EP0360110A1 - Waste collection container with a flexible hose - Google Patents

Abstract

A waste collection container, which can be mounted in particular on vehicles, trailers or the like, having at least one at least partially flexible hose, through which waste can be sucked into the inside of the container by means of a blower, the hose being constructed as a suction arm stiffened in an articulated manner which can be provided with and/or connected to one or more actuating drives and which, on being actuated, can be positioned relative to the collection container. <IMAGE>

Description

The invention relates to a groupage container which can be attached in particular to vehicles, trailers or the like, with at least one at least partially flexible pipeline through which groupage can be sucked into the container interior by means of a blower.

When cleaning the streets and especially landscaping, it is important to collect waste such as bottles, plastic bottles, paper cups, cans, etc. as efficiently as possible for transport to remove waste. The difficulty is that these pieces of waste are often far apart from each other, which leads to a particularly large expenditure of time when they are picked up. In parks, outdoor pools and the like. Like. Numerous waste baskets are set up, which are easily removable for emptying in refuse vehicles. However, this requires additional design effort for the trash baskets. In addition, their absorption capacity - due to the large amount of waste generated today - is quickly exhausted, so that within a short time the ground is littered with scattered waste parts within their reach.

A known mowing device (cf. the European patent published under No. 0 016 440) has a container of the type mentioned in the introduction in which a blower and its drive device are accommodated. This acts on an inlet port breaking through the container wall, to which a flexible pipeline is connected via a telescopically resilient quick-release fastener. The pipeline leads to an intake box that holds groupage and blows into the container via the blower. If, with such a device, waste that is widely dispersed from one another is to be collected in the container or waste baskets are to be emptied, in addition to one person for operating the vehicle, at least one further person is required who brings the flexible pipeline with suction box into corresponding positions for picking up the waste pieces.

The invention has for its object to provide a groupage container which enables a single operator to collect widely dispersed waste, particularly from private households, efficiently and easily and conveniently.

To solve this, it is proposed in a groupage container with the features mentioned at the outset that the pipeline is designed as an articulated stiffened suction arm which is provided with and / or connected to one or more actuators and can be positioned relative to the container when it is actuated.

The invention takes advantage of the fact that garbage containers, groupage containers u. The like. Can be easily applied to a motor vehicle or a trailer, so that in the sense of the invention the driver can actuate one or more actuators, preferably from the driver's seat, to position the at least partially flexible pipeline to the individual, scattered parts of the waste. Positioning by actuating the actuators can be supplemented by driving the vehicle forward, backward, left and right. With the measure according to the invention, the flexible Rohrlei stiffening on the one hand and on the other hand largely maintaining their flexibility, this is developed into an articulated suction arm, which can be placed more precisely to a waste part with increasing number of articulation points and / or the actuators.

A special realization of this inventive idea consists in providing a pivot linkage holding the pipeline with one or more articulated lever sections, each of which can be pivoted by at least one actuator supported against the container, the vehicle and / or an adjacent lever section. The pivot linkage formed in this way from a plurality of individual, articulated lever arms can be positioned with great flexibility. A particularly simple construction of the swivel linkage, which is suitable for realizing a suction arm that can be widely cantilevered from the container side wall, is that it is formed from a plurality of rod-shaped lever sections arranged one behind the other in the manner of a chain link, the first of which on the container, and the subsequent ones on the container opposite end of the previous lever section are articulated.

In order to achieve mechanical stability against heavy and / or sharp-edged waste material, the pipeline has stiffened sections corresponding to the lever sections within the scope of the invention; it is sufficient if the pipeline is flexible and flexible, at least in the area of the articulation points of the swivel linkage. The provision of stiffened pipe sections can advantageously reduce the number of mounting elements which are necessary for fastening the pipe to the swivel linkage. The creation of the above, cantilevered suction arm is another end education adapted to the invention, according to which along the pipeline course alternate flexible and rigid pipe sections arranged one behind the other. With this special invention training, a suction element is created for the groupage container, which combines mechanical stability and strength on the one hand and high flexibility and mobility on the other and is therefore particularly suitable for exact positioning. This suction element is essentially based on the elongated swivel linkage formed from successively articulated lever sections, the pipeline attached to it, running parallel thereto, and the adjusting elements for articulated movement.

