EP0859716A1

EP0859716A1 - Rail-mounted conveyor system and method of operating it

Info

Publication number: EP0859716A1
Application number: EP96937273A
Authority: EP
Inventors: Jacques Fajeau; Dirk BRUNNENGRÄBER
Original assignee: Telelift GmbH
Current assignee: Telelift GmbH
Priority date: 1995-11-09
Filing date: 1996-10-29
Publication date: 1998-08-26
Anticipated expiration: 2016-10-29
Also published as: PL325643A1; DK0859716T3; AU7494596A; ES2135933T3; KR19990067451A; BR9611395A; JP2000500412A; CN1201426A; AU708565B2; EP0859716B1; DE59602500D1; NZ321585A; WO1997017242A1; ATE182294T1

Abstract

The conveyor system proposed has self-propelled carriages (22) which travel on rails (12). To simplify and improve the conveyor system, the carriages (22) are fitted with a rigidly mounted container (24) having a cavity in which boxes (26) intended for the conveyance of goods can be placed and held. The boxes (26) are loaded into the container and unloaded again at loading and unloading stations (10).

Description

Rail-bound conveyor system and process for your company

Technical field

The invention relates to a rail-bound conveyor system according to the preamble of claim 1 and a method for its operation according to claim 18.

State of the art

Rail-bound conveyor systems of the type mentioned at the outset are known, for example from EP 0 513 460 B1. In this rail-bound conveyor system, the trolley has connecting means in the form of coupling means which are arranged on the top of the trolley and with the foot part of one to be conveyed Cooperate. These coupling means consist of profiled side parts running parallel to the rails, into which the conveying container can be inserted in the conveying direction or which can be folded in and out transversely to the conveying direction against the foot part of a conveying container. It is disadvantageous that, in the case of a vertical route, no stations can be arranged one above the other. A station can only be provided at the end of a vertical line, since a ramp for receiving the container must always be arranged at the station below the container. Even then, the conveyor container can only be released when the conveyor car has left the station upwards. The desired versatility of using the trolley for several conveying containers is therefore subject to narrow limits.

US Pat. No. 4,015,537 describes a further rail-bound conveyor system in which a vertically standing container is connected to a trolley by means of a swivel device. In this conveyor system, no means are provided to separate the conveyor container from the trolley at one station. As a result, a separate trolley is required for each conveyor container, which makes the conveyor system very complex.

Presentation of the invention

The object of the invention is to provide a rail-bound conveyor system of the type mentioned at the outset which enables stations to be arranged at any point in vertical rail tracks of a route network and always ensures the delivery of a conveyor container from the trolley.

According to the invention, the object is achieved by:

the conveyor system according to claim 1; and the method for operating them according to claim 18.

The fact that the transport container can be arranged either in a receptacle firmly connected to a conveyor or on a receiving platform pivotally connected to a conveyor, whereby both the receiving opening of the receiving container and the receiving platform can be synchronized with a loading and / or unloading ramp of a station Such a station can be arranged at any point along a vertical route, since no receiving ramps must now project through the stations into the conveying cross-section of a conveying system in order to be able to receive a conveying container. Furthermore, no special diverters and diverters are required. The design of the trolley according to the invention is particularly suitable for vertical routes. In certain configurations, the trolley is also suitable for other routes.

Advantageous embodiments of the conveyor system are described in claims 2 to 17 and the method for its operation in claims 19 and 21. In the case of simple routes, it may suffice to ^" arrange the delivery container unsecured in the receptacle. For more complicated conveying tasks, in particular when traveling overhead, it is essential to equip the receptacle with a securing device for securing the delivery container in the receptacle The securing device according to claim 3 can be designed as a mechanical snap-in element, which can be released by hand in simpler cases, but can preferably be released by a motor, for example by electromagnetic means. Another particularly preferred embodiment of the securing device is described in claim 4 with a permanent magnetic holding magnet, which can be deactivated by energizing and thereby releases the delivery container.

