EP3000544B1 - Device for and method of dispensing of rods, wires or similar goods - Google Patents

Description

The present invention relates to a device and a method for dispensing individual bars, individual wires or similar individual round cross-section or polygonal cross-section goods.

In the FIGS. 3 and 3a the European patent specification EP 1 704 939 B1 For example, there is known an apparatus for dispensing individual bars, individual wires or similar individual goods used in an installation in which wire is processed. By means of the known device, a wire is removed from a wire magazine and the individual wire is delivered so that it falls due to gravity and guided by one or the other guide element in a predetermined position, to then be processed. The delivery of wires with the known device is very reliable and accurate. The transport of the discharged wires by means of gravity leads to a maximum frequency of delivery, which can not be exceeded. As a result, the speed of delivery of the wires and further processing a limit is set. This limit may be a disadvantage to the user of the device.

This is where the invention starts.

The invention is based on the object to propose a device of the type mentioned, with a high discharge speed can be achieved.

• mit einem ersten Führungselement zum Führen des Stabes, des Drahtes oder des ähnlichen Gutes mit einer ersten Führungsfläche,
• mit einem zweiten Führungselement zum Führen des Stabes, des Drahtes oder des ähnlichen Gutes mit einer zweiten Führungsfläche,
• mit Bewegungsmitteln zum Bewegen des Stabes, des Drahtes oder des ähnlichen Gutes an den beiden Führungsflächen,
• wobei die erste Führungsfläche eine erste Kante hat,
• wobei mittels der Bewegungsmittel der Stab, der Draht oder das ähnliche Gut entlang der zweiten Führungsfläche von einer ersten zu einer zweiten Position verschiebbar ist, in welcher der Stab, der Draht oder das ähnliche Gut an der ersten Kante liegt und
• mit einem Kraftmittel, wobei in der zweiten Position des Stabs, des Drahts oder des ähnlichen Gutes mittels eines von dem Kraftmittel aufbringbaren Kraftstoßes der Stab, der Draht oder das ähnliche Gut in eine Richtung im wesentlichen parallel oder parallel zur zweiten Führungsfläche beschleunigbar ist.

This object is achieved according to the invention with a dispensing device having the features of claim 1. According to the invention is therefore a dispenser

• with a first guide element for guiding the rod, the wire or the like with a first guide surface,
• with a second guide element for guiding the rod, the wire or the like with a second guide surface,
• with movement means for moving the rod, the wire or similar goods on the two guide surfaces,
• wherein the first guide surface has a first edge,
• wherein, by means of the moving means, the rod, wire or similar material is slidable along the second guide surface from a first to a second position in which the rod, wire or the like is located at the first edge and
• with a force means, wherein in the second position of the rod, the wire or the like, the rod, wire or similar material can be accelerated in a direction substantially parallel or parallel to the second guide surface by means of a force impartable by the force means.

By the acceleration of the rod, the wire or similar good, a high release speed can be achieved. The consequence of the high delivery rate is that the dispenser is able to take over and dispense another rod, wire or similar product faster than the known dispenser. As a result, a higher output frequency can be achieved, which can lead to higher cycle times in the further processing of the goods.

According to the invention, the force impact applied by the force means may have a component in a direction perpendicular to the second guide surface. In particular, this vertical component of the impulse causes the goods Acceleration substantially parallel or parallel to the second guide surface in which the material is flipped under the action of the force applied by the force means in a direction substantially parallel or parallel to the second guide surface. This flipping can successfully accelerate the good with cross-sectionally round goods, but also with cross-section polygons goods.

Preferably, the good is also given an angular momentum when transmitting the power surge on the estate. The angular momentum can lead to a stabilization of the movement of the accelerated material.

In a dispensing device according to the invention, the power means may be a drive. The drive can convert kinetic energy from another form of energy, such as a motor. Advantageously, the drive has an element for storing potential energy, such as a spring. A spring has the advantage that it is a simple and inexpensive component in which in a short time a large amount of potential energy can be stored, which can be converted into kinetic energy in a short time.

According to the invention, it is possible that by means of the movement means potential energy is stored in the force means. The moving means and the force means may be coupled thereto. Advantageously, the storage takes place simultaneously with the movement of the rod, wire or similar goods from the first position to the second position.

