STACKER

Description

[0001] This invention relates to a stacker for stacking works, more particularly to an improvement of the conveying section for carrying the works into the main body of the stacker.

BACKGROUND ART

[0002] In textile plants and the like, cut pieces of textile and lining are bonded by a hot press and then fed to a stacker to be stacked one after another. This type of stacker is disclosed in West German Patent Laid-open Application (DE-OS) No. P1660982.8 and Japanese Examined Utility Model Publication No. 42532/1986. This type of stacker uses a belt conveyor as a means for carrying works each consisting, for example, of a textile and a lining bonded together by a hot press. On the base of the stacker, a table is disposed in such a way that it can move between an operating position and a retracted position. When the table is at the operating position, it is designed to very closely oppose the lower surface of the conveyor. The work fed from the press is then carried over and pressed against the table by the conveyor as the conveyor belt turns. When the work is carried to a predetermined position, the table moves back to the retracted position, and thus the work drops downward and is stacked or collected on a collecting section.

[0003] However, if static electricity accumulates on the belt and the works due to friction, the works are attracted by the belt due to the action of electrostatic forces exerted between them. Occasionally, when the table is moved back to the retracted position, a portion of the work is strongly attracted to the belt and thus does not drop neatly onto the stacking table. If it happens, the works may not be stacked in a good condition. That is, it may be folded or wrinkled. If this occurs, the stacker's intended purpose of stacking works in good order is not achieved.

[0004] After a number of works have been carried or when the works are of a mixed fiber fabric of chemical fibers, a relatively high level of electrostatic charge will be generated. Thus, the works sometimes adhere onto the belt and are reluctant to drop. If the following works are nevertheless carried in one after another, the works jam around the dropping position, and these works must be stacked manually by an operator.

[0005] It has been contemplated to add a static discharger to the stacker for preventing the affect of static electricity or to use a conductive fiber. However, the static induction increases to the maximum level at the moment the work and the table are separated from each other.

[0006] For example, when a work of 100 % polyester fabric is carried by a Teflon type belt, the level of static electricity at the moment the table is retracted jumps up to 10 to 20 KV which is at least 10 times the value before retraction (measured by a collecting type measuring instrument Model KS-525, manufactured by Kasuga Denki Kabushiki Kaisha).

[0007] No existing static discharger can remove such a great level of static electricity momentarily and entirely from the work. Even in those stackers having antistatic equipment, portions of the works are often attracted strongly enough by the belt to cause disorder in the stacking of the works. Moreover, if a static discharger is incorporated into the stacker, the entire stacker unit becomes larger. On the other hand, if a conductive fiber is used, the cost of the work is increased.

[0008] Further, while a method of removing static electricity by spraying ion onto the belt using a corona discharger has been proposed, it is known that this method can exhibit no effect of removing static electricity in a stacker of the type in which works are brought into close contact with the blet.

[0009] FR-A-2596031 discloses a belt-type conveyor wherein the lower surface of the belt contacts the workpiece.

[0010] GB-A-21485 discloses a paper conveyor having a series of conveyor wheels.

DISCLOSURE OF THE INVENTION

[0011] Therefore, it is an object of this invention to minimise the size of the entire stacker unit, to allow use of inexpensive works and to eliminate the affect on the works by static electricity, so as to provide a stacker which ensures loading and collection of works in good order.