In the simplest case, the conveying container can at most be supported on the side walls of the receiving container. The loading and unloading of the receptacle is facilitated by an embodiment according to claim 5 and the transport device can be inactive and, for example, consist of a roller conveyor according to claim 6, so that the conveying container automatically comes out of the receptacle when the securing device is released. An embodiment according to claim 7 is more advantageous, in which case the transport device actively brings about the loading and unloading of the conveying container at a station.

If the trolley has a receiving platform, this can be a simple plate for the simplest conveying tasks. The receiving platform can be loaded or unloaded by moving the conveying container transversely to its longitudinal direction, but preferably in its longitudinal direction, in order to prevent the conveying container from tipping over. The conveyor system is preferably designed according to claim 8 for guiding the conveying container on the receiving platform and for partial securing. However, an embodiment according to claim 9 is more advantageous in order to prevent the conveying container from sliding down during the conveyance. There are numerous examples of the design of the safety device, in particular a configuration analogous to claims 3 and 4 is also possible. Such safety devices can be released manually, but they are preferably equipped with a motor drive. Claim 10 describes a securing device that is particularly advantageous for a receiving platform.

The receiving platform can be loaded and / or unloaded manually with a conveyor container, but a configuration according to claim 11 is more expedient, in particular if the conveyor system is to be operated automatically.

It is expedient to provide means that switch off the pivoting of the receiving platform at a station in order to ensure safe loading and unloading of the receiving platform at the station. For this purpose, parts of the receiving platform can be equipped with stationary guide and drain guides at one station. Claim 12 describes a particularly simple solution.

There are various possibilities for the configuration of the station for loading and unloading a trolley with a conveyor container, the corresponding ramps being simple slides on which the conveyor container is moved by hand in order to load or unload a conveyor trolley. unload. However, an embodiment of the station according to claim 13 with a transport device for loading and unloading the trolley is more advantageous. The transport device can be inactive, for example it can consist of a simple roller base or a rotating conveyor belt. However, it is more advantageous if the transport device is provided with a corresponding drive device for loading and unloading.

To unload the trolley, an embodiment of the station according to claim 14 is advantageous. The loading of a trolley can be done by designing the station according to claim 15 be improved. If more than one conveying container is in a waiting position at the same time on a loading station, an embodiment of the conveying system according to claim 16 is advantageous. The stop member or members can be operated from the trolley, in which there is, for example, an extendable plunger which interacts with a corresponding actuating member for the stop member. However, it is also possible for a corresponding drive device, for example an electromagnet, to be arranged directly at the station. The operation can be carried out manually via a corresponding switch or automatically when a trolley arrives via a corresponding control device of the conveyor system.

A particularly advantageous transport device is described in claim 17, which makes it possible to ensure a transport for loading or unloading a trolley that spans between the trolley and the ramp of the station.

There are various possibilities for controlling the conveyor system and loading and unloading, from simple manual operation to semi-automatic to fully automatic operation using corresponding control systems. Such control systems are generally known, so that there is no need to go into them here. The control of the conveyor system can be simplified by a method for operation according to claim 18. A development of the method according to claims 19 and / or 20 is advantageous in order to prevent the trolleys from opening. An advantageous control of the conveyor system is described in claim 21.

Brief description of the drawings

Exemplary embodiments of the invention are described in more detail below with the aid of schematic drawings, in which:

1 shows a loading station and an unloading station on two vertical rail tracks of a conveyor system, in plan view; FIG. 2 shows an unloading station, in a diagrammatic representation;

Figure 3 shows a transport device at a station for

Unloading or loading a trolley with a conveyor container, in a view transverse to the loading or unloading direction;

Figure 4 shows the transport device of Figure 3, in plan and partially cut;

Figure 5 shows another transport device on a

Station, in floor plan;

Figure 6 shows the transport device of Figure 5 in a view of the driver pin, in detail;

7 shows a trolley with a receptacle and a conveying container with a securing device of the same, in a side view and transversely to the conveying direction;

Figure 8 shows the safety device of Figure 7, in detail and on a larger scale;

FIG. 9 shows a second securing device, in detail and on a larger scale;

FIG. 10 shows a third securing device, in detail and on a larger scale;

