WO2007000188A1 - Dispositif de transport, notamment pour une station de transfert d'un transporteur a crochets - Google Patents

Dispositif de transport, notamment pour une station de transfert d'un transporteur a crochets Download PDF

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Publication number
WO2007000188A1
WO2007000188A1 PCT/EP2005/053048 EP2005053048W WO2007000188A1 WO 2007000188 A1 WO2007000188 A1 WO 2007000188A1 EP 2005053048 W EP2005053048 W EP 2005053048W WO 2007000188 A1 WO2007000188 A1 WO 2007000188A1
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WO
WIPO (PCT)
Prior art keywords
transport device
transport
region
slide rail
drive
Prior art date
Application number
PCT/EP2005/053048
Other languages
German (de)
English (en)
Inventor
Franz Gärtner
Original Assignee
Gaertner Franz
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Gaertner Franz filed Critical Gaertner Franz
Priority to PCT/EP2005/053048 priority Critical patent/WO2007000188A1/fr
Publication of WO2007000188A1 publication Critical patent/WO2007000188A1/fr

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/22Devices influencing the relative position or the attitude of articles during transit by conveyors
    • B65G47/26Devices influencing the relative position or the attitude of articles during transit by conveyors arranging the articles, e.g. varying spacing between individual articles
    • B65G47/261Accumulating articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G19/00Conveyors comprising an impeller or a series of impellers carried by an endless traction element and arranged to move articles or materials over a supporting surface or underlying material, e.g. endless scraper conveyors
    • B65G19/02Conveyors comprising an impeller or a series of impellers carried by an endless traction element and arranged to move articles or materials over a supporting surface or underlying material, e.g. endless scraper conveyors for articles, e.g. for containers
    • B65G19/025Conveyors comprising an impeller or a series of impellers carried by an endless traction element and arranged to move articles or materials over a supporting surface or underlying material, e.g. endless scraper conveyors for articles, e.g. for containers for suspended articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G2201/00Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
    • B65G2201/02Articles
    • B65G2201/0229Clothes, clothes hangers

