular a too long shape recognition cycle due to the use of a pneumatic movement control, in particular that of the access gate. in the bottle-laying space because of the security features and the prohibition of access during the control of a bottle, the means of evacuating the controlled bottles is also complicated.

The purpose of this addition to the main patent is to alleviate these drawbacks and to provide improvements and variant embodiments which considerably reduce the duration of the cycle.

According to a first embodiment of the machine according to the invention, it is placed in a room separated from the store by a wall in which the passage of a conveyor and the largest bottle taken up has been pierced.

This opening is partially masked by a body constituting the front face of the machine, the bottles being placed one by one without care, on the end of the conveyor. This bodywork includes the printer issuing the disconnection ticket and means of controlling the presence and weight of the bottles. The machine furthermore comprises a station for synchronizing the scrolling of the bottles before they are accessed, one by one, in the shape recognition station, at the outlet thereof there is a sorting station provided with an automatic switch and '' a push button for evacuating the bottles in storage corridors each comprising a conveyor and grouping the bottles by type.

According to a second embodiment of the invention, a mode of operation of the feeler trolleys of the electro-mechanical shape recognition mechanism has been claimed, consisting of drawers moving on guide rods by means of two trolleys each comprising an elastic traction column of said feelers. , driven by a motorized screw-nut system.

According to a third embodiment of the machine according to the invention, the location for placing the bottles has been replaced by a calibrating well in which they are released, they are received on an articulated plate equipped with means for controlling the presence and weight of the bottles. bottles as well as a damping means. In addition, a sensor protection wall guides the fall of the bottles in cooperation with two shutters closing said well. Two flaps prohibiting the removal of bottles during the shape control operation have also been provided, controlled by an electromagnet and closed by a tension spring defining the closing force.

According to a fourth embodiment of the machine according to the invention, provision has been made to replace the electro-mechanical shape recognition system with a camera of known type equipped with image recognition means with respect to reference images of the profile of the bottles. times.

According to a fifth embodiment of the machine according to the invention, the transverse push-button for discharging the recognized bottles has been replaced by a conveyor equipped with a means of controlling presence and weight and with a means of damping the fall. bottles in the well on said conveyor.

According to a sixth embodiment of the machine according to the invention, the bulk storage table, at the outlet of said machine, is equipped with a conveyor belt or a conveyor with wide or narrow pallets moving sequentially one step slightly greater than the diameter of the largest bottle as soon as a row is formed perpendicular to said table.

According to a seventh embodiment of the machine according to the invention, a grouping conveyor for bottles recognized by several deconsignment machines has been associated with a shape recognition machine comprising a central conveyor equipped with a means of synchronization of the scrolling, a shape recognition station comprising a stop flap in line with the probes and an automatic sorting station comprising a multiple switch arranged on a beam secured to a maneuvering carriage, each switch flap being equipped with a means for locking its normally closed position and a weak spring for maintaining this position, the bottles being pushed by said carriage onto a waiting area and then between grouping lanes by type, each equipped with a belt conveyor or on pallets.

The advantages of the improvements made according to the invention are as follows:
- significant reduction in machine cycle time;
- simplification of manufacturing and assembly;
- simplification of maintenance;
- improvement of the method of depositing the bottles in the machine without any risk for the user, either in a well or on a conveyor;
- possibility of coupling a single set of automatic sorting of the bottles by type with several machines to consign;
- improvement of the movements of the organs by motorized screw-nut allowing better control of the cycle time;
- improvement of the automatic sorting station and dynamic storage of bottles by type;
- reduction of the size of the machine, in particular in the store, to a simple thin body protecting the end of the conveyor and the printer delivering the disconnection tickets;
- improvement of the management of the de-consignment by totalization by types taken up at the end of the week or at the end of the month, on a ticket issued by the printer;
- improvement of the operation of the bulk storage table.