[0012] According to the present invention a stacker for use in conjunction with an external apparatus which successively feeds textile workpieces, towards the stacker, the stacker comprises:
   stock means for stocking the textile workpieces fed from the external apparatus;
   main conveyor means for conveying a textile workpiece to the stock means;
   sub-conveyor means including a slidable table positioned above the stock means, for conveying the textile workpiece in cooperation with the main conveyor means, and table drive means for causing the table to slide between an operating position where the table can interleave the workpiece between the table and the main conveyor means, and a retracted position where the table can release the workpiece from the main conveyor means, whereby the textile workpiece disposed on the table in the operating position is dropped to the stock means in accordance with the movement of the table from the operating position to the retracted position; and
   drive means for switching the main conveyor means between a first position where the main conveyor means can interleave the workpiece between the table in the operating position and the main conveyor means, and a second position where the main conveyor means separates from the table in order to permit the next workpiece to be transferred on the table,
   the stacker being characterised in that said main conveyor means including:
   a plurality of roll shafts disposed in the direction in which the workpiece is conveyed, wherein each of said roll shafts is provided with a plurality of spaced apart rollers for contacting the workpiece, and at least one pulley interposed between each pair of rollers;
   a timing belt extended over said pulleys arranged in the direction in which the workpiece is conveyed; and
   roll drive means for driving said timing belt to rotate said plurality of rollers.

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] 

Figure 1 is a front view of a roller conveyor in the stacker of this invention;

Fig. 2 is a side view of the roller conveyor as viewed from the work supply side;

Fig. 3 illustrates the principle of driving the roller conveyor;

Fig. 4 is a front view of the stacker;

Fig. 5 is a block diagram showing the electrical system of this invention;

Fig. 6 is a side view of the stacker shown in Fig. 4; and

Fig. 7 is a partially cut-away plan view of another embodiment of roller conveyor.

BEST MODE FOR CARRYING OUT THE INVENTION

[0014] A preferred embodiment of this invention will now be described below in detail referring to Figs. 1 to 7.

[0015] In Fig. 4, a stacker generally shown with the reference number 100 is disposed adjacent to a press not shown. A work formed by subjecting a lining and a fabric to hot pressing is fed to the stacker 100 via a belt conveyor 108. The stacker 100 has a substantially rectangular metallic main body 101 as a basic framework. A roller conveyor 1 for carrying the work therein is suspended from the top rail 101a of the main body 101 via a bracket 17 and an adjuster 15.

[0016] As shown in Fig. 1, the roller conveyor 1 consists of a long plate-like metal frame 5 and a plurality of rolls 3 arranged to extend horizontally parallel to one another in the metal frame 5. It should be noted that the rear end (left end in Fig. 1) portion of the frame 5 is supported on the bracket 17 to be movable vertically.

[0017] As shown in Fig. 2, each roll 3 consists of three rollers 3a made of a urethane rubber. These rollers 3a are rotatably supported on the metal frame 5 by a shaft 7. The rolls 3 are arranged in such a way that the lower portions thereof extend below the lower edges of the side panels of the frame 5, as shown in Fig. 1. Referring again to Fig. 2, a toothed pulley 4 is interposed between each pair of rollers 3a of each roll 3. A timing belt 2 is extended along the longitudinal axis of the frame 5 over each row of toothed pulleys 4.

[0018] As shown in Figs. 1 and 3, a tension roll 6 rotatably supported on the metal frame 5 is disposed between each pair of rolls 3 so as to apply appropriate tension to the timing belt 2 and maintain good engagement between the toothed pulleys and the timing belt 2. Guide rolls 6a are rotatably disposed adjacent to the two outermost rolls 3 of the roller conveyor 1 so as to allow the timing belts 2 to be spaced from the lower portions of the toothed pulleys 4.

[0019] The foremost shaft 7 has a driven toothed pulley 13 at one end thereof as shown in Fig. 2. A drive toothed pulley 14 is disposed on the output shaft of a motor 11 mounted on the front end portion of the frame 5 as shown in Fig. 1, and a timing belt 12 is extended over these two pulleys 13,14. When the driven pulley 13 is rotated by the motor 11, the toothed pulleys 4 are driven via the timing belts 2 to rotate the rolls 3.