Definitions

  • Transport device in particular for a transfer station of a hook conveyor
  • the invention relates to a transport device, in particular for a transfer station of a hook conveyor for hanging on hooks Good according to the preamble of claim 1.
  • the object of the invention is to provide a transport device for hanging on hangers, especially hangers Good, with which a variety of different hangers with different clothes hanger hook dimensions is transportable. Furthermore, it is an object of the invention to provide a transport device in which the position of the hanger is always defined during the transport process and in particular an uncontrolled pivoting about a vertical axis is avoided. Another object of the invention is to provide a separating device with which any succession of hangers with different hanger hook geometries can be reliably separated.
  • Figure 1 is a schematic side view of a transport device according to the invention, which is arranged in the region of a transfer station of a hook conveyor;
  • Figure 2a-2c is a fragmentary front view of the transport device according to the invention according to Figure 1 in a teilgeschriittenen view, wherein a transport situation with a wire hanger hook (Figure 2a), a plastic hanger hook with a thicker hanger cross-section (Figure 2b) and another hanger with a further embodiment of a hanger geometry (Figure 2c) is shown;
  • FIG. 3 shows a schematic diagram of a synchronous drive device for the transport device according to the invention and the singulation device according to the invention in a sectional view
  • FIG. 4 shows a detail sectional view through a drive mechanism for the separating device and a partial region of the transport device;
  • FIG. 5 shows a schematic representation of the separating device in a first operating state in side view (lifter lowered);
  • FIG. 6 the separating device according to FIG. 5 in a second operating state (lifter raised);
  • FIG. 7 shows schematically a movement curve of the singulation device during a drive cycle
  • FIGS. 9a-9c show schematically a singling process using the example of a central bow hook cross section
  • Figure 11 a further schematic side view of the transport device according to the invention and a separating device according to the invention.
  • a transport device 1 according to the invention has a slide rail 2 and a double chain conveyor designed as a circulation conveyor with two chain conveyors 3, 3a.
  • the transport device 1 is arranged vertically below a hook conveyor 4 and together with it forms an overlay.
  • a hook conveyor 4 has a transport rail 5, which is designed as a hollow profile rail and has a groove or a channel in which a traction means 62 (cf., FIG. 3), for example a chain, circulates for transport hooks 6.
  • a plurality of transport hooks 6 is connected to the traction means 62.
  • the transport hooks 6 are movable by means of the traction means 62 in a transport direction 7 and are arranged at a defined distance d from each other.
  • the defined distance d between two transport hooks 6 is, for example, twelve chain links of the traction means 62 in the transport rail 5.
  • the slide rail 2 has a feed region 10, which preferably has a gradient and is designed as a chute.
  • a valley area 11 and a driving area 12 adjoin the feed area 10, the valley area 11 forming the transition between the gradient of the feed area 10 and the pitch of the entrainment area 12.
  • the transfer area 13 extends parallel spaced ' below the transport rail 5 of the hook conveyor 4.
  • the feed area 10, the valley area 11 and portions of the driving area 12, below a collision level 18th lie below a lower edge 14 of the transport hook. 6
  • the slide rail 2 has an upper edge or an upper boundary surface 15, resting on the hanger hooks 16, on which the material 17 to be conveyed is hung on hangers 16.1.
  • the slide rail 2 is in the feed region 10, in the valley arch region 11 and at least in a partial region of the entrainment region 12, which is below the collision level 18.
  • the slide rail 2 is with its Gleitschienenunterwandung 20 via a slide rail holder 23 with a device cheek 24th mechanically firmly connected.
  • the device cheek 24 faces a second device cheek 26 symmetrically to a slide rail center plane 25.
  • the hanger hook 16 of a clothes hanger 16.1 is therefore preferably in the corner between the Gleitschienenoberwandung 21 and the Gleitschienenurbanwandept 22, so that the hanger hook 16 of a hanger 16.1 touches the slide rail 2 at least two places.
  • the slide rail 2 of only 2 is substantially vertically extending .
  • Gleitschienenannoyingwandungen 22 fork-shaped, so that between the Gleitschienenseicenwandungen 22 a free passage gap 22.1 is formed for the transport hooks 6 in the longitudinal direction of the hook conveyor 5.
  • the slide rail 2 thus has neither a slide rail upper side wall 21 nor a slide rail underside wall 20, so that a free passage of the transport hooks 6 along the transport direction 7 is made possible.