• - la fig.1 montre, en vue de dessus, un exemple de poste de déconsigna­tion et de tri à la volée selon l'invention;
• - la fig.2 montre, vu en élévation, un exemple de poste suivant la fig.1;
• - la fig.3 montre, vu en bout, un exemple de poste suivant la fig.1;
• - la fig.4 montre, vu en élévation, un exemple de système de contrôle de présence et de poids sur l'extrémité d'un convoyeur de reconnaissance de forme fonctionnant à la volée;
• - la fig.6 montre, vu de dessus, un exemple de système de reconnaissance de forme à palpeurs représentant le puits d'introduction des bouteilles et le poussoir d'évacuation vers une table de stockage en vrac;
• - la fig.7 montre, vu en élévation, un exemple de face avant simplifiée de la machine;
• - la fig.8 montre, vu en coupe, un exemple de disposition de l'impriman­te délivrant les tickets de déconsignation;
• - les fig.9 et 10 montrent, vu en coupe et vu de dessus, un exemple de réalisation de puits de dépose des bouteilles équipé d'un volet d'inter­diction de dépose pendant le fonctionnement du moyen de reconnaissance de forme;
• - la fig.11 montre un exemple de réalisation du lecteur d'écart équipé d'un moyen de réglage de zéro;
• - la fig.12, montre vu en élévation, , un exemple de réalisation du système de tri automatique,
• - la fig.13 montre, vu en coupe, un exemple de montage d'un convoyeur;
• - la fig.14 montre, vu de dessus, un exemple d'ensemble de déconsignation comportant trois machines de déconsignation accouplées à un poste de reconnaissance de forme et un poste de tri automatique;
• - la fig.15 montre, vu de dessus, un exemple de table de stockage dynamique en vrac.

The invention is described in detail in the following text with reference to the accompanying drawings given by way of non-limiting examples, in which:

• - Fig.1 shows, in top view, an example of on-the-fly sorting and sorting station according to the invention;
• - Fig.2 shows, seen in elevation, an example of a station according to Fig.1;
• - Fig.3 shows, seen at the end, an example of a position according to Fig.1;
• - Fig.4 shows, seen in elevation, an example of a presence and weight control system on the end of a shape recognition conveyor operating on the fly;
• - Fig.6 shows, seen from above, an example of a shape recognition system with feelers representing the bottle introduction well and the evacuation pusher towards a bulk storage table;
• - Fig.7 shows, seen in elevation, an example of a simplified front face of the machine;
• - Fig.8 shows, seen in section, an example of arrangement of the printer delivering the vouchers;
• - Figs. 9 and 10 show, seen in section and seen from above, an exemplary embodiment of a bottle deposition well equipped with a deposit prohibition flap during the operation of the shape recognition means;
• - Fig.11 shows an embodiment of the gap reader equipped with a zero adjustment means;
• - fig.12, shows seen in elevation, an embodiment of the automatic sorting system,
• - Fig.13 shows, seen in section, an example of mounting a conveyor;
• - Fig. 14 shows, seen from above, an example of a disconnection assembly comprising three disconnection machines coupled to a shape recognition station and an automatic sorting station;
• - Fig.15 shows, seen from above, an example of a dynamic bulk storage table.

Fig. 1 shows, in top view, an example of a bottle disconnection machine in which the bottles are presented in the shape recognition station 1 brought by a pallet conveyor (2). The bottles are placed in 3 on the front face 4, directly on the end of the conveyor 2 framed by the console 4. Said console has a very thin body in which the location 3 is bordered by a protective fold forming a bottle laying guide, it further comprises a passage for the passage of the bottles through the wall separating the room in which the machine is placed and the store on which the console is fixed. This desk also has a flat part capable of receiving bottles or a bag (fig. 4 and 7). The printer 5 has been shown in phantom with its slot 6 for outputting the ticket. The electronic control unit is provided to order the printing of the following information on the ticket:
- type of recognized bottles and return price;
- mention of the bottles not taken back, type if known and number;
- number of bottles taken back and their type with the corresponding price;
- total amount to be reimbursed
- at the end of the week or at the end of the month, recapitulation, on a ticket, of all the bottles that have been discarded and the corresponding type.

In the event of fraud by the introduction of a full bottle to obtain its cancellation, signaling thereof, machine shutdown and audible or visual information alerting the surveillance personnel. The bottles are transferred as they are deposited in the direction of arrow 7 to the shape recognition station 1 and to the automatic sorting station; it crosses the opening of the wall 8 making it possible to connect the end of said conveyor to the console 4. The bottles are stopped by a shutter 10 articulated on an axis 11 on a support placed near the conveyor and kept normally closed by a tension spring 12 The shutter 10 is locked by a lever 13 constituted by a spring leaf, one end of which is fixed to a support frame 14, the other end is folded at a right angle to retain a locking lever 15 disposed at the rear of the shutter.