[0020] Referring now to the adjuster 15, a pneumatic cylinder 10 is disposed on the frame 5 behind the motor 11. The pneumatic cylinder 10 allows the roller conveyor 1 to operate vertically. The pneumatic cylinder 10 has two knobs 10a,10b, and the operational speed of the pneumatic cylinder 10 can be controlled by suitably manipulating these two knobs 10a,10b. A bolt 15b is attached to the upper end of the rod of the pneumatic cylinder 10 via a connecting piece 19. The upper end of the bolt 15b is connected to a knob 15a disposed on the top rail 101a, and the height of the roller conveyor 1 can be adjusted by operating the knob 15a.

[0021] A horizontal slot 9 is formed at the rear end portions on the side panels of the frame 5 so that the rearmost shaft 7 can move horizontally within the slot 9 via an adjusting mechanism (not shown) by operating a tension bolt 8 screwed into the frame 5. In this manner, the tension to be applied to the timing belts 2 can be adjusted.

[0022] Further, a row of vertical slots 18 are defined on the side panels of the frame 5. The shafts 7 inserted through these slots 18 are constantly urged downward by the tension of the timing belt 2. Incidentally, the stopper 18a shown in Fig. 2 is intended to prevent axial dislocation of the shaft 7.

[0023] As shown in Fig. 6, a slide table 102 is disposed below the roller conveyor 1, which can move between the operating position (shown by the broken line in Fig. 6) and the retracted position (shown by the solid line) in the housing 120 disposed behind the main body 101 with the operation of the table driving cylinder 104 (see Fig. 4). At the operating position, the slide table 102 carries a work in cooperation with the rolls 3, while it allows the work to drop onto a tray 105 when it moves back to the retracted position.

[0024] As shown in Fig. 4, a light emitter 103a and a light receptor 103b, which together constitute a work sensor 103 are disposed on each side of the top rail 101a. When the work sensor 103 detects a start of the operation of carrying in a work at the roller conveyor 1, the pneumatic cylinder 10 and motor 11 are actuated. Upon detection of completion of the carry-in operation at the roller conveyor 1 by the work sensor 103, the rod of the table driving cylinder 104 extends to return the slide table 102 from the operating position to the retracted position. In synchronization with the retracting motion of the slide table 102, the motor 11 is stopped and the pneumatic cylinder 10 is retracted to resume the original posture so as to lift the roller conveyor 1 to the original position.

[0025] The tray 105 is mounted on the rod 107a of a pneumatic tray supporting cylinder 107 disposed in the bottom of the main body 1, which operates so as to move the tray 105 up and down. A load sensor 106 consisting of a light emitter 106a and a light receptor 106b is disposed between the tray 105 and the slide table 102. The load sensor 106 detects the height of the stacked works stacked on the tray 105. The tray supporting cylinder 107 is designed to automatically adjust the distance between the top of the stacked works and the slide table 102 to maintain a constant separation based on the detection data of the load sensor 106.

[0026] A control box 110 is disposed below the belt conveyor 108 for transferring works from the press into the stacker 100. The control box 110 has a control panel on the surface thereof, and a controller 111 disposed therein as shown in Fig. 5. The controller 111 controls operation of the stacker by driving solenoid valves 113,114 and 115 based on the output signals of the respective sensors.

[0027] More specifically, when the work sensor 103 detects that a work is being carried to the roller conveyor 1, it outputs a start signal to the controller 111. When the work sensor 103 detects completion of the work carry-in operation at the conveyor 1, it outputs an end signal to the controller 111.

[0028] When the load sensor 106 detects that the height of the works stacked on the tray 105 has not reached yet a predetermined level, it outputs a signal to that effect (space-left signal) to the controller 111. When the load sensor 106 detects that the height of the works stacked on the tray 105 has reached the predetermined level, it outputs a signal to that effect (space-full signal) to the controller 111.

[0029] Upon receipt of the start signal, the controller 111 drives the motor 11 via a motor driver 112. At the same time, the controller 111 also operates the solenoid valve 113 so as to supply air to one chamber of the pneumatic cylinder 10 and evacuate air from the other chamber thereof, whereby the cylinder 10 is pushed out.