The generic groupage containers are advantageously built so that they easily on vehicles, trailers and. Like. Are attachable. Furthermore, the suction arm according to the invention is expediently fastened to a side wall of the container - corresponding to the long side of the vehicle. In order to increase the positioning accuracy and to be able to place the suction arm on the container or vehicle longitudinal side when not in use, it is provided in a further development of the invention that the suction arm or the swivel linkage on the container and / or vehicle by at least one horizontal and at least one vertical axis are pivoted.

In suction mode, it is important that the feed opening of the pipeline can be precisely aligned with the object to be collected, so that it is reliably grasped by the suction flow and transported away. For this purpose, it is provided in the context of the invention that the pipeline ends in the area of at least one groupage feed opening in a rigid section which is articulated on the swivel linkage and which can be swiveled by means of an actuator. This creates an intake nozzle with means which, above all, very small groupage goods can be recorded.

A special embodiment of the invention, which enables sufficiently high positioning accuracy with moderate manufacturing and design effort, consists in the pivot linkage having a first lever arm articulated on the container or vehicle and a second lever arm articulated on its end facing away from it, on which the stiffening Pipe end is articulated, and that each pivot axis - including the horizontal and vertical pivot axes with respect to the articulation points located on the vehicle container - is assigned an actuator which pivots the articulated parts - including the vehicle or container / lever rod - relative to one another. This training greatly increases usability; In particular, the driver can extend the suction arm swiveled towards the container side wall behind the steering wheel by actuating the actuator, which is assigned to the suction arm articulation point on the container wall for realizing the vertical pivot axis, into the cantilevered operating position, for example.

Within the scope of the invention, there are many technological possibilities for realizing the actuators (for example, electrically, hydraulically or pneumatically). It is particularly advantageous to design the actuators as hydraulic or pneumatic pneumatic actuating cylinders, the ends of which each engage one of two adjacent suction arm sections which are articulated to one another. The advantage of the pneumatic implementation is that compressed air can be used as the control and drive medium, which has a relatively low weight. Hence pneumatic linear drives result in a lightweight construction; In addition, the pneumatic actuating cylinders are characterized by their quick response and sufficient positioning accuracy. A quick control behavior is also achieved when using hydraulic cylinders, but with increased precision and small size.

In order to relieve or to balance the force for the actuating cylinders, in a further development of this special design at least one or more spring elements are assigned to each of the particularly loaded actuating cylinders, the points of engagement of which correspond to those of the actuating cylinder. M. a. W., the spring elements are connected in effect to the movements of the actuators in parallel. This has the advantage, in particular in the projecting design of the suction arm, that the springs are tensioned when the suction arm is lowered and thus relieve the actuating cylinders of the total weight of the suction arm; when retracting or lifting the previously extended suction arm, the corresponding actuating movements of the cylinders are supported by the restoring force of the prestressed spring elements and, consequently, the actuating cylinders are relieved. As a result, the spring elements enable the actuators to be dimensioned much smaller.

Another advantageous realization of the actuators is conceivable using electronic stepper motors.

In general, safety and convenience when operating technical facilities is important. In order to enable the vehicle driver, in particular, to operate the suction arm according to the invention behind the steering wheel and after the actuation thereof has ended, the driver's door is opened Invention provides a control device mounted relative to the container wall, with which the individual actuators can be actuated. According to a special embodiment of the invention, the operating device has actuating levers which are each assigned to an actuator and can be positioned in positions for retracting, extending and stopping the individual actuators.

Between 150 mm and 180 mm has proven to be a practical range for pipe diameters. Larger pipe diameters can lead to a disproportionately high effort for the suction fan due to the pressure losses that this entails. In order to avoid clogging and blocking of the pipeline due to bulky waste and on the other hand to be able to keep the pipe diameter as small as possible, in a further development of the invention a motor-driven rotating comminution, cutting, chopping tool or the like is provided, which in the area of the feed opening of the Suction arm or the pipeline is arranged. In a particular form of this specific inventive concept of this grinding tool is articulated on the feed opening of the suction arm forming portion such that the tool is pivotable by about 90 ^o before the feed opening, whereby its axis of rotation inclined to the feed direction extending and / or radially offset from the central longitudinal axis of Saugarmöffnungsabschnitts is. A preferred drive for the comminution, in particular cutting, tool is an electric motor, with which high speeds can be achieved, which are advantageous for the effortless comminution of bulky or mechanically solid waste pieces. In a special embodiment, a separate actuator is provided for swiveling the shredding tool into the area in front of the feed opening, which actuator, if necessary, with the control device from the steering wheel seat of the vehicle can be operated. An asymmetrical arrangement of the shredding tool with its axis of rotation with respect to the opening diameter of the suction tool is important, so that the risk of entangling cut pieces of waste around the cutting or shredding tool is largely avoided.