Locking is obtained by means of an electromagnet 16 working by pushing and deforming the blade 13 which retains the lever 15 and prevents the shutter from opening under the push of the bottle or bottles. This flap 10 fulfills a function of synchronizing the scrolling of the bottles. It cooperates with a second identical flap 20 stopping the bottles in the shape recognition station 1.

When the bottle 21, stopped by the flap 20, has been checked, this flap is unlocked by deactivation of its electromagnet and the bottle 21 is transferred to the automatic sorting station. Simultaneously, the flap 10 is unlocked and the bottle 23 is transferred to the station 1. As a single bottle must pass, a mechanism for retaining the second bottle 24 has been provided, consisting of a spring leaf 25 fixed at one end to the support 14 and comprising an elastomer support pad on the other end. This blade is pushed by an electromagnet 26 which deforms it and presses it on the bottle 24 which is retained the time to allow the bottle 23 to pass, to close and re-lock the shutter 10. This shutter has two branches 28 which allow to lighten it (fig. 2 and 12). The bottle which has just been released by the flap 20 of station 1 is sent to the sorting station. This station has five components 30 identical to components 10 and 20 and their control mechanism; they are fixed to a beam 31 secured to an operating carriage 32.

In fig.2 we see the axis 11 of the flaps 30 mounted between the cross member 34 and the beam 31 held by spacers 35. The beam 31 of the carriage 32 is arranged above the conveyor 2 so as to be able to move the bottle stopped by one of the flaps 30 to engage it in the corresponding storage corridor C1, C2, C3, C4, C5 (see fig.12). There is shown a bottle 36 stopped on the 4th flap and which will be pushed out of the conveyor 2 which continues to rotate continuously. The bottle 36 is placed on an intermediate area 37 (fig. 12) from which it drives out and replaces a bottle 38 which is entrained and evacuated by the conveyor of the corridor C4 to a recovery zone where it is manually put in a rack by an operator. A bottle 38 is parked in area 37 at the right of each corridor C1 to C5 before being evacuated by the corresponding conveyor on each arrival of a new bottle. The carriage 32 supporting the beam 31 switch shutter holder 30, slides on guide rods 40,41, by means of ball rings or the like. The carriage 32 is operated automatically in the cycle by means of a nut 42 driven by a screw 43 rotated by an electric motor 44 controlled by the electronic control unit in synchronism with the flaps 10 and 20 during their closing period. At the rear end of the conveyor 2, a bottle 45, not disconnected, was shown transferred to a recovery container.

In fig.2 and 4 there is shown the detail of an example of the presence and weight control system of the bottles on the end of a pallet conveyor 2 in fig.1. It comprises an articulated support 50 disposed on each side of the pinions 51.52. The pinion 52 is disposed on the articulation axis 53 of the support 50. Said support 50 is pushed by a tarable compression spring 54 against an adjustable stop 55. When a bottle is placed on location 3, its weight compresses the spring 54 and the support 50 moves as well as a gap measurement block 56 fixed on said support cooperating with a strip 57 having a marking corresponding to the weight of an empty small bottle, that of a large empty bottle and a full bottle. These three weight difference checks are carried out by three photoelectric cells 58, 59, 60 arranged on the passage of the markings of the strip 57. Said strip is pinched on a support 61 secured to the desk 4 by a folded sheet also receiving spring 54.

In fig.3 we have shown the bottle shape recognition station seen in cross section in a machine operating on the fly. The bottle 21 placed on the conveyor 2 is stopped by the flap 20. We see the two rows 70, 71 of probes 72 in the rest position. As shown in Figs. 9 and 11, the probes 72 slide on guide rods 73,74 each centered in a hole in the central beams 75,76-77,78 on the one hand and fixed, at their other end, on a flat profile 79,80 made removably secured to beams 81,82 - 83,84, which allows it to be dismantled independently as a drawer.

