WO2018068798A1

WO2018068798A1 - System for feeding, sorting, and/or palletting parts

Info

Publication number: WO2018068798A1
Application number: PCT/DE2017/200110
Authority: WO
Inventors: Melvin Haas
Original assignee: Melvin Haas
Priority date: 2016-10-12
Filing date: 2017-10-12
Publication date: 2018-04-19
Also published as: DE102016219871A1

Abstract

The invention relates to a system for feeding and/or sorting and/or palletting parts, in particular components, comprising a carrier on which parts can be arranged, a detection apparatus for detecting the position and/or the alignment and/or the identity of the parts on the carrier, and a movement mechanism, which moves and/or aligns the parts on the carrier. Said system is characterized in that the carrier preferably has selectively openable passage elements, which are coupled to the detection apparatus and via which the parts can be guided into a receiving element.

Description

SYSTEM FOR FEEDING, SORTING AND / OR

PALLETIZING PARTS

The present invention relates to a system for feeding and / or sorting and / or palletizing parts, in particular of components, with a carrier on which parts can be arranged and aligned, a detection device for detecting the presence and / or the identity and / or the position and / or orientation of the parts on the carrier and a moving mechanism that moves and / or aligns the parts on the carrier.

The invention is generally concerned with a feeding system for parts, in particular for components of different shape and size, as it often finds application in automated assembly. From practice various systems for feeding components are known. Widely used systems make Schwingbzw. Vibratory spiral conveyor. A particular problem arises in these systems from the fact that the flexibility is low when using multiple components and often creates a partial accumulation in complex shaped components. In practice, the problem is recognized and a solution is already being delivered. For example, reference is made to EP 2 393 739 B1. From this document, a system for supplying components with a vibrating carrier is known, wherein arranged on a receiving surface forming a plate arranged components by three-axis vibration (x, y and z axis) moves and aligned and by a robot gripper arm for the supply be removed.

Such a system has the advantage that components of different shapes and sizes are separable, alignable and can be removed, placed and thus supplied with a robot gripper arm.

A major disadvantage of the known system, however, is that due to the separate handling of the individual components and the long distances of the robot arm between gripping of the component on the receiving surface and release of the component at the point of delivery the cycle time is quite high. Also, the use of a robot requires expensive hardware. Overall, this leads to a high cost. The required technical measures must therefore relate to the supply of parts.

The present invention is therefore based on the objective of providing a flexible system for feeding and / or sorting and / or palletizing parts, in particular of components, that with a simple design allows a low cycle time and thus a high parts throughput.

The above object is achieved by the features of claim 1. Thereafter, the system for feeding and / or sorting and / or palletizing parts is characterized in that the carrier preferably has selectively revealable passage elements which are coupled to the detection device and through which the parts can be guided into a receiving element.

In accordance with the invention, it has been recognized that it is of very particular advantage if the parts to be supplied and / or to be sorted and / or to be palletized are not removed from a receiving surface by means of a robot arm and handled individually. On the contrary, the invention takes a completely different route, namely, the carrier has namely preferably selectively disclosed passage elements which are coupled to the detection device on or in which parts can be arranged and through which the parts can be guided or opened when opening a passage element in a receiving element fall. It is essential that the passage elements have obvious and closable holes to allow the parts to pass selectively through the passage elements below the carrier. In this case, round or complex shaped passage elements or holes are conceivable. In addition, the passage elements may be designed substantially flat, on or below the plane of the support surface or in the form of a pocket or a nest for receiving at least one part. Consequently, the parts need not be handled individually in the system according to the invention. The use of a robotic gripper arm is eliminated. Ideally, the parts pass directly from the carrier through the passage elements into a receiving element. Thus, with the system according to the invention, a flexible system is specified which, with a simple construction, enables a low cycle time and thus a high part throughput.

Advantageously, the passage elements of the respective application are arranged accordingly. Particularly advantageous is an arrangement in the form of a matrix. Also conceivable are sieve-like arrangements of any kind and pattern. Sieblehren are conceivable.

It is particularly advantageous if the passage elements are provided with a preferably binary control, i. by means of binary actuators, independently of one another and / or simultaneously visible and closable. The passage elements act as controlled deflector valves. Depending on the sequence of opening and closing of the passage elements, a continuous supply of the parts can be realized and a partial accumulation can be avoided. In this case, the time sequence or the throughput rate can be controlled.