The waste to be collected is primarily on the surface of the soil. To remove it, when operating the suction arm, make sure that it is on the one hand not too far away from the floor surface and on the other hand that it is not too close to the floor surface and is even "stuck" there. This problem is addressed by a further embodiment of the invention, according to which at least one spacer wheel is attached to the outer wall of the suction arm in the region of its feed opening, said spacer wheel projecting beyond the edge of the feed nozzle with its fastening element. This advantageously largely frees the suction arm, possibly its swivel linkage, and in particular the actuators, from the (inherent) weight that is placed on them. Even the operator no longer needs to pay particular attention to maintaining the correct distance above the - usually uneven - surface of the earth. If, according to a special development of the invention, the distance wheel is adjustable with respect to its distance from the opening edge of the feed nozzle, the operator can control the distance of the feed opening of the suction arm depending on the weight of the waste material to be sucked in. Another (possibly pneumatic) actuating cylinder can be used to implement this (height) adjustability.

• Fig. 1 den Behälter mit Saugarm in Seitenansicht;
• Fig. 2 eine perspektivische Ansicht auf die Bedieneinrichtung für den Saugarm;
• Fig. 3 die Einzugsöffnung des Saugarms in Ansaugstellung;
• Fig. 4 einen Teil des Schwenkgestänges mit Stellantrieb in vergrößerter, perspektivischer Darstellung;
• Fig. 5 das an der Behälterwand angebrachte Ende des Saugarms in perspektivischer Darstellung und
• Fig. 6 eine spezielle Ausbildung der Einzugsöffnung des Saugarms.

Further advantages, features and details of the invention result from the following description of exemplary embodiments and from the drawing. Show:

• Figure 1 shows the container with suction arm in side view.
• 2 shows a perspective view of the operating device for the suction arm;
• 3 shows the intake opening of the suction arm in the suction position;
• Figure 4 shows a part of the swivel linkage with actuator in an enlarged perspective view.
• Fig. 5 shows the end of the suction arm attached to the container wall in a perspective view
• Fig. 6 shows a special design of the intake opening of the suction arm.

According to the side view of FIG. 1, a container 1 is placed on the rear part of a commercial vehicle 2. From the interior of the container 1 leads out a connecting piece 3, to which a pipe 4 connects for sucking in groupage. The pipe 4 is composed of a plurality of individual sections, namely three flexible pipe sections 5a, 5b, 5c and three stiffened pipe sections 6a, 6b, 6c. The flexible and stiffened pipe sections are arranged alternately one behind the other, the pipe connecting to the connecting piece 3 with a flexible pipe section 5a and ending in the region of its intake opening with a stiffened pipe section 6c with the intake opening 7. The pipeline 4 is suspended from a swivel linkage 8 and runs approximately parallel to it. The pivot linkage 8 has two lever arm sections 9a, 9b and three articulation points 10a, 10b, 10c on. The first lever arm 9a is articulated by means of the first joint 10a on a vertically extending rotating rod 11 about a first horizontal axis 13a (cf. FIG. 5) so that it can pivot upwards or downwards. The rotary rod 11 is mounted in a bracket web 12 projecting vertically from the side wall of the container (clearly visible in FIG. 5) so that it can rotate about a vertical axis 14 approximately parallel to the side wall of the container. The rotary drive 15 which generates the corresponding rotary movement is explained in more detail below with reference to FIG. 5.

The end of the first lever arm 9a facing away from the first joint point 10a is connected to the end of the second lever arm 9b via the second joint 10b, which realizes a horizontal pivot axis 13b. Its end facing away from the second joint 10b is articulated on the outer wall of the third stiffened pipe section 6c via the third joint 10c. The third joint 10c also realizes a pivot axis 13c running in the horizontal direction (cf. FIG. 3).