Figure 11 shows a loading station with a trolley, in

Side view and across to the promotion;

FIG. 12 an unloading station with a trolley, in

Side view and across the conveying direction;

FIG. 13 shows a further conveyor system in a detail with a conveyor carriage with a receiving platform for a conveyor container at a station, in a view transversely to the conveying direction and to the rail plane;

Figure 14 shows the conveyor system of Figure 13 in the view

XV-XV of Figure 13;

Figure 15 shows the conveyor system of Figure 13 in section XV-XV;

FIG. 16 shows a loading station and an unloading station arranged underneath, viewed transversely to the conveying direction and to the rail plane;

FIG. 17 loading and unloading stations arranged next to one another in a view transverse to the conveying direction and parallel to the rail plane; FIG. 18 shows the diagram of a conveyor system with rails and control rail sections guided in a circuit; and

Figure 19 shows the diagram of the conveyor system of Figure 18, but with a communication rail.

Ways of Carrying Out the Invention

1 shows a conveyor system with two vertical rail lines 2, 4, which are arranged in a shaft 6, and a connected loading station 8 for the rail line 2 and an unloading station 10 for the rail line 4. A rail 12 of such a conveyor system has one Base part 14 and side parts 16, the latter containing mutually facing flange parts 18 which encompass the running or driving wheels 20 of a trolley 22 in a C-shape. The rails contain busbars, not yet shown, and possibly a control rail and racks, and the trolley 22, a drive gear. The tram is also equipped with a motor so that it is self-propelled. Such a trolley and the associated rails are designed, for example, in accordance with US Pat. No. 3,636,883. The trolley 22 also contains a fixedly arranged receptacle 24 for a conveying container 26, which can be introduced at a loading station 8 via a loading ramp 28 into the receptacle 24 of a stopping trolley 22. At an unloading station 10, the conveying container 26 can be delivered to an unloading ramp 30. The arrangement is such that the loading station 8 and the unloading station 10 adjoin the conveyor cross-section of the conveyor system and do not hinder the free circulation of the trolley with the receiving container.

FIG. 2 shows, in a diagrammatic representation, an unloading station 10 which contains a transport device 32 which has a driving pin 36 which is arranged on a drivable circulating member 34 and which passes through an active zone in the lower run of the circulating member by means of the circulating member 34 and deflection rollers 38 and a return area in the upper run. The Transport device 32 arranged at the transfer area protrudes from the unloading ramp 30 into the conveying area of the conveying carriage 22 in such a way that the driving pin 36 can grip a stop 40 of the conveying container 26, which is arranged in a receiving container 24 of a conveying carriage 22 and in front of the unloading station stops. The driver pin 36 then pulls the conveying container 26 by means of the revolving circulating member 34 from the receptacle 24 of the conveying carriage 22 onto the unloading ramp 30. The latter contains a roller conveyor formed from rollers 42 and lateral guides 44 ¬ direction driven, the driver pin 36 can be used to transfer a conveyor 26 into the receptacle 24 of a trolley 22 holding at the station.

FIGS. 3 and 4 show a further transport device 46 for transferring a trolley between a receptacle 24 of a trolley and a ramp 48 of a station. For this purpose, the transport device 46 contains a swivel arm 50 which is fastened to a shaft 52 and is connected in a rotationally fixed manner to a toothed wheel 54 which meshes on a toothed rack 56 which is fixedly connected to the ramp 48. A motor 58 is used via a gear 60 to drive the shaft 52, so that the gear 54 is driven and moves over the rack 56. At the same time, the shaft 52 is also shifted and the swivel arm 50 is swiveled from the position shown on the right in FIG. The entire device is guided in a sliding manner on a guide rod 62. When the swivel arm 50 is pivoted, a driver pin 64 engages with a stop 66 on the conveying container 26 and pulls the conveying container 26 out of the receiving container 24 onto the ramp 48 of the unloading station as the swivel arm 50 moves further. A reverse movement of the transport device 46 can serve to load a receptacle 24 with the conveying container 26. FIGS. 5 and 6 show a third transport device 68, which is used at a loading and / or unloading station for transferring a conveying container 26 from the receiving container 24 of a conveying carriage 22 to the ramp 70 of the station or vice versa. The transport device 68 contains a lifting / pushing rod 72 which can be moved back and forth in the loading and unloading direction 76 by means of a drive 74. At the free end, the lifting / pushing rod 72 contains a driving pin 78 which can be pivoted back and forth between a driving position for a stop 80 of the conveying container 26 shown in FIG. 6 and an exemption shown in broken lines in FIG. The loading and unloading of a conveying container 26 takes place in an analogous manner to the examples described above.