Furthermore, it is conceivable that the opening of the passage elements via a single or dual drive, in particular via a cam drive, and / or a rotary drive can be realized. Other possibilities of the drive are conceivable.

Furthermore, a preferably horizontally upstream inspection area, the passage element favors the handling of the parts. In this area, individual or multiple parts can be arranged, targeted and inspected by the detection device.

It is particularly advantageous if the receiving element is arranged on the passage elements, preferably below the passage elements. This may advantageously be conveying elements, in particular guide tubes for sorting and / or stringing the parts below the passage elements are arranged and lead, for example, to a mounting device. The individual guide elements can be brought together in such a way that a single and / or a plurality of parallel, continuous part streams can be generated. It is particularly advantageous if the receiving element or the conveying elements are not fixedly arranged on the carrier or the passage elements, so that the vibrations are not transmitted to the rest of the system. For example, a flexible connection, in particular a bendable tube, prevent the transmission of vibrations. A non-positive or positive connection is not required. Conceivable is a small air gap between the carrier or passage elements and receiving element, without the parts lose their orientation.

Alternatively, it is conceivable that the connection of passage elements and receiving element and thus the supply of the parts in the receiving element by movement and positioning of the carrier and / or the receiving element takes place. This may be, for example, a pallet which can be positioned below the carrier or via which the carrier can be positioned. Feeding of the parts in the pallet could be done directly from the passage elements. It is advantageous if the arrangement of the passage elements corresponds to the structure of the receiving element, i. corresponds to the pallet.

It is particularly advantageous if the parts are at least partially movable, positionable and / or alignable on the carrier or the carrier surface and / or on or in the passage elements. The movement and / or positioning and / or alignment of the parts can be effected by vibration of the carrier in at least one direction, ie in x and / or y and / or z directions. It is also conceivable additionally or alternatively a movement of the parts by compressed air. This can take place in the horizontal direction over the carrier surface and / or in the vertical direction from above and / or below the carrier surface to the entire or at least to a region of the carrier surface. In this case, compressed air inputs and / or outputs can be provided in the region of the carrier surface and / or the passage elements. Also, other possibilities of movement and / or positioning and / or alignment of the parts are possible, for example, a tilting of the carrier and / or filling and distribution the parts by means of funnels or sliders. For example, to issue wrong or unfavorable recognition parts aligned again from a passage element or realign, it is particularly advantageous if they can be moved individually. Conceivable are vertical impacts or overpressure for ejecting / ejecting and / or negative pressure for at least slight fixing of the parts in the region of the passage elements.

It is conceivable that vibration-generating mechanisms on the carrier move and / or align individual parts individually and / or groups of parts. In particular, a translational movement conceivable. For particularly precise and fast movement and / or alignment and / or assignment of individual parts and / or subassemblies are, for example, magnetic coils, piezo actuators, camshaft and / or imbalance. Furthermore, it is conceivable that at least two carriers are arranged one above the other, of which at least one is movable in the x and / or y direction. It is also advantageous if the distance of the passage elements of the at least two carriers is almost identical. The passage members of the upper beam, which are filled with parts in the desired orientation / orientation, are overlapped by corresponding movement in the x and / or y direction with the underlying carrier, so that the parts by activation of the passage elements of the upper carrier in the nests of the lower wearer are placed. A complete overlap is not necessary here.

In a particularly advantageous manner, the opening and closing of the passage elements based on a preferably optical feedback, the detection device preferably comprises at least one camera and / or an image processing system and / or an optical parts detection system, eg laser beam for occupancy testing, the presence and / or the Identity and / or the number and / or the position and / or the orientation of the parts recognizes. Other recognition devices are conceivable. As an alternative to an optical parts recognition device, the recognition can also be based on haptic or sensory feedback, for example the passage element or another element lying on the support can recognize a correctly aligned part.

Simple parts do not require a part recognition system and selective passageway elements, especially if jamming can be ruled out. In these cases, a purely mechanical orientation of the parts in the vertical case can be done by the passage element.