  • a first deflection means 30 is provided in the region above the valley region 11, in the region of a free end 31 of the transfer region 13 a second deflection means 32 and in the region vertically above the Zu manufacturedbe- area 10 approximately at the height of the second deflection means 32.
  • a further deflection means 33 is arranged.
  • a traction means 34 is arranged circumferentially.
  • the deflection means 30, 32, 33 are designed as rollers or pinions.
  • the traction means 34 is a chain and is driven along a circumferential direction 35, in particular driven by a motor.
  • the traction means 34 extends at least in the area of the valley arch area 11, the entrainment area 12 and the transfer area 13 in a side view parallel to the slide rail top wall 21.
  • the load-free run of the chain conveyor 3 extends a little adjacent below the transport rail 5 of the hook conveyor 4
  • a further deflection means for example a deflection roller (not shown).
  • a tensioning means 36 for example a roller or a pinion, which is adjustable, for example, in a direction 37 perpendicular to the direction of rotation 35 of the traction means 34 in the region between the deflection means 33 and 30 is, so that the course of the traction means 34 between the deflection means 33 and 30 is variable such that a portion 34.1 of the traction means 34, for example, parallel to the Gleitschienenoberwandung 21 of the feed portion 10 extends.
  • the inlet angle of the traction means 34 in the partial region 34.1 is adjustable relative to the slide rail 2.
  • the feed region 10 of the slide rail 2 has a separating device 110, which is arranged in the transport direction 7 in front of the region in which the chain conveyor 3 or the traction means 34 of the chain conveyor 3 runs adjacent or at the level of the slide rail top wall 21 of the slide rail 2.
  • the separating device 110 divides the feed area 10 into a damming area 10.1 and a slip ramp area 10.2.
  • the impoundment area 10.1 slidably sliding a variety of hangers 16.1 can be dammed with them hung on 17 Good.
  • the separating device 110 ensures that from the accumulation area 10.1, the stirrups 16.1, with the goods 17 hanging therefrom, pass individually into the slip ramp area 10.2 of the slide rail 2.
  • a chain conveyor 3 In the view according to Figure 1, only a chain conveyor 3 is shown, the traction means 34 has the above-described course.
  • two such chain conveyors 3, 3a are arranged symmetrically to the center plane 25 adjacent to the slide rail 2, so that in the view of Figure 1, a chain conveyor plane 50 (Figure 2a-2c) of the first chain conveyor 3 is arranged in front of the slide rail 2 and a second chain conveyor plane 50a of the second chain conveyor 3a is arranged behind the slide rail 2.
  • the chain conveyor planes 50 and 50a are shown schematically in FIGS. 2a-2c and 3. In the chain conveyor plane 50 of the chain conveyor 3 runs with all the above elements.
  • the chain conveyor plane 50a runs a chain conveyor 3 identical to the chain conveyor 3a, which is identical to the chain conveyor 3 and is arranged symmetrically to the center plane 25. Both chain conveyors 3 and 3a thus run congruently in the view according to FIG. 1, so that the entire preceding description for the chain conveyor 3 also applies mutatis mutandis to the chain conveyor 3a.
  • the components of the chain conveyor 3a are provided corresponding to the components of the chain conveyor 3 in each case with respect to their reference numerals with the addition "a".
  • the traction means 34 of the chain conveyor 3 corresponds to the traction means 34a of the chain conveyor 3a.
  • the chain conveyors 3, 3a together form the double chain conveyor 3, 3a designed as a circulation conveyor.
  • 3a 1 carrier devices 39 are arranged at regular intervals ( Figure 2a-2c, 3), which extend horizontally in the direction of the median plane 25 from the respective chain conveyor plane 50, 50a of the traction means 34, 34a ,
  • the entrainment devices 39, 39a are configured, for example, as driving pins, which each have a free end 40, 40a.
  • the driving pins 39, 39a are otherwise fixedly connected to a chain link of the traction means 34, 34a and thus run with the traction means 34, 34a along the direction of rotation 35.
  • the traction means 34, 34a of the chain conveyors 3, 3a extend adjacent to the slide rail 2, the traction means 34, 34a are defined in traction means guides 41, 41a.
  • the traction means guides 41, 41a are fastened to the guiding cheeks 26, 24.
  • the free ends 40, 40a of opposing drive pins 39, 39a have a distance from each other, which is preferably at least chosen so large that they correspond to the gap 22.1, so that between the free end 40, 40a of the drive pins 39, 39a, the transport hooks 6 can pass freely.
  • the free ends 40, 40a of the drive pins 39, 39a extend directly adjacent to the slide rail 2 in the region of the slide rail top wall 21, but without touching them (see FIG.