FIGS. 7 and 8 show a securing device 82 for securely holding the conveying container 26 in the receiving container 24 of the conveying carriage 22. For this purpose, the securing device contains a snap spring 84 made of spring steel, which is fastened to the receptacle 24 and has a cam-like head part 86 which overlaps an edge 88 of the same when the conveying container 26 is inserted. The spring force of the snap spring 84 is dimensioned such that an intentional engagement and disengagement of the snap spring 84 on the conveying container 26 is ensured, but during the conveying process a loosening of the conveying container 26 from the receiving container 24 is avoided under the usual loads.

FIG. 9 shows a further securing device 90 with a rocker 94 which is pivotably mounted on the receiving container 24 via an axis 92. The rocker 94 has on one side a latching lug 96 which interacts with a recess 98 in the conveying container 26. A run-up surface 100 ensures that the locking lug 96 engages automatically in the recess 98 when the conveying container 26 is inserted into the receiving container 24. A compression spring 102 serves to pretension the rocker 94 and thus the locking lug 96 in that shown in FIG. 9 Closed position. A drive device 104 is used to release the safety device 90, for example in the form of a piston / cylinder unit or a solenoid, a plunger 106 moving the rocker 94 against the biasing force of the compression spring 102 in the open position, as indicated by the arrow 107 in FIG. 9 is specified.

FIG. 10 shows a further securing device 108 which has two angle arms 112 which can be pivoted about axes 110. The angle arms are arranged such that the arms 114 point towards each other and are connected to a plunger 118 of a drive device 120 via an articulated connection 116. The free arms 122 of the angle arms 112 have latching lugs 124 directed outward from one another with run-up surfaces 126 which engage behind corresponding locking members 128 which are arranged on a conveying container. A compression spring 130 biases the arms 122 and thus the locking lugs 124 outwards. By means of the drive device 120, the latching can be released by pulling on the plunger 118, as is indicated by dash-dotted lines in FIG. 10.

FIGS. 11 and 12 show a trolley 22 with a modified receiving container 132 at a loading station 134 and an unloading station 136. The receiving container 132 contains a transport device 140 for the transport container 26 on its uprising side 138. The transport device 140 has a receiving platform 142 for the transport container 26 on, this receiving platform 142 being designed as a rocker 144 which is arranged in the receiving container 132 so as to be pivotable about a pivot axis 146 floatingly supported in the receiving container 132. Between the rocker 144 and the uprising side 138 of the receptacle 132, a turntable 148 is arranged which has a wedge 150 in order to give the rocker 144 the appropriate inclination. The turntable 148 is rotated by means of a drive 152, with limit switches 154, 156 determining the end positions of the turntable 148. Free-wheeling or optionally driven rollers 158 are arranged on the rocker 144. In FIG. 11, the rocker 144 is arranged at an angle to the rear end of the receiving container and serves to receive a conveyor container 26 coming from a loading ramp 160. The loading ramp can be designed as a slide or roller conveyor with rollers 161. At the inner end of the rocker there is a stop 162, which may also serve to secure the conveying container 26 in the receiving container 132. For this purpose, the stop 162 is designed as a permanent magnet and can be deactivated by energizing it. At the upper end of the receptacle, a limit switch 164 is arranged, which signals the correct arrival of a conveying container in the receptacle 132. Another securing device 166 is arranged in the vicinity of the opening 168 of the receptacle 132 and has a securing flap 170 which prevents the conveying container 26 from sliding out of the receptacle in the lower position shown in FIG. 11. In the position shown in FIG. 11, the trolley 22 and thus the receptacle 132 are located on the loading ramp 160 of the loading station 134, the loading ramp being inclined against the receptacle 132 and conveying containers 26 which are ready for transfer are in contact with stop members 172, 174 to prevent an unwanted Prevent the conveying container 26 from running into the receiving container 132 or to prevent the conveying container from falling off the loading ramp 160 when the conveying carriage 22 is absent. The stop members can be actuated mechanically by hand or from an arriving conveyor, as will be described below with reference to FIG. 16, or electrically, for example by means of an electromagnet, in a manner not shown.