1, three actuators or actuators 16a, 16b, 16c act on the swivel linkage 8. They each serve to actuate one of the three joints 10a or 10b or 10c. According to the exemplary embodiment shown, they are implemented as pneumatic actuating cylinders. Finally, the container 1 near the articulation point 10a, 11, 12 of the swivel linkage 8 is provided with an operating device 17. Both the suction arm 18 formed from the pipeline 4, swivel linkage 8 and actuators 16a, 16b, 16c and the operating device 17 are shown in FIG. 1 in the position suitable for transport, namely folded against the side wall of the container 1. They can be fastened to this with mounting means (not shown).

According to FIG. 2, the operating device 17, which is arranged on the side wall of the container so as to be pivotable about a vertical axis 20, is pivoted by approximately 180 ^° relative to the position shown in FIG. 1. In this position, the driver of the vehicle 2 sitting behind the steering wheel can manipulate the operating device 17 for actuating the suction arm 18 from the vehicle cabin 19. The operating device 17 has four operating levers 21a, 21b, 21c, 21d, which are seated on a pivot rod 23 articulated on the side wall of the container 1. The pivot rod 23 is rotatably mounted about the vertical pivot axis 20 already mentioned. The operating levers 21a, 21b, 21c, 21d are each assigned to one of the linear actuators 16a, 16b, 16c or the rotary drive 15 and can be brought into three functional positions, namely for holding and the two directions of movement of the drives. The commands set by means of the control lever 21 are transmitted via the control lines 22 to the individual drives 15, 16 mentioned.

According to FIG. 3, the suction arm 18, which is in the suction position, is immersed in a waste paper basket 24 in order to convey pieces of waste into the interior of the container 1. For this purpose, by means of the actuator 16c, the stiffened pipe section 6c, which is articulated on the second lever arm 9b and on which the feed opening 7 is formed, is brought into the suitable position. The actuator 16c, which causes the pivoting about the horizontal axis 13c of the stiffened tube section 6c, is supported at one end on the second lever arm 9b and engages at its other end on the stiffened tube section 6c, which represents the suction nozzle.

According to FIG. 4, the actuator 16b moving the second joint 10b is supported at one end against the first lever arm section 9a and engages at the second lever arm section 9b at its other end. As a result, the two lever arm sections 9a, 9b can be pivoted relative to one another about the axis 13b extending through the joint 10b.

In Fig. 5 the attachment of the suction arm 18 to the container 1 is shown enlarged. The actuator 16a, which is supported against an extension 25 which continues the rotary rod 11, actuates the first joint 10a, in which the first lever arm 9a is pivotably mounted about the horizontal axis 13a. For this purpose, the end of the actuator (pneumatic cylinder) facing away from the attachment 25 engages the first lever arm 9a (cf. also FIG. 1). The rotary drive 15 serves to pivot the suction arm 18 about the vertical axis 14. The rotary drive 15 is essentially formed from a ring gear 26 surrounding the rotary rod 11 and a driven pinion 27 which engages with it. An electric servomotor 28, for example, is used to drive the pinion 27. This can be actuated by means of the operating lever 21d of the operating device 17 (cf. FIG. 2).

1, 3, 4 and 5, the first two actuators 16a, 16b are each assigned a spring element 29a or 29b, the points of engagement of which correspond to those of the associated actuator. M. a. W., the spring elements 29a, 29b are arranged spatially-constructively and in terms of effect parallel to the associated actuators 16a, 16b and perform relief and compensation functions with respect to the actuators. Thus, the first spring element 29a, with its end adjacent to the first articulation point 10a, is suspended from the extension 25 of the rotary rod 11, while its opposite end is fastened to the first lever arm 9a. Accordingly, one end of the second spring element 29b is suspended from a second extension 30 which is rigidly connected to the first lever arm 9a. Its opposite end is attached to the second lever arm 9b. The same applies to the attachment of the first two actuators 16a, 16b, their rear support and front engagement points being articulated in each case.

6, according to a special variant, the suction arm 18 is provided in the area of its intake opening 7 with a comminution motor 31, which is preferably operated at high speeds. Comminution knives 32 rotate at the appropriate speed, and in the process crush or shred sucked-in pieces of waste. This shredding device 31, 32 is carried out by 90 ^o angle in front of the feed opening 7 pivoted, as shown in Fig. 6 in broken lines indicated. This pivoting can be brought about, for example, by means of a further (not shown) pneumatic actuating cylinder. In order that the collected material is not flung away by the shredding knife 32 from the intake opening 7, a funnel 33 attached to the stiffened pipe section 6c and widening the intake opening 7 and a groupage hold-down 34 are provided in a further embodiment of this variant of the invention, which are molded onto the housing of the shredding motor 31 is.