  • the drive pins 39, 39a preferably extend in the region of the free upper edges of the slide rail side walls 22 (see FIG. In any case, however, it must be ensured that the driving pins 39, 39a with their free ends 40, 40a so far spaced from each other, that a free passage of the transport hooks 6 is ensured.
  • the driving pins 39, 39a together with the slide rail 2 make it possible to transport hanger hooks 16 of very different hanger hook geometries (see Figures 2a, 2b and 2c) with good hanging on hangers sliding on the slide 2, since the driving pins 39, 39a abut on both sides on a slide hook resting on the slide rail 2, in particular symmetrically with respect to the center plane 25, and move the latter slidingly on the slide rail 2 when the pull means 34 or 34a is moved in the direction of rotation 35.
  • the two chain conveyors 3, 3a and their traction means 34, 34a are synchronously driven to each other, so that two opposing driving pins 39, 39a with respect to a common longitudinal axis in alignment with the direction of rotation 35 are movable. This ensures that a hanger hook 16 resting against a pin pair 39, 39a can be transported uniformly along the slide rail 2 without movement about a vertical axis 42.
  • the drive of the chain conveyors 3, 3a takes place synchronously with one another synchronously by means of a synchronous drive device 60.
  • the synchronous drive device 60 is designed, for example, as a transfer case and designed in the design of a bevel gear.
  • the transmission 60 is on the output side via a drive chain 61, 61a with each chain conveyor 3, 3a in conjunction.
  • the transfer case 60 will be explained in more detail below with reference to FIG.
  • the gear 60 is located above the transport rail 5, in which the traction means 62 for the transport hooks. 6 running.
  • the transport rail 5 has in a section a Dürrgriffs greatest 63, (see also Figure 1) which is penetrated by a drive pinion 64.
  • the drive pinion 64 is connected to a transmission input shaft 65 in connection, which is rotatably mounted about a vertical drive axis 66.
  • the transmission input shaft 65 has the bevel gear 64 opposite a bevel gear 67, which meshes with a corresponding bevel gear 68 of an output shaft 6.9.
  • the output shaft 69 is rotatably mounted about a horizontal axis 69.1 and has at its first free end an output pinion gear 70.
  • This output gear 70 is associated with the chain conveyor 3 and is connected to this via a chain drive 71 in connection.
  • the chain drive 71 cooperates with a drive shaft 72, on which a drive pinion 73 is seated. At the other end sits on the drive shaft 72 as a drive pinion, the deflection means 32, which is in engagement with the traction means 34 of the chain conveyor 3.
  • the drive shaft -72 is rotatably mounted in the device che 26 by means of a roller bearing 75 about a horizontal axis parallel to the axis 69.1.
  • the drive shaft 69 is extended beyond the pinion 70a out and has at its free end a further output gear 80, which is connected via a further chain drive 81 with a drive gear or a drive pinion 82 in connection.
  • the drive pinion 82 is seated on an eccentric shaft 83, which is rotatably mounted about a horizontal axis 84.
  • the eccentric shaft 83 is rotatable in a bearing block 85. bar mounted, which is fixed to a bearing cheek 86.
  • the bearing cheek 86 is spaced from the device cheek 24 a bit outside offset to this.
  • a plate-shaped control lever 87 is arranged, which is in communication with an eccentric 88 of the eccentric shaft 83.
  • the control lever 87 is pivotally mounted about a horizontal axis 89 and is mechanically fixedly connected to an actuating arm 90.
  • the actuating arm 90 is connected to the lever 87, for example by means of screws 90.1.
  • the actuating arm 90 is formed cranked and extends from the lever 87 the chain conveyor 3a in the area of the separating device 110 under cross-up to the median plane 25 and is there with a release lever 91 of the separating device 110, which will be described in more detail below, in conjunction.
  • the pinion 80, the chain drive 81, the pinion 82, the eccentric shaft 83 with the eccentric 88, the lever 87 and the actuating arm 90 thus form a drive device for the Ausheberhebel 91 of the separating device 110, which is thus also driven via the gear 60.
  • both the drive of both chain conveyors 3 and 3a of the transport device 1 and the drive of the separating device 110 are mechanically coupled via the gear 60 to the traction means 62 of the hook conveyor 4.
  • the mechanically strong coupling of the drive means in relation to the traction means 62 of the hook conveyor 4 has the particular advantage that both the separation of accumulating hanger hooks 16 in the stowage area 10.1 and the drive of the chain conveyors 3 and 3a, a mechanical fixed assignment with regard to their sequence of movements in response to the hook conveyor 4 have.
  • FIG. 4 essentially corresponds to the lower part of FIG. 3 and is shown somewhat enlarged so that the reference symbols from FIG. 3 have been adopted.