[0030] Upon receipt of the end signal, the controller 111 changes over the solenoid valve 113 so as to evacuate air from one chamber of the pneumatic cylinder 10 and supply air to the other chamber thereof, whereby the pneumatic cylinder 10 is retracted. At the same time, the controller 11 also operates the solenoid valve 114 so as to supply air to one chamber of the table driving cylinder 104 and evacuate air from the other chamber thereof, whereby the rod of the table driving cylinder 104 is pushed out. Immediately after completion of this operation, the controller 111 changes over the solenoid valve 114 to assume its original posture so as to retract the rod of the cylinder 104.

[0031] The controller 111 controls the solenoid valve 115 based on the space-not-full signal from the load sensor 106 so as to supply air to one chamber of the tray supporting cylinder 107 and evacuate air from the other chamber thereof, whereby the rod of the tray supporting cylinder 107 is pushed out. Upon receipt of the space-full signal from the load sensor 106, the controller 111 maintains the solenoid valve 115 in the state and allows the tray supporting cylinder 107 to keep this position.

[0032] Now, use of this stacker 100 will be described below. A work is first carried to the stacker 100 by the belt conveyor 108 and then carried into the main body 101 of the stacker 100. When the work sensor 103 detects this, the pneumatic cylinder 10 is extended to push down the roller conveyor 1, whereby the roller conveyor 1 is pivoted down on the bracket 17. At the same time, the motor 11 is driven to rotate the rolls 3, whereby the work is carried to the predetermined position by the cooperation of the rolls 3 and slide table 102. Upon completion of the work carry-in operation by the work sensor 103, the table driving cylinder 104 is actuated to move the slide table 102 to the retracted position, whereby the work drops to the tray 105 and stacked thereon.

[0033] Meanwhile, the motor 11 is stopped in synchronization with the retraction of the slide table 102 to lift the roller conveyor 1 by the retraction of the cylinder 10 and assume a stand-by posture. The slide table 102 quickly returns to the original position after dropping of the work. As the number of the works stacked on the tray 105 increases, the piston rod of the tray supporting cylinder 107 is retracted to move down the tray 105 little by little.

[0034] Since the work is carried into the stacker 100 by the roller conveyor 1 in the above embodiment, the work is designed to be brought into contact with the lower portion of each roll 3, in contrast with the conventional belt conveyor where the upper surface of the work is brought into contact with the entire surface of the belt. Accordingly, the contact area of the work with the roller conveyor 1 in this embodiment is very smaller than in the conventional conveyor, so that it never happens that the works are prevented from being released from the roller conveyor 1 by the static electricity exerted therebetween.

[0035] Moreover, the contact area with the work in each roll 3 of the roller conveyor 1 is designed to be reduced by constituting each roll 3 with three rollers 3a, so that the effect described above can be exhibited more remarkably.

[0036] Since two timing belts 2 are extended over the respective rows of toothed pulleys 4 interposed between the rollers 3a, the tension of the timing belts 2 can be applied evenly over the depth of the roller conveyor 1. Thus, the noise generated by the interference between the metal parts of the rollers 3a and the toothed pulleys 4 or abrasion of these parts and member can be prevented.

[0037] In addition, by the acts of the tension bolt 8, slot 9 and slots 18, the tension applied to the timing belts 2 can be adjusted. Accordingly, since the tension applied by the timing belts 2 to the rolls 3 can in turn be adjusted, the force applied to the work can be adjusted so as to comply with the kind of cloth.

[0038] In the above embodiment, the respective cylinders are designed to be driven by the controller 111 in response to the conditions sensed by the respective sensors. This control covers the entire process from the introduction of the works to the stacking thereof onto the tray 105. Thus minimal manual operation is required and the stacking operation can be facilitated.