In FIG. 12, the trolley 22 with its receptacle 132 stands at an unloading station 136, which contains a downward-inclined unloading ramp 176, in order to receive a conveying container discharged from the receptacle 132. A retractable stop member 178 prevents uncontrolled running of conveying containers on the unloading ramp 176 which, like the loading ramp, is provided with rollers 161. At the unloading station 136, the rocker 144 of the transport device 140 is in the receiving position. measuring container 132 inclined against the unloading ramp 176, so that a conveying container 26 can roll freely against the unloading ramp 176.

FIGS. 13 to 15 show a further conveyor system with a rail track 180 which merges from a vertical section via an arch part into a horizontal section. The rail track 180 in turn contains the rail 12 already described at the beginning with the base part 14, the side parts 16 and the flange parts 18, which overlap wheels 20 of the trolley 182. Busbars 184 serve to supply the drive current to the trolley 182 and as a control rail for connecting and controlling the system components. A rack 186 is also arranged on the base part 14 of the rail 12, with which a drive gearwheel of the trolley 182 interacts. The trolley 182 also contains a bracket part 190 which extends up to side parts 16 of the rail 12 and there has support rollers 192 which run on the outside of the side parts 16. The bracket part 190 also contains a pivot axis 194 which is oriented transversely to the rail plane and to which a support arm 196 is fastened, at the free end of which a receiving platform 198 for receiving a conveying container 26 is arranged. On the side facing away from the support arm 196, the receiving platform 198 is provided with a guide pin 200 aligned axially parallel to the pivot axis 194, which cooperates with a stationary guide slot 204 at a loading and / or unloading station 202, around the receiving platform 198 at the station 202 in stabilize their position. The guide slot 204 is provided with a funnel-like extension 206 on the entry side.

The receiving platform 198 contains side guides 208 which are aligned in the loading and unloading direction, which in the present example corresponds to the longitudinal direction of the conveying container 26. As seen in the loading or unloading direction, the receiving platform has locking pins 210 at both ends, which protrude into the displacement path of the conveying container arranged on the receiving platform. The extended, ie blocking The position of the locking pins 210 corresponds to their basic position. These securing pins can be pulled back into the release in a manner not shown in more detail by hand and / or by means of drive devices, in which they do not hinder the transfer of the conveying container from the receiving platform to a ramp 212 of the station 202. Also arranged on the receiving platform is a transport device 214, which contains two rotating conveyor belts 216, which can be driven in a manner not shown by means of a drive in the transfer direction or back, around a conveying container 26 from the receiving platform 198 to the ramp 212 to the station 202 or to be picked up by the latter. The ramp 212 of the station 202 is also equipped with a transport device 218 which contains rollers 220 which can either rotate freely to move the conveying container by hand or be driven in order to automatically take over the conveying container 26 from the receiving platform 198 or to the latter to deliver.

FIG. 16 shows a conveyor system of the type shown in FIGS. 13 to 15, the rail track 180 running in a shaft 222, which is provided in the area of a loading station 224 and an unloading station 226 underneath with a wall opening 228 which can be closed by a fire door 230 is. The loading station 224 is provided with a loading ramp 232 which is inclined downwards against the conveyor carriage 182 and has rollers 234. At the transfer point, the loading ramp 232 contains a stop member 236, which protrudes into the displacement path of the conveying container 26 and is retractable by means of a slide 238, which can be actuated by a corresponding tappet 240 on the receiving platform 198 of the conveying vehicle 182. For this purpose, the receiving platform 198 contains a drive 242 in the form of an electromagnet in order to eject the plunger 240 against the slide 238, as shown in FIG. 16. The slider 238 contains a first actuating cam 244 for the stop member 236 and a further actuating cam 246 for a further stop member 248, which is on the back of a waiting conveyor container is arranged and cooperates with a subsequent conveyor container in order to hold it back when the first conveyor container is transferred to a receiving platform 198 of a conveyor carriage 182 stopping at the station. For this purpose, the slide 238 with the setting cams 244, 246 is designed such that the stop members 236, 248 are used alternately. The slider 238 is biased in the basic position by means of a biasing spring 250, in which the front stop member 236 is in the blocking position.