  • FIG. 4 is a schematic sectional view in the feed region 10 of the slide rail 2, in the fall of which the separating device 110 is arranged. Inside the slide 2 sits the release lever 91, which has a Aushebervorsprung 92. Adjacent to the Ausheberhebel 91 sit stowage cheeks 93, 94.
  • the stowage cheeks 93, 94 extend beyond the upper boundary surface 15 of the slide rail 2 a piece, so that incoming hanger hooks 16 can be held jammed by the stowage cheeks 93, 94.
  • the stowage cheeks 93, 94 have a stowage edge 95 and a sliding ramp 96 (see Figures 5 and 6).
  • the Staukarite 95 protrudes a piece over the top 15 of the slide rail 2, so that hanger hooks 16, which slide down in the Aufstau Buffalo 10.1 on the slide rail 2, abut the storage edge 95.
  • the release lever 91 is pivotally mounted about the axis 89 with respect to the slide rail 2.
  • This pivot axis 89 is the axis about which the lever 87 is pivotally mounted with respect to the cheek 24.
  • the lever 87 is substantially flat-plate-shaped and has a closed recess 97, whose output Tietungsbegrenzungskante forms a control surface, which cooperates with the eccentric 88.
  • the eccentric 88 driven via the chain drive 81 performs an eccentric movement along the circular path 98.
  • the lever 87 can be driven in a pivoting movement along the double arrowed direction 99 back and forth about the axis 89.
  • the control surface of the recess 97 is constantly in contact with the eccentric 98, the lever 87 is biased counterclockwise about the axis 89 by means of a tension spring device 100.
  • the lever 87 is, as described above, via the actuating arm 90, which is shown only schematically in Figure 5, with the release lever 91 in connection.
  • the release lever 91 In a starting position according to FIG. 5, the release lever 91 is arranged completely inside the slide rail 2.
  • the release lever 91 has a lever arm 101, which is rotatably mounted at its free end 102 about the axis 89 in the slide rail 2.
  • At the end 103 opposite the free end 102 sits on the release lever 91 at its upper edge 104 of the Aushebervorsprung 92, which is arranged in the initial position shown completely within the slide rail 2 and seen in the transport direction 7 is a piece in front of the stowage cheeks 93, 94.
  • the free end 103 of the Ausheberhebels 91 is aligned with a first boundary edge 106 of the Aushebervorsprunges 92. Opposite the edge 106 of the Aushebervorsprung 92 is ramped by a sloping edge 107 sloping. The edges 107 and 106 converge towards each other in a side view and are rounded in a tip region 108 of the lifter projection 92. The edge 106 of the lifter projection 92 continuously merges into a boundary edge 109 of the lifter lever 91. The edges 106 and 109 together form a crowned end edge of the lifter lever 91. In the position according to FIG.
  • the lifting lever 91 is shown in its raising position, that is to say it is pivoted relative to the position from FIG. 5 along the direction of the arrow 120.
  • the lever 87 is pivoted about the axis 89 by means of the eccentric 88 in the clockwise direction along the direction of arrow 99.
  • the tension spring device 100 is stretched in relation to the position according to FIG.
  • the upper edge 104 is aligned in a side view approximately with the upper edge 15 of the slide rail 2.
  • the lifter projection 92 is moved between the stowage cheeks 93, 94 along the direction of arrow 120 upwards, so that the tip portion 108, the stowage cheeks 93, 94 projects a piece (Fig 6).
  • the spatial form of the recess 97 of the lever 87 is adapted to the eccentric 88 such that a jerk-free movement sequence of the pivoting movement of the lifter lever 91 is ensured.
  • a suitable Aushebe characterizing the Ausheberhebels 91 for an eccentric rotation is shown in Figure 7.
  • the Aushebe characterizing runs starting from a zero line 200 in an area up to 90 ° of an eccentric rotation arcuately rising and increases from about 90 ° eccentric rotation to slightly below 180 ° of the eccentric rotation linear. At about 210 °, the maximum Aushebhub 201 is reached.
  • FIG. 8a the ejection lever 91 is in a starting position, so that the ejector projection 92 is arranged upstream of the stowage cheeks 93 and 94 below the upper side 15 of the slide rail 2 in the transport direction 7.
  • a plurality of hanger hooks 16, for example, of different cross-sectional geometry arranged dammed, wherein the stowage cheeks 93 and 94 to be singled hanger hook 16 'rests with a relatively small hanger cross-section.
  • the release lever is activated
  • the isolated hanger hook 16 'slips along the ramp edge 96 of the stowage cheeks 93, 94 and slides on the top 15 of the slide 2 from.
  • the remaining stowed hanger hooks 16 are in this position on the edge 106 and remain dammed. Subsequently, by means of the drive for the ejection lever 91, the latter is moved into its basic position according to FIG. 8, from which a renewed singling process can be started.