Claims (17)

1. In particular on vehicles, trailers or the like. Attachable groupage container, with at least one at least partially flexible pipeline through which groupage can be sucked into the container interior by means of a blower, characterized in that the line (4) is articulated (10a, 10b, 10c) stiffened suction arm (8) is formed which is provided and / or connected with one or more actuators (15, 16a, 16b, 16c) and can be positioned relative to the container (1) when actuated. 2. Container according to claim 1, characterized by a pipe (4) holding swivel linkage (8) with one or more articulated lever sections (9a, 9b), each of which by at least one against the container (1), the vehicle (2) and / or an adjacent lever section (9a, 9b) supported actuator (15, 16) can be pivoted. 3. A container according to claim 2, characterized in that the pivot linkage (8) is formed from a plurality of rod-shaped lever sections (9a, 9b) arranged one behind the other in the manner of a chain link, the first of which on the container (1) and the subsequent ones on the container (1 ) opposite end of the previous lever section (9a, 9b) are articulated. 4. Container according to claim 2 or 3, characterized in that the pipeline corresponding to the lever sections (9), stiffened Has sections (6a, 6b, 6c) and is designed to be flexible, especially in the area of the articulation points (10a, 10b, 10c) of the swivel linkage (8). 5. Container according to claim 3 and 4, characterized by alternately arranged one behind the other flexible and rigid pipe sections (5, 6). 6. A container according to claim 4 or 5, characterized in that the pipeline ends in the area at least once groupage feed opening (7) in a rigid, on the pivot linkage (8) at least one articulated (10c) section (6c) which by means of at least one Actuator (16c) is pivotable. 7. Container according to one of the preceding claims, characterized in that the suction arm (18) or the pivot linkage (8) on the container (1) and / or vehicle (2) about at least one horizontal (13a) and at least one vertical axis ( 14) are pivoted. 8. A container according to claim 5 to 7, characterized in that the pivot linkage (8) has a first lever arm (9a) articulated on the container (1) or vehicle (2) and a second lever arm (9b) articulated at the end thereof, on which the stiffened pipe end (6c) is articulated and that each pivot axis (13a, 13b, 13c, 14) is assigned an actuator (16a, 16b, 16c, 15) which pivots the articulated parts relative to one another. 9. Container according to one of the preceding claims, characterized in that the actuators (15, 16) are designed as hydraulic, electrical and / or pneumatic actuating cylinders (16a, 16b, 16c), each with one end on one of two adjacent ones , engage articulated (10) suction arm sections (9a, 9b). 10. Container according to claim 9, characterized by the movements of the actuators (16a, 16b) parallel-connected spring elements (29a, 29b). 11. Container according to one of claims 1 to 8, characterized by drives realized by means of electric motors, in particular stepper motors. 12. Container according to one of the preceding claims, characterized by a positionable relative to the container wall mounted operating device (17) for actuating the individual actuators (15, 16). 13. A container according to claim 12, characterized in that the operating device (17) each has an actuator (15, 16a, 16b) associated actuating lever (21a, 21b, 21c, 21d), which in positions for retracting, extending and stopping the actuators (15, 16) are movable. 14. Container according to one of the preceding claims, characterized by a preferably electrically driven, rotating comminution, cutting tool (31, 32) or the like, which is arranged in the region of the feed opening (7). 15. A container according to claim 14, characterized in that the shredding tool (31) is articulated on the feed opening (7) of the suction arm (18) forming section (6c) such that the shredding tool (31, 32) by about 90 ^{o in} front of the The feed opening (7) can optionally be pivoted by means of an actuator, the axis of rotation of which runs obliquely to the feed direction and / or is radially offset with respect to the central longitudinal axis of the suction arm opening section (6c, 7). 16. Container according to one of the preceding claims, characterized by at least one on the outer wall of the suction arm (18) in the region of its feed openings (7) attached spacer wheel (35) which protrudes with its fastening element (36) over the opening edge, if necessary, adjustable in height. 17. A container according to claim 14 or 15, characterized by a funnel extension (33) adjoining the feed opening (7) and a groupage hold-down (34) molded onto the comminution tool (31, 32).

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