In order to avoid unwanted movement of the parts on the carrier surface or a leakage of the parts to the outside of the carrier, the carrier surface and / or the passage elements can be designed accordingly, for example with grooves. The carrier surface and / or the passage elements can be manufactured according to the type of parts to be handled, for example by 3D printing. A flexible adaptation of the support surface or the passage elements is also conceivable, for example by changing the distance of grooves by means of a scissor mechanism.

To favor the movement and / or to inhibit an unwanted movement or an unwanted escape of the parts, the surface of the carrier and / or the passage elements are coated in a further advantageous manner at least in regions with preferably oriented conveying brushes.

A favorable technical effect can be achieved by coating the support and / or through-element surface with the feed properties of the parts at least in some areas. These are in particular noise and / or wear and / or friction reducing materials, preferably plastics or synthetic resins, in particular polyester and / or polyurethane, Teflon and / or ceramic, in particular tungsten carbide.

The handling of cubic, cylindrical or elongated parts is particularly suitable by the system according to the invention. Nevertheless, it should be noted at this point that the system according to the invention depends on the design of the carrier (s) and the passage elements, as well as on the type and strength of the system. movement mechanism, can be designed for parts of any kind, size and shape.

A method for feeding and / or sorting and / or palletizing parts, in particular components, comprising a system according to any one of the preceding claims is claimed by claim 16.

There are now various possibilities for designing and developing the teaching of the present invention in an advantageous manner. For this purpose, on the one hand to the claims subordinate to claim 1 and on the other hand to refer to the following explanation of preferred embodiments of the invention with reference to the drawings. In conjunction with the explanation of the preferred embodiments of the invention with reference to the drawings, also generally preferred embodiments and developments of the teaching are explained. In the drawing show

1 is a schematic view of a first embodiment of a system according to the invention for feeding and / or sorting and / or palletizing parts,

2 is a schematic view of the object of FIG. 1,

3 is a schematic view of a second embodiment of a system according to the invention for feeding and / or sorting and / or palletizing parts with an inspection area upstream of a passage element, and FIG

Fig. 4 is a schematic view of a third embodiment of a system according to the invention for feeding and / or sorting and / or palletizing parts with two superimposed

Carriers. Fig. 1 shows a schematic view of a first embodiment of a system according to the invention for feeding and / or sorting and / or palletizing of parts. An essential part of the system is a carrier 1, on which components 2 can be arranged. The carrier 1 is designed in the form of a plate. The components 2 are cylindrical components 2. Their supply to the carrier 1 can be arbitrary. It is essential that the components are located on the support surface and can move there.

The system further comprises a detection device (not shown in FIG. 1) for detecting the position and the orientation of the components 2 which are located on the carrier 1.

The carrier 1 further comprises a moving mechanism that moves, aligns and positions the components 2 on the carrier 1. The movement and / or positioning and / or alignment of the parts 2 takes place via three-axis vibration of the carrier 1, namely in the x, y and / or z direction.

The carrier 1 has selectively reveal, round passage elements 3, which are coupled to the detection device and through which the parts 2 can be guided in a receiving element, not shown in Fig. 1. The passage elements 3 are arranged in the form of a 4 × 6 matrix, with FIG. 1 showing exactly one component 2 on the carrier 1. The passage elements 3 are by means of a binary control independently apparent and closable, which is symbolized by the binary numerical value at the top and left lateral edge of the carrier 1 in Fig. 1.

Fig. 2 shows a schematic view of the object of Fig. 1, wherein schematically indicated that each passage element 3 is assigned from below the support 1, a conveying element 4 for discharging the components 2. After the removal of the parts 2 from the passage elements 3, these are brought together in such a way that a continuous stream of parts 5 is produced. The identification device comprises a camera 7 directed onto the carrier surface and an image processing system for detecting the position, the orientation and the profile of the components 2. FIG. 3. Shows in a schematic view a second embodiment of a system for feeding and / or sorting and / or Palletizing parts 2 with all the features of the previous figures. In addition, by way of example, a passage element 3 is horizontally preceded by an inspection area 6 horizontally. This serves to align the component 2 and the visual inspection of the part profile. Subsequently, the component 2 is conveyed horizontally to the passage member 3 by vibration of the carrier 1. Alternatively or additionally, the carrier may be designed to be tiltable for conveying the passage element 3. Fig. 4 shows a schematic view of a third embodiment of a system according to the invention for feeding and / or sorting and / or palletizing parts 2 with two directly superimposed carriers 1 and V, of which at least one in the x and / or y direction is movable. The distance between the carriers 1 and V in the z-direction is enlarged here for illustration. Carrier 1 is equipped with vibration means and reveal passage members. The passage members 3 of the upper beam 1 make it possible to convey the correctly aligned components 2 detected by the detection means, not shown in FIG. 4, into the lower beam V. The lower support V is to be understood in the sense of a part receiving or a pallet. In contrast to the preceding embodiments, no further guide means below the passage elements 3 are required here.