The support plate 85 is arranged above the station 1. The rows 70 71 of probes 72 are each moved in synchronism by a carriage 86,87 on which is fixed a column 88,89 equipped with spring clip at the right of each feeler. Each probe is hooked to said corresponding column by a spring 90 and held on a stop 91 (fig.1). The carriages 86.87 are each moved in synchronism, by the nuts 92.93 maneuvered by the screws 94.95 driven in rotation by an electric motor 96 with two ends of shafts coupled respectively to each of the screws 94.95. Said carriages are driven by the nuts 92, 93 by means of spring coupling cooperating with rear limit switch contacts. When the keys 100, 101 of the feelers come into contact with the profile of the bottle (fig. 9) the springs 90 (fig. 1) detach from their stop and tension in opposition to obtain a frank contact on the bottle so as to define the co-responding gap which, by level, will allow the bottle to be recognized.

The bottle is refocused and tightened beforehand between stop buttons 102,103 mounted on the carriages 127,128 forward at rest relative to the distance measurement keys. These two carriages 127,128 are identical to the feelers; they are normally pulled towards each other by means of a tension spring, the ends of which are each hooked to one of said carriages. The prior tightening of the bottle is therefore carried out by this spring which is normally stretched to the maximum in the position of recoil of the feelers by the carriages 86.87 for operating the columns 88.89.

The drawer chassis of station 1 is fixed to a frame 104 by means of jack screws 105, 106 making it possible to calibrate the height of the feeler keys relative to the zero level represented by the conveyor 2. In FIG. 11, we have shown the detail of an example of a deviation measurement system including a zero adjustment. The probes 72 are shown at rest in the rear position. They must perform a first part of the race to come into contact with the body of the largest bottle; at the time of this contact, the pusher 110 has already pushed the rod 111 of the sliding reader in the bearings 112, 113, by 1mm by moving the graduated strip 114 in front of a photoelectric barrier 115 counting in passing said graduations. The rod 111 is held in abutment at rest by a return spring. A reference difference is defined, at rest, between rod and pusher by means of a vertical reference gauge making it possible to adjust the zero by means of a pushing screw 116 acting on the rod 110 guided in a bearing and held in abutment on the screw 116 by means of a compression spring 117.

On fig.6 and 9 we showed the plate 85 of the drawer chassis mounted upside down from that of fig.3. Contrary to FIG. 3, the bottles are presented and released in a well 120 through a calibrating orifice constituted by a washer 121 made of plastic or elastomer of relatively high rigidity, capable of cooperating with a cover 122 elastically deformable at the introduction of a bottle.

In fig.6 we have shown the detail of the wall of the well constituted by a folded sheet 123 having openings 124 allowing the front part 125 of the feelers to pass. To properly guide the fall of the bottles into the well, the latter was closed by two flaps 126,127 (fig.6) held elastically in abutment by a torsion spring. The largest bottle in place in the well has been shown, centered between the keys 102, 103 of the lower feelers 127, 128 (fig. 9).

The wall 123 is open on the front, in the lower part, to let pass a pusher 129 (see fig. 5) disposed astride a plate 130 articulated at 131. The pusher 129 is moved by a carriage 132 maneuvered by a nut 133 cooperating with a screw 134 driven in rotation by an electric motor 135 coupled to said screw 134. The push-button 129 has the function of causing the flaps 126, 127 to pass through the bottle which has just been checked and of bringing it onto a conveyor 136 which transfers it to the automatic sorting station 32 (fig. 1), or else to a bulk storage table as will be seen in FIG. 8, in the latter case, the conveyor 136 is replaced by a corridor in sheet 137 (fig. 6) on which the bottles are pushed one by one by the pusher 129. Of course one could use a pneumatic cylinder or any other equivalent means. The plate 130 is intended to receive the bottles 138 dropped in the then 120, to absorb their fall, even if they are full and to define a zero level of measurement reference. It also has the function of testing the presence of the bottle and of recognizing whether it is empty or full, as in the system described in fig.4 for which the same reference numbers have been used. The zero reference damping and setting function is obtained by means of an electromagnet 150 working by pushing, fixed on the chassis under said plate and supplied when a bottle is dropped into the well, its supply is then interrupted for a short time after amortization to recognize whether the bottle is empty or full, then power is restored to ensure zero reference allowing shape recognition. To prevent a new bottle from being dropped into the well during the shape recognition test of a bottle already in place, a prohibition system has been provided which can be achieved by means of two flaps 160,161 arranged horizontally (fig. 9 and 10) and articulated in 162 to open in a chisel at an angle 163 sufficient to completely unmask the well 120. The flaps 160, 161 are closed by a tension spring 164 and opened by means of an electromagnet 165 working in pushing on a rod 166 guided in a bearing 167 and moving a pallet 168 bearing on the frame and pushing the tails 169 and 170 of the flaps. The electromagnet is supplied whenever the well is again empty to allow the introduction of a new bottle. To properly center the flaps 160,161, a clearance 171 is provided which cooperates with an index 172 of recentering.