The unloading station 226 arranged below the loading station 224 is provided with an unloading ramp 252 which receives a conveying container transferred from the receiving platform 198 so that it is conveyed against an end stop 254.

FIG. 17 shows a further conveyor system in which the loading station 224a and the unloading station 226a are designed analogously to the loading station 224 and the unloading station 226 in FIG. 16, but these stations are not arranged one above the other but next to one another and accordingly two arranged next to one another Operating rail tracks, analogous to the exemplary embodiment in FIG. 1. The trolley 182a is basically designed analogously to the trolley 182, however the receiving platform 198a is designed such that the loading and unloading direction and thus also the longitudinal direction of the trolley 26 are parallel to the pivot axis 194a of the trolley 182a is aligned.

16, the receiving platform 198 is only suitable for loading stations 224 and unloading stations 226, which are arranged in vertical rails. In the configuration of the conveyor system according to FIG. 17, the receiving platform 198a, the loading station 224a and the unloading station 226a can be used on arbitrarily, in particular also horizontally arranged rail tracks. The stations 224a and 225a do not become on a possibly horizontally arranged rail track Operated in parallel as in FIG. 17 or 1 but in succession as indicated in FIG. 16 for the vertical rail track.

FIG. 18 shows the diagram of a conveyor system for vertical transport in a building over four floors S1, S2, S3, S4. An upward rail line 260 and a downward rail line 262 are each connected to a loop at the upper and lower ends by means of a sweeping switch 264, 266. In the central area, the rail tracks are also connected by means of a crossover 268. Loading stations B01, B02, B03, B04 are arranged along the upward rail line 260 and unloading stations E05, E06, E07, E08 are arranged along the downward rail line 262. In the conveyor system, trolleys F01, F02, F03 etc. circulate, which preferably have the same distances from one another, which correspond approximately to the height of a floor. This means that there are six trolleys in the present example, but only three are shown for the sake of simplicity. The system components such as stations, rails, control rail sections 270 and switches are each individually connected to a control device R containing a computer via corresponding lines. In a known manner, various reading devices (not shown in more detail) are arranged at the stations and along the course of the streak, which read the identification trolleys F01, F02, F03 etc. of the trolleys and a destination code 01,02,03,04,05,06 serve on the conveying containers to be funded. The trams independently search for their destination based on the destination code and control individual system components. The control device R serves for the coordination and monitoring of the conveyor system.

FIG. 19 shows the conveyor system of FIG. 18, but the control rail sections 270 have been replaced by a continuous communication rail 272. The individual system components are connected to the control device R by means of the communication rail 272, which controls the individual system components controls components and the trolley due to the ^"at the Sende¬ station set target code to the target controls. The control is effected preferably in accordance with the in CH-A- principles outlined 677,469. The control of the conveyor system is carried out according to CH-A-677 469 in such a way that a preprogrammed program table with at least all decision and control commands for all conveying tasks and all system components actively involved is installed in the control device R for the associated route network and position code 274 is arranged along the route network at least at the decision points Each trolley communicates with the control device R by means of the communication rail 272, which runs continuously along the route network. The latter controls the decision device at each decision-making point on the basis of the respectively transmitted position code in connection with the identification code and the target code by means of de same control rail the trolley and / or an associated other system component until the trolley has reached the receiving station.