  • FIGS. 9a-9c a separation process will now be briefly described using the example of a hanger hook 16 'to be singled with a central hoop hook cross-section.
  • the singling process for such a middle bow hook cross section is identical to that for a small bow hook cross section according to FIGS. 8a-8c, wherein a hoop hook of middle bow hook cross-section during lifting by means of release lever 91 essentially rests on the rounding of the tip region 108 of FIG Lift-out projection 92 is raised. Due to the gradient of the slide rail 2 in the region of the separating device 110, the hanger hook 16 is guided resting on the rounded tip region 108 and adjacent to the stowage cheeks 93, 94.
  • hanger hook 16 'to be separated slips analogously to the hanger hook with small cross-section according to the figures 8a-8c on the stowage cheeks 93, 94 and in the further course on the slide rail 2 from.
  • the hanger hook 16 'following the hanger hook 16' to be singled is a bit further away from the stowage cheeks 93, 94 because of the slightly larger hanger hook cross section of the hanger hook 16 'to be separated in comparison to the situation according to FIGS. 8a-8c, so that the following hanger hook 16 '' occurs only in the region of the ktirnkanten 106 with the release lever 91 in contact.
  • the hanger hook 16 'to be singled with middle hanger hook cross-section slides analogously to the situation according to FIG. 8 c on the stowage cheeks 93, 94 and then on the upper side 15 the slide 2 from.
  • the release lever 91 is again moved by means of the drive described above into the starting position or into the basic position according to FIG. 9a. Subsequently, a new separation process with the subsequent hanger hook 16 '' are initiated.
  • the following hanger hook 16 '' prevents the hanger hook 16 'to be separated in this position from falling down against the transport direction 7, which would prevent separation or reliable lifting of the hanger hook 16' via the stowage ramps 93, 94.
  • the following hanger hook 16 In the upper end position according to FIG. 10c of the release lever 91, the following hanger hook 16 "rests against the edge 106 of the release lever 91.
  • Bugelhaken 16 ' passes due to the slope of the slide 2 of the tip portion 108 of Aushebervorsprungs 92 on the ramp edge 96 of the Stauangswargen 93, 94 and slips on this and subsequently on the top 15 of the slide rail 2 and is thus isolated.
  • a Bugelhaken 16 'with a small Bugelhakenquerrough can be raised between the Aushebervorsprung 92 and the Stauungswangen 93, 94 without the support effect of the first subsequently accumulated strap 16''.
  • the lever 87 can be decoupled from the eccentric 88 by means of a decoupling device 121, so that the drive of the ejection lever 91 can be switched off.
  • the decoupling device 121 is, for example, a linear actuator, which pivots the lever 87 against the spring tension of the tension spring 100 a piece about the axis 89, so that the eccentric 88 is disengaged from the control surface of the recess 97. In this position, the eccentric thus goes "empty". A drive transmission to the release lever 91 does not take place in this position.
  • the decoupling device 121 can be designed, for example, as a piston-cylinder device which can be operated hydraulically or pneumatically or as a magnetic adjustment device.
  • the circulating conveyor is designed in the manner of a double circulation conveyor, which defines transportable hanger hooks 16 of transportable hangers 16.1 defined along a slide rail 2, without a torsional vibration occurring about a vertical axis of the goods to be transported. Furthermore, due to the configuration as a double chain conveyor 3, 3a or as a double circulation conveyor with spaced ends of the entrainment devices 39, 39a a very space-saving design possible because between the free ends of the driving pins 39, 39a a transport hook 6 of a hook conveyor 4 can pass through and thus in the transfer area 13th the slide 2 can catch and hold a hanger hook 16 located there, for example, on a bracket 16.1 hanging good.
  • a separating device according to the invention has the particular advantage that it is coupled in terms of their drive to the circulation conveyor and in particular to the hook conveyor, so that the separation of hangers in a simple manner to a hook spacing d of the hook conveyor 4 is adjustable and remains fixed during the operating period , Nevertheless, the separating device 110 can be at least partially decoupled from the drive in a simple manner by means of the decoupling device, so that an idling of the circulating conveyor and the hook conveyor 4 is possible, for example for adjustment purposes or test runs, without the hanger hook 16 or hanger 16.1 being fed to the hook conveyor 4 become.
  • the transport device 1 according to the invention in particular in interaction with the separating device 110 according to the invention, is therefore suitable in a special way as Transfer station of individual from a lot of dammed hanger hook 16 removed hanger hook 16 to a hook conveyor. 4