To simplify the version of de-designation machine shown in the main patent and in FIGS. 5, 6, 9, 10, 11, comprising the introduction of the bottles into a well, provision has been made to extend the conveyor 136 (FIG. 5 ) up to the front, in place of the articulated plate 130, as in FIG. 4 and fitted with a damping means with electromagnet 150, the bottle being stopped at the right of the test flaps by a flap 20 as in fig.1, or by the flaps 126,127 equipped with a locking means during the shape recognition operation.

In fig. 14, we have shown the example of a set of automatic disconnection and sorting of bottles comprising three deconsignment machines 180,181,182 equipped with a pusher of the type of fig. 6, introducing the bottles, disconnected and not disconnected, in bulk on a wide conveyor183, preferably equipped with lanes 184,185,186 avoiding disturbing the exit of each of the lanes 137 of the machines 181,182. The bottles are grouped in the vicinity of the end of the wide conveyor 183 by means of a funnel 187. They then accumulate on a second narrow conveyor 188 which comprises a station for synchronizing the scrolling of the bottles 189, a station for recognizing form 190, an automatic sorting station comprising a switch, a push cart 191 and a dynamic storage assembly 192 with conveyors C1, C2, C3, C4, C5. The part of the assembly comprising the stations 189,190,191,192, is identical to that described in fig. 1. Given that on a form recognition station 190 it is possible to obtain a rate of the order of 5,000 bottles / hour, greater than the need of the users of the deconsigning stations 180,181,182, it is then advantageous to avoid using a automatic sorting and a grouping station by type on each de-designation machine, to group several to feed this set of recognition and automatic sorting. This reduces the cost very significantly. When the throughput by deconsigning machine is not important, one can not use automatic sorting and settle for a bulk storage table as described in fig. 15. The table 200 can only be fed by means of a positive mechanical pusher and not by a conveyor. It is therefore only possible to use, with these tables, the identification machine described in the main patent and in FIGS. 5,6,10,11 comprising such a pusher 129. If one wants to use a so-called sorting machine with on the fly, as described in fig.1,2,3,4,7,8, you must add a pusher to the entry of the bulk storage table.

This table can be static or dynamic, that is to say include a conveyor belt over its entire surface, or even include one or a set of pallet conveyors C1 to C8 as shown in fig.15 with a low space 201 between them. The detail of an example of mounting the pinions is shown in fig. 13 in section XXʹ. The bottles B rest on pallets 202 sliding on guide angles 203, 204 secured to the walls 205 of the corridors. These walls are assembled together by spacers 206 mounted on cylindrical bars 207 fixed from place to place at their ends by screws 208,209 engaged in a corresponding hole in the end walls 210,211. The intermediate walls 205 have an open clearance so that they can be easily inserted from above, to thread the shafts 207 into holes. The sprockets 215 for guiding the pallets 202, are threaded onto a shaft 216 which is fixed at its ends to the walls 210, 211 like the spacer bars 207. The corridor walls also have an open clearance for placing them on the shaft 216 The pinions 215 revolve on a ring 217 and are held in place by spacers 218,219 having a slight lateral clearance in operation. The conveyors 2 of Figures 1,2,3,7,14 as well as those of the dynamic storage corridors C1, C2, C3, C4, C5 of fig.1 are mounted identically to those of fig.13.

In fig. 15, the pinions of the shaft XXʹ are mounted free, while those of the shaft YYʹ are keyed and the spacers 218.219 are removed, this shaft 220 is the control shaft, it is mounted in bearings 221,222 and driven in rotation by a geared motor operating sequentially so as to advance the conveyors C1 to C8 by a step 223 each time a new row R of bottles is formed and the first of these 224 closes an electrical contactor 225 supplying said gear motor the time necessary to advance by one step 223.