In the cases of FIGS. 18 and 19, the conveyor system is preferably also controlled in such a way that the conveyor carriages F01, F02, F03 pass through the conveyor system at approximately the same intervals. If a tram stops at a station, for example the trolley F01 at the loading station B03, in order to receive a loaded receptacle, the other circulating trolleys also stop immediately or are at least reduced in drive speed in order not to hit the stopping trolley. LIST OF REFERENCE NUMBERS

B loading station 98 recess

E Unloading station 100 ramp area

F trolley 102 compression spring

R control device 104 drive device

S floor 106 ram

2 rail track 107 arrow

4 busbar 108 safety device

6 shaft 110 axis

8 loading station 112 angle arm

10 unloading station 114 arms

12 rail 116 articulated connection

14 base part 118 plunger

16 side part 120 drive device

18 flange part 122 arm

20 wheel 124 latch

22 trolleys 126 ramp area

24 receptacles 128 locking member

26 Delivery container 130 compression spring

28 loading ramp 132 receptacle

30 unloading ramp 134 loading station

32 Transport device 136 unloading station

34 Circulating organ 138 Uprising side

36 drive pin 140 transport device

38 deflection roller 142 receptacle

40 stop 144 seesaw

42 rollers 146 swivel axis

44 Guide 148 turntable

46 Transport device 150 wedge

48 Ramp 152 drive

50 swivel arm 154 limit switch

52 shaft 156 limit switch

54 gear 158 roller

56 rack 160 loading ramp

58 engine 161 roll

60 gear 162 stop

62 Guide rod 164 Limit switch

64 Driving pin 166 Safety device

66 Stop 168 opening

68 Transport device 170 Safety flap

70 ramp 172 stop link

72 lift / push rod 174 stop link

74 Drive 176 unloading ramp

76 Loading and unloading direction 178 stop link

78 Driving pin 180 rail track 0 Stop 182 conveyor 2 safety device 182a conveyor

84 snap spring 184 track

86 cam-like headboard 186 rack

88 edge 188 drive gear 0 safety device 190 bracket part 2 axis 192 support roller 4 rocker 194 swivel axis 6 locking lug 194a swivel axis 196 support arm

198 recording platform

198a recording platform

200 guide bolts

202 station

204 guide slot

206 extension

208 side guide

210 locking pin

212 ramp

214 transport device

216 conveyor belt

218 transport device

220 roll

222 shaft

224 loading station

224a loading station

226 unloading station

226a unloading station

228 wall opening

230 fire door

232 loading ramp

234 roller

236 stop link

238 slider

240 pestles

242 drive

244 control cams

246 control cams

248 stop link

250 preload spring

252 unloading ramp

254 end stop

260 upward track

262 downward rail track

264 turnout, upper

266 turnout, lower

268 crossover

270 control rail section

272 communication rail

274 position code

Claims

PATENT CLAIM

1. Rail-bound conveyor system, with self-propelled trolleys (22, 182, 182a) on rails (12), which have connecting means for temporarily receiving and holding conveyor containers (26) for receiving goods to be conveyed, and with loading and / or unloading stations (8, 134, 202, 224, 224a; 10, 136,226,226a) for loading and / or unloading the trolleys (22, 182, 182a), characterized in that the connecting means comprise:

a receptacle (24, 132, 142) for a conveying container (26) which is fixedly connected to the conveyor carriage (22) and contains a receiving opening; or a receiving platform (198, 198a) for a conveying container (26) connected to the conveyor carriage (182, 182a) via a pivot axis (194, 194a) pivotable on the support arm (196), the receiving opening of the receiving container (24, 132, 142 ) or the receiving platform (198, 198a) can be synchronized with a loading and / or unloading ramp (28, 30, 48, 70, 160, 176, 212, 232, 252) of a station.

2. Conveyor system according to claim 1, characterized in that the receiving container (24, 132, 142) has at least one releasable securing device (82, 90, 108, 162, 166) for securing the conveying container (26) in the receiving container.

3. Conveyor system according to claim 2, characterized in that the securing device (82, 90, 108) has at least one mechanical snap member (86, 96, 124) which can preferably be released by a motor, for example electromagnetically.

4. Conveying system according to claim 2, characterized in that the securing device (162) has at least one permanent magnet holding magnet which interacts with the conveying container (26) and can be deactivated by energizing.