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Chain Conveyers (AREA)

Abstract

L'invention concerne un dispositif de transport, destiné notamment à être utilisé dans une station de transport pour un transporteur à crochets (4). Le dispositif de transport selon l'invention comprend une glissière (2) sur laquelle des crochets à cintre (16), portant par exemple des articles (17) suspendus sur des cintres (16.1), sont déplacés par glissement au moyen d'un dispositif d'entraînement. Ce dispositif d'entraînement est réalisé sous forme de transporteur rotatif double comprenant deux transporteurs rotatifs (3, 3a) qui présente chacun un mécanisme de traction (34, 34a). Sur ces mécanismes de traction sont fixés des dispositifs entraîneurs (39, 39a) qui se font face à distance l'un de l'autre, qui sont respectivement adjacents à la glissière (2) et qui agissent sur le crochet (16), par exemple d'un cintre à vêtement (16.1) à transporter.
PCT/EP2005/053048 2005-06-28 2005-06-28 Dispositif de transport, notamment pour une station de transfert d'un transporteur a crochets WO2007000188A1 (fr)

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Application Number Priority Date Filing Date Title
PCT/EP2005/053048 WO2007000188A1 (fr) 2005-06-28 2005-06-28 Dispositif de transport, notamment pour une station de transfert d'un transporteur a crochets

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Application Number Priority Date Filing Date Title
PCT/EP2005/053048 WO2007000188A1 (fr) 2005-06-28 2005-06-28 Dispositif de transport, notamment pour une station de transfert d'un transporteur a crochets

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019210935A1 (fr) * 2018-04-30 2019-11-07 Cargo Sous Terrain Ag Système de transport, de stockage et de séquencement pour marchandises

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US3124236A (en) * 1964-03-10 F gerisch
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EP0700849A1 (fr) * 1994-09-07 1996-03-13 Franz Gärtner Dispositif de séparation
EP0879775A1 (fr) * 1997-05-21 1998-11-25 Franz Gärtner Dispositif de séparation
DE10309186A1 (de) * 2003-03-03 2004-09-16 Wf Logistik Gmbh Hängefördereinrichtung

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EP0700849A1 (fr) * 1994-09-07 1996-03-13 Franz Gärtner Dispositif de séparation
EP0879775A1 (fr) * 1997-05-21 1998-11-25 Franz Gärtner Dispositif de séparation
DE10309186A1 (de) * 2003-03-03 2004-09-16 Wf Logistik Gmbh Hängefördereinrichtung

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019210935A1 (fr) * 2018-04-30 2019-11-07 Cargo Sous Terrain Ag Système de transport, de stockage et de séquencement pour marchandises

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