This pitch is calculated so as to leave a corridor with very little play to guide the bottles which are pushed by the pusher 129 of the disconnection machine. To prevent the storage area from being saturated when arriving against a stop 225, a photoelectric barrier has been placed along the axis BBʹ, in the vicinity of the axis YYʹ which stops the operation of the geared motor and warns the operator by an audible or other signal. This type of bulk storage table makes it possible to avoid blockages by jamming the bottles before the table is saturated.

The electro-mechanical shape recognition system with deviation control probes can be replaced by a camera of known type, associated with electronic means for image analysis and comparison with reference images of the bottles taken up. , stored in electronic means; a contrast screen of suitably lit translucent material is placed behind the bottles to be recognized. The operation of the means of synchronous transfer and stop of the bottles in the station remains identical. The same is true for bottles dropped into a well. However, such a shape recognition means is not entirely positive because it is liable to errors due to labels half peeled off, or to parasitic reflections.

Claims (15)

Machine for disconsigning empty bottles taken up by big box stores according to claim 1 of the main patent, characterized in that the bottles to be disconsigned are placed one after the other on the end of a conveyor (2) in the console ( 4) of the front face of the machine, said end of the conveyor being equipped with a presence and weight control means, and in that the conveyor cooperates with a means of synchronizing the arrival of the bottles, one by one , in the shape recognition station in which they are successively stopped in synchronism by a flap (20) for the duration of the recognition test, then the flap (20) is open and the conveyor transfers them to an automatic sorting station equipped a push cart (32) comprising a set of switch flaps (30) controlled, according to the type of bottle recognized, by the electronic control unit, and in that the push cart evacuates the bottle t connected in a storage corridor of the corresponding type provided with a grouping conveyor (C1, C2, C3, C4, C5 ...), and in that the means for synchronizing the bottles comprises a shutter (10) normally closed by a return spring and locked by an electromagnet (16), opening, when unlocked under the pressure of the bottle driven by the convector (2) in synchronism with the opening of the flap (20) of the station (1), and in that said flap (10) cooperates with a retaining flap (25) of the second bottle (24) on standby. 2 - Machine according to claim 1 of the main patent, characterized in that the bottles are released into a well (120) where they fall on a plate (130) articulated in (131), provided with a damping means, resetting to zero reference against a stop, whatever the weight of the bottle, and of a means of controlling the presence and weight of the latter, and in that the damping and resetting means is a electromagnet (150) holding said plate (130) in abutment against its stop when it is energized and allowing presence and weight checks when it is de-energized, and in that access prohibition flaps ( 160,161) close said well during the shape recognition test, said flaps being opened by an electromagnet (165) and closed by a return spring (164). 3 - Machine according to claim 1, characterized in that the means of controlling the presence and weight of the bottles on the conveyor (2) comprises a support (50) articulated at (53) on the axis of a pinion (52 ) and whose free end receives a pinion (51) on which is wound a pallet chain on which is deposited in (3) the bottle to be disconnected, said control is carried out by controlling the displacement of the support obtained by bending d '' at least one spring (54) under the weight of the bottle, in the form of detection of a predetermined difference range corresponding either to the presence of an empty bottle, or to the presence of a full bottle, by means of a photoelectric barrier (58,59,60) cooperating with a transparent strip (57) carrying the indications of deviation to be detected. 4 - Machine according to claim 1 of the main patent, characterized in that the bottle is discharged, after recognition of its shape, by means of a pusher (129) secured to a carriage driven by a nut (133) operated by a screw (134) driven in rotation by a motor (135), moving it on the articulated plate (130) and depositing it on a conveyor or on a sheet metal corridor (137) on which it pushes the bottles previously tested. 5 - Machine according to claim 1, characterized in that the feelers (72) are each mounted free on guide rods (73,74) in opposition by row (70,71) and driven, by row and by level, the towards each other by means of a vertical column (88, 89) on which they are each hung by a tension spring (90) driving them into contact with the bottle and pressing them elastically on the latter, said columns ( 88.89) being each mounted on a carriage (86.87) moving towards one another under the action of a positive drive means with motorized screw-nut, and in that the keys (102.103) for re-centering and prior tightening of the bottle to be recognized, are arranged in advance with respect to the feeler keys (100,101) and their support carriages (127,128) are normally pulled towards each other by means of a tension spring the ends of which are each hooked to one of said carriages,