5. Conveyor system according to one of claims 1 to 4, characterized in that the receiving container (132) on the uprising side (138) for the conveying container (26) is provided with an optionally drivable transport device (140).

6. Conveyor system according to claim 5, characterized in that the transport device (140) has an inclined receiving platform (142), the inclination being preferably adjustable from falling to the opening of the receiving container (132) to falling towards the inside of the receiving container .

7. Conveyor system according to claim 6, characterized in that the receiving platform (142) is designed as a rocker (144), the inclination of which is adjustable by means of a motor drive (148, 152), preferably a rotating wedge-shaped turntable (148).

8. Conveyor system according to claim 1, characterized in that the receiving platform (198, 198a) has side guides (208) on both sides of the conveying container (26) in the loading and unloading direction, preferably in the longitudinal direction of the conveying container.

9. Conveyor system according to claim 8, characterized in that the receiving platform (198, 198a) has at least one releasable securing device (210) for securing the conveying container (26) on the receiving platform.

10. Conveyor system according to claim 9, characterized in that the securing device has two securing pins (210), which are arranged at both ends of the receiving platform (198, 198a) when viewed in the loading and unloading direction and in the basic position in the displacement path of the conveyor container ( 26) protrude and are preferably retractable by means of a motor drive.

11. Conveyor system according to one of claims 7 to 10, characterized in that the receiving platform (198, 198a) is a transport device (214) which can be driven in the loading and / or unloading direction, preferably a circulating member (216), for loading and unloading the recording platform.

12. Conveyor system according to one of claims 1 and 8 to 11, characterized in that the receiving platform (198, 198a) on the side facing away from the support arm (196) has an axially parallel to the pivot axis (194, 194a) aligned guide bolt (200) which engages in a guide slot (204) at each station, which widens like a funnel (206) to the entry side.

13. Conveyor system according to one of claims 1 to 12, characterized in that a transport device (32, 46, 68) for loading or unloading the trolley (22) is arranged at the station.

14. Conveyor system according to one of claims 1 to 13, characterized in that a discharge ramp (176, 252, 252a) for at least one conveyor container (26) is arranged at a station (136, 226, 226a) for unloading, starting from the conveyor car and inclined downwards.

15. Conveyor system according to one of claims 1 to 14, characterized in that at a station (134,224,224a) for loading a loading ramp (160,232) inclined downwards against the conveyor wagon (22,182,182a) for at least one conveyor container (26) is arranged at the transfer point contains a stop member (172, 236) which can be retracted from the displacement path of the conveyor container and which can preferably be actuated from a conveyor car (182, 182a) present at the station.

16. Conveyor system according to claim 15, characterized in that the stop member (236) with one, preferably from the trolley (182) operable in the loading ramp (232) slidably mounted control slide (238) interacts, which cooperates on the back of a trolley to be loaded with another stop member (248) of the loading ramp (232) such that when the front stop member (236) is activated, the rear one (248) is in exemption or vice versa.

17. Conveyor system according to one of claims 13 to 16, characterized in that the transport device (32, 46, 68) of the station (10) is located on the side of the travel area of the conveying container (26), for example on a rotating element (34), a swivel arm ( 50) or a lifting rod (72) arranged, against the conveying container, projecting driving pin (36, 64, 78), in such a way that the driving pin unloads a conveying container (26) from the conveying carriage (22) in one direction of movement and vice versa Direction of movement loads the trolley with the conveyor container (26).

18. A method of operating the conveyor system according to one of claims 1 to 17, characterized in that the rails (260,262) are arranged in a closed circuit (260,262,264,268) and the trolleys (F) are circulated at substantially the same intervals.

19. The method according to claim 18, characterized in that when stopping a trolley (F) at a station

(B, F) stops the remaining circulating trams or at least slows them down.

20. The method according to claim 18 or 19, characterized in that parts (260, 262) of the same are connected in the circuit by means of a crossover 268.

21. The method according to any one of claims 18 to 20, characterized in that one connects all system components via a communication rail (272) with a common control device (R).