[0039] This invention can also be embodied as follows:

(1) The rollers 3a can be arranged alternately as shown in Fig. 7. In this arrangement, the contact area of the work with the rollers 3a can be further reduced, and this arrangement is more effective for the mixed fiber fabric of chemical fibers which suffers notable generation of static electricity.

(2) The three rollers 3a constituting each roll 3 may be replaced by a multiplicity of discs. This constitution of the roll 3 can even further reduce the contact area of the work with the rolls 3. Thus a further reduction of the electrostatic interaction can be achieved.

(3) The surface of the roll 3 may be knurled so as to prevent slipping of the work.

(4) The pneumatic cylinder may be replaced with a hydraulic cylinder.

(5) An industrial sewing machine may be used in place of the press as an apparatus for supplying works to the main body 101 of the stacker 100.

Claims

1. A stacker for use in conjunction with an external apparatus which successively feeds textile workpieces, towards the stacker, the stacker comprising:
   stock means (105) for stocking the textile workpieces fed from the external apparatus;
   main conveyor means (1) for conveying a textile workpiece to the stock means;
   sub-conveyor means including a slidable table (102) positioned above the stock means, for conveying the textile workpiece in cooperation with the main conveyor means, and table drive means (104) for causing the table to slide between an operating position where the table can interleave the workpiece between the table and the main conveyor means, and a retracted position where the table can release the workpiece from the main conveyor means, whereby the textile workpiece disposed on the table in the operating position is dropped to the stock means in accordance with the movement of the table from the operating position to the retracted position; and
   drive means (10) for switching the main conveyor means between a first position where the main conveyor means can interleave the workpiece between the table in the operating position and the main conveyor means, and a second position where the main conveyor means separates from the table in order to permit the next workpiece to be transferred on the table,
   the stacker being characterised in that said main conveyor means including:
   a plurality of roll shafts (7) disposed in the direction in which the workpiece is conveyed, wherein each of said roll shafts (7) is provided with a plurality of spaced apart rollers (3) for contacting the workpiece, and at least one pulley (4) interposed between each pair of rollers (3);
   a timing belt (2) extended over said pulleys (4) arranged in the direction in which the workpiece is conveyed; and
   roll drive means (11, 14) for driving said timing belt (2) to rotate said plurality of rollers (3).

2. The stacker as claimed in claim 1 further comprising:
   workpiece detecting means (103) for detecting the workpiece transferred to said table from said external apparatus, and for outputting a signal indicative of the start of the transfer operation of the workpiece; and
   conveying control means (111) for controlling said conveyor drive means and said roll drive means, as a function of said signal from said workpiece detecting means.

3. The stacker as claimed in claim 1 further comprising:
   completion detection means (103) for detecting the completion of the transfer of the workpiece from the external apparatus onto said table, and for outputting a signal indicative of the completion of the transfer; and
   table drive control means (111) for controlling said table drive means (104), as a function of said signal from said completion detection means.

4. The stacker as claimed in claim 1, wherein the stock means includes a vertically movable tray (105), for receiving the workpieces, and tray drive means (107) for operating said tray.

5. The stacker as claimed in claim 4, wherein the stock means further includes:
   detecting means (106) for detecting the workpieces piled on said tray, and for outputting a detection signal indicative thereof, said detecting means being disposed at a given height between a highest and a lowest positions for said tray; and
   control means (111) for controlling said tray drive means, based on said detection signal, and for adjusting the height of said tray.