In order to avoid repetition, reference should be made to the general part of the description for features which can not be inferred from the figures.

Finally, it should be noted that the embodiments described above are merely illustrative of the claimed teaching, but not limited to the embodiments. LIST OF REFERENCE NUMBERS

1 Carrier / carrier unit r Part holder / pallet

2 component

3 passage element

4 guide tube

5 Continuous Partestron

6 inspection area

7 recognition system / camera

Claims

1. System for feeding and / or sorting and / or palletizing parts (2), in particular of components, with a carrier (1) on which parts (2) can be arranged, a detection device for detecting the presence and / or the identity and / or position and / or orientation of the parts (2) on the support (1) and a movement mechanism which moves and / or aligns the parts (2) on the support (1),

The support (1) preferably has selectively revealable passage elements (3) which are coupled to the identification device (7) and through which the parts (2) can be guided into a receiving element (4).

2. System according to claim 1, characterized in that the passage elements (3) are arranged according to the application, in particular in the form of a matrix.

3. System according to claim 1 or 2, characterized in that the passage elements (3) with a preferably binary control independently and / or simultaneously are visible and closable.

4. System according to one of claims 1 to 3, characterized in that the opening and closing of the passage elements (3) via a single or dual drive, in particular via a cam drive, and / or a rotary drive can be realized.

5. System according to one of claims 1 to 4, characterized in that the passage elements (3) preferably horizontally upstream of an inspection area (6), in which the parts (2) are alignable and / or inspectable.

6. System according to one of claims 1 to 5, characterized in that the receiving element (4) is associated with a passage element (3) and / or the supply of the parts (2) in the receiving element (4) by movement of the Carrier (1) and / or the passage element (3) and / or the receiving element (4).

7. System according to one of claims 1 to 6, characterized in that below the passage elements (3) guide tubes (4) for sorting and / or stringing the parts (2) are arranged, wherein the individual guide tubes (4) are brought together in such a way a continuous partial flow (5) can be generated.

8. System according to one of claims 1 to 7, characterized in that the movement and / or positioning and / or alignment of the parts (2) on the support (1) and / or in the passage elements (3) at least partially by preferably triaxial Vibration and / or preferably vertical shocks and / or horizontal and / or vertical compressed air and / or pressure and / or negative pressure takes place.

9. System according to one of claims 1 to 8, characterized in that by vibration generating mechanisms on the support (1) individual parts (2) and / or groups of parts (2) are movable and / or aligned, in particular a translational movement is feasible.

10. System according to one of claims 1 to 9, characterized in that at least two carriers (1) are arranged one above the other, of which at least one in the x and / or y-direction is movable.

1 1. A system according to any one of claims 1 to 10, characterized in that the opening of the passage elements (3) based on a haptic and / or sensory and / or optical feedback, wherein the optical detection means (7) preferably at least one camera and / or an image processing system recognizing the position and / or the orientation and / or the identity and / or the number of parts (2).

12. System according to one of claims 1 to 1 1, characterized in that the carrier surface and / or the passage elements configured in such a way is / are, in particular grooves / have that an unintentional movement of the parts (2) can be prevented.

13. System according to one of claims 1 to 12, characterized in that the surface of the carrier (1) at least partially to favor the

Movement and / or to inhibit unwanted escape of the parts (2) is coated with preferably oriented conveying brush.

14. System according to one of claims 1 to 13, characterized in that the surface of the carrier (1) and / or the passage elements (3) at least partially with the feed properties of the parts (2) improving, in particular noise and / or wear and / or or friction reducing materials is coated, preferably with plastics or synthetic resins, in particular polyester and / or polyurethane, Teflon and / or ceramic, in particular tungsten carbide.

15. Method for feeding and / or sorting and / or palletizing parts, in particular components, comprising a system according to one of claims 1