and in that the guide rods (73,74) are centered on the one hand in corresponding holes of the central beams (75,76-77,78) and fixed at their rear end on a flat profile (79,80) rendered removably secured to the rear beams (81.82-83.84) and acting as a drawer. 6 - Machine according to claim 1, characterized in that the pushers (110) of the strip supports (111) of deviation control performing the shape recognition, are each provided with a zero adjustment means constituted by a rod sliding in a support, pressing an adjustable key (116) by means of a compression spring (117) and in that the zero adjustment of all the levels of the probe keys is carried out by means of a cylindrical vertical reference gauge arranged, at rest, between the probes and defining a control deviation from zeroing of the keys and of the pushers and strips. 7 - Machine according to claim 1, characterized in that the shape recognition of the bottles is carried out by means of a camera of known type associated with electronic means for image analysis and comparison with respect to reference images profiles of bottles taken up, the bottles moving one by one in front of said camera performing shape recognition either in motion or when stationary. and in that a contrast screen of translucent material, suitably lit, is arranged behind the bottles to be recognized. 8 - Machine according to claims 1 and 4, characterized in that the bottles are received, at the outlet of the machine, on a bulk storage table on which they arrive in successive rows, pushed against each other by the pusher (129) on said table which is provided with a conveyor belt or parallel conveyors (C1 to C8) moved sequentially by an electric gear motor controlled by an end of stroke control means (225) acting, whenever 'a new row (R) is formed on said table, to move it by a distance (223) slightly greater than the diameter of the largest bottle. 9 - Machine according to claim 1, characterized in that the support drawer of the shape recognition assembly is arranged in a bridge, upside down, above the bottle handling conveyor, fixed in abutment on adjustable supports (105,106) arranged on a frame (104) on either side of said conveyor. 10 - Machine according to claims 1,4 and 9, characterized in that the automatic bottle sorting station, accepted by the shape recognition station, comprises a push carriage (32) moved electromechanically by a screw-nut system, on the front of which is fixed a beam (31) supporting switching flaps (30), and being located slightly above the conveyor (2) bringing the bottles to be sorted, and in that said flaps (30) are maintained normally closed, perpendicular to the conveyor, each by means of a tension spring (12) of very low rigidity, and in that the locking of each flap (30) is ensured by an electromagnet (16) acting on a leaf spring (13) fixed vertically on the support (31) integral with the carriage, said blade being provided with a perpendicular fold locking the tail of the shutter (15) preventing the latter from pivoting under the thrust of the arriving bottle on the conveyor. 11 - Machine according to claims 1 and 10, characterized in that the bottles taken up are stored by types on corresponding grouping lanes (C1, C2, C3, C4, C5) and in that each of these lanes comprises a conveyor belt or paddles evacuating accepted bottles. 12 - Machine according to claim 1, characterized in that the shape recognition station (190) and the automatic sorting station (191) are fed by several deconsignment machines (180,181,182) pushing the bottles on a grouping conveyor (183 ) comprising as many lanes (184,185,186) as there are de-designation machines, and in that said lanes open onto a regrouping funnel (187) then onto a narrow conveyor (188) equipped with a synchronization station (189) comprising a flap synchronization (10) and a retaining flap (25) controlled by an electromagnet (26) acting on a lever constituted by a spring leaf (25) bearing on the second waiting bottle (24). 13 - Machine according to claim 1, characterized in that the printer (5) issuing the bottle identification ticket cooperating with the electronic control unit, is provided to provide the following information:
- number of bottles taken back by type and corresponding price;
- number of bottles not included with their possible type if recognized
- possible mention of a full bottle with machine stop;
- summary of the total number of bottles taken up by type at the end of the week or at the end of the month on call of this information. 14 - Machine according to claim 1, characterized in that the articulated laying plate (130) is replaced by an extension of a conveyor (136) whose end is articulated and equipped to perform the functions of presence control and weight and damping of the fall of the bottle into the well on said conveyor. 15 - Machine according to claim 1, characterized in that the front face or console of the machine equipped with a central conveyor (2) and a synchronization station, comprises a bodywork of very shallow depth, fixed to the wall of separation of the store and the room where the machine is placed, said console comprises a location (3) for placing the bottles on the front of the conveyor, a corridor for passing the bottles through the separation wall, a printer support ( 5) with a slot (6) for outputting the ticket and a flat part forming a shelf.

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