Ansprüche

1. Eine Stapelvorrichtung zur Anwendung in Verbindung mit einer externen Einrichtung, welche sukzessiv textile Werkstücke der Stapelvorrichtung zuführt, wobei die Stapelvorrichtung enthält:
Lagermittel (105) zum Lagern der textilen Werkstücke, welche von der externen Einrichtung zugeführt wurden; Hauptfördermittel (1) zum Transportieren eines textilen Werkstücks zum Lagermittel;
Subfördermittel, welche einen verschiebbaren Tisch (102) enthalten, welcher über den Lagermitteln angeordnet ist, zum Transportieren der textilen Werkstücke in Kooperation mit dem Hauptfördermittel, und Tischantriebsmittel (104), um den Tisch zu veranlassen, zwischen einer Betriebsposition, wo der Tisch das Werkstück zwischen dem Tisch und dem Hauptfördermittel verzahnen kann, und einer zurückgezogenen Position zu gleiten, wo der Tisch das Werkstück von dem Hauptfördermittel lösen kann, wobei das textile Werkstück, welches in der Betriebsposition auf dem Tisch angeordnet ist, auf die Lagermittel fallengelassen wird in Übereinstimmung mit der Bewegung des Tisches von der Betriebsposition zur zurückgezogenen Position ; und
Antriebsmittel (10) zum Umschalten des Hauptfördermittels zwischen einer ersten Position, wo das Hauptfördermittel das Werkstück zwischen dem Tisch in der Betriebsposition und dem Hauptfördermittel verzahnen kann, und einer zweiten Position, wo das Hauptfördermittel sich vom Tisch trennt, um es dem nächsten Werkstück zu erlauben, auf den Tisch übertragen zu werden,
wobei die Stapelvorrichtung dadurch gekennzeichnet ist, daß das Hauptfördermittel enthält:
eine Vielzahl von Walzenwellen (7), welche in der Richtung angeordnet sind, in welcher das Werkstück transportiert wird, wobei jede der Walzenwellen (7) mit einer Vielzahl von mit Abstand voneinander angeordneten Rollen (3) versehen ist, um die Werkstücke zu kontaktieren, und mindestens eine Riemenscheibe (4) zwischen jedem Paar von Rollen (3) angeordnet ist;
einen Synchronriemen (2), welcher sich über die Riemenscheiben (4) erstreckt, welche in der Richtung angeordnet sind, in welcher das Werkstück transportiert wird; und
Walzenantriebsmittel (11, 14) zum Antreiben des Synchronriemens (2), um die Vielzahl der Rollen (3) zu rotieren.

2. Stapelvorrichtung nach Anspruch 1, ferner enthaltend:
Werkstück-Detektionsmittel (103) zum Ausfindigmachen des Werkstückes, welches von der externen Einrichtung zum Tisch übertragen wurde, und zum Ausgeben eines Signals, welches den Start des Übertragungsbetriebes des Werkstückes anzeigt; und
Fördersteuermittel (111) zur Steuerung der Förderer-Antriebsmittel und der Walzen-Antriebsmittel als eine Funktion des Signals von den Werkstück-Detektionsmitteln.

3. Stapelvorrichtung nach Anspruch 1, ferner enthaltend:
Vollendungs-Detektionsmittel (103) zum Feststellen der Vollendung der Übertragung des Werkstückes von der externen Einrichtung auf den Tisch und zum Ausgeben eines Signals, welches die Vollendung der Übertragung anzeigt; und
Tischantriebssteuermittel (111) zur Steuerung der Tischantriebsmittel (104) als eine Funktion des Signals von den Vollendungs-Detektionsmitteln.

4. Stapelvorrichtung nach Anspruch 1, worin das Lagermittel ein vertikal bewegbares Tablett (105) enthält zur Aufnahme der Werkstücke und Tablett-Antriebsmittel (107) zum Betrieb des Tabletts.

5. Stapelvorrichtung nach Anspruch 4, worin das Lagermittel ferner enthält:
Detektionsmittel (106) zur Detektion der Werkstücke, welche auf dem Tablett gestapelt sind, und zum Ausgeben eines Detektionssignals, welches dies anzeigt, wobei das Detektionsmittel auf einer gegebenen Höhe zwischen einer höchsten und einer niedersten Position für das Tablett angeordnet ist; und
Steuermittel (111) zur Steuerung des Tablett-Antriebsmittels, beruhend auf dem Detektionssignal, und zum Einstellen der Höhe des Tabletts.

Revendications

1. Gerbeur destiné à être utilisé conjointement à un dispositif externe qui fait avancer successivement des pièces textiles en direction du gerbeur, le gerbeur comprenant :
   un moyen de gerbage (105) pour gerber les pièces textiles amenées par le dispositif externe ;
   un moyen de convoyage principal (1) pour amener une pièce textile en direction du moyen de gerbage ;
   un moyen de convoyage auxiliaire comportant une table coulissante (102) placée au-dessus du moyen de gerbage, pour convoyer la pièce textile en coopération avec le moyen de convoyage principal, et un moyen d'entraînement de table (104) pour faire coulisser la table entre une position de travail, dans laquelle la table peut intercaler la pièce entre la table et le moyen de convoyage principal, et une position rétractée dans laquelle la table peut enlever la pièce du moyen de convoyage principal, de sorte que la pièce textile placée sur la table dans la position de travail est transférée au moyen de gerbage conformément au mouvement de la table depuis la position de travail vers la position rétractée ; et
   un moyen d'entraînement pour commuter le moyen de convoyage principal entre une première position, dans laquelle le moyen de convoyage principal peut intercaler la pièce entre la table dans la position de travail et le moyen de convoyage principal, et une deuxième position dans laquelle le moyen de convoyage principal se sépare de la table afin de permettre à la pièce suivante d'être transférée sur la table,
   le gerbeur étant caractérisé en ce que ledit moyen de convoyage principal comprend ;
   une pluralité d'arbres de rouleaux (7) placés dans la direction dans laquelle la pièce est convoyée, chacun desdits arbres de rouleaux (7) étant muni d'une pluralité de rouleaux (3) se mettant au contact de la pièce, et d'au moins une poulie intercalée entre chaque paire de rouleaux (3) ;
   une courroie de synchronisation (2) s'étendant pardessus lesdits poulies (4) dans la direction dans laquelle la pièce est convoyée ; et
   un moyen d'entraînement (11, 14) des rouleaux pour entraîner ladite courroie de synchronisation (2) afin de faire tourner ladite pluralité de rouleaux (3).

2. Gerbeur selon la revendication 1, comprenant, en outre :
   un moyen de détection de pièce (103) pour détecter la pièce transférée vers ladite table depuis ledit dispositif externe, et pour délivrer un signal indiquant le début de l'opération de transfert de la pièce ; et
   un moyen de commande de convoyage (111) pour commander ledit moyen d'entraînement de convoyage et ledit moyen d'entraînement de rouleaux, en fonction dudit signal délivré par ledit moyen de détection de pièce.

3. Gerbeur selon la revendication 1, comprenant de plus:
   un moyen de détection de fin (103) pour détecter la fin du transfert de la pièce depuis ledit dispositif externe sur ladite table, et pour délivrer un signal indiquant la fin du transfert ; et
   un moyen de commande de l'entraînement de table (111) pour contrôler ledit moyen d'entraînement de table (104) en fonction dudit signal délivré par ledit moyen de détection de fin.

4. Gerbeur selon la revendication 1, dans lequel le moyen de gerbage comprend un bac mobile verticalement (105) pour recevoir les pièces, et un moyen d'entraînement de bac (107) pour actionner ledit bac.

5. Gerbeur selon la revendication 4, dans lequel le moyen de gerbage comporte en outre :
   un moyen de détection (106) pour détecter les pièces empilées sur ledit bac, et pour délivrer un signal de détection indicatif de cela, ledit moyen de détection étant placé à une hauteur donnée entre des positions supérieure et inférieure dudit bac ; et
   un moyen de commande (11) pour commander ledit moyen d'entraînement de bac, sur la base dudit signal de détection, et pour régler la hauteur dudit bac.

Drawing