In a dispensing device according to the invention, the movement means may comprise the first and the second guide element. It is possible that the first and the second Guide surface include an angle greater than 0 ° and less than 65 °. Then, by means of relative movement of the first and second guide surfaces, with which the guide surfaces are relatively movable toward each other in a first direction, the rod, wire or the like can be moved to move from the first to the second position and from the second Position to be moved out. Due to the angle between the first and second guide surfaces and the relative movement of the guide surfaces toward each other, a rod, wire or similar product is driven in the direction in which the angle between the guide surfaces opens.

Furthermore, it is possible that in a dispensing device according to the invention the movement means comprise the first guide element and the second guide element and a third guide element with a third guide surface. Then, by moving the first and / or second guide surfaces relative to the third guide surface, the rod, wire or the like may be movable to move from the first to the second position and from the second position. By the angle between the first or the second guide surface on the one hand and the third guide surface on the other hand and the relative movement of the guide surfaces towards each other, a rod, a wire or similar good is driven in the direction in which opens the angle between the guide surfaces.

According to the invention, the movement means may comprise at least one drive, for example a motor.

The movement means of a dispensing device according to the invention can drive the first, the second and / or the third guide means.

In a variant of a dispensing device according to the invention, the force means and the movement means can be formed by a means.

According to the invention, it is also possible that a motor of the movement means directly or indirectly in the movement of the material from the first to the second position, a storage for potential energy charges, in particular a spring biases.

A dispensing device according to the invention may have a fourth guide element with a guide curve. Along this guide curve, an accelerated by the impulse rod, wire or accelerated by the impulse similar good can be performed. In this case, an angular momentum, which may have received the good by the impulse, cause a rolling on the guide curve. The third guide element and the fourth guide element can together form a guide element. The guide curve can have a transitionless connection to the third guide surface.

According to the invention, the first guide element or the second guide element can be coupled to the power means and the force impact can be transmitted via the coupled with the power means guide member in the rod, the wire or the like Good. Then, the first or second guide member not coupled to the power means may be coupled to the drive, and by means of the drive, the guide member not coupled to the power means may be moved against the guide member coupled to the power means to thereby guide the rod, wire or the like from the first position in to move the second position while at the same time supplying to the force means the potential energy for the momentum.

The invention is further based on the object to propose a method with which a high delivery rate can be achieved.

This object is achieved by a method according to claim 14. Thus, the rod, wire or similar material is moved from a first position along a first guide surface of a first guide member and along a second guide surface of a second guide member to a second position in which the rod, wire or similar material faces one Reached edge of the second guide surface recessed edge of the first guide surface. Upon exiting the second position, an impulse is then transmitted to the rod, wire, or similar material to accelerate the rod, wire, or the like in a direction substantially parallel or parallel to the second guide surface. According to the invention, the rod, the wire or similar material can move along a guide curve of a fourth guide element after the acceleration by the force impulse when leaving the second position.

Fig. 1

in schematischer Darstellung ein erstes Beispiel einer erfindungsgemäßen Abgabevorrichtung,

Fig. 2

in schematischer Darstellung ein zweites Beispiel einer erfindungsgemäßen Abgabevorrichtung,

Fig. 3

in schematischer Darstellung ein drittes Beispiel einer erfindungsgemäßen Abgabevorrichtung,

Fig. 4

in schematischer Darstellung ein viertes Beispiel einer erfindungsgemäßen Abgabevorrichtung in einer Folge a) bis d) von verschiedenen Zuständen.

Further features and advantages of the present invention will become apparent from the following description of preferred embodiments with reference to the accompanying drawings. It shows:

Fig. 1

a schematic representation of a first example of a dispensing device according to the invention,

Fig. 2

a schematic representation of a second example of a dispensing device according to the invention,

Fig. 3

a schematic representation of a third example of a dispensing device according to the invention,

Fig. 4

a schematic representation of a fourth example of a dispensing device according to the invention in a sequence a) to d) of different states.

That in the FIG. 1 illustrated first example of a dispensing device according to the invention comprises a first guide member 1, a second guide member 2 and a third guide member 3. Further, a power means 6 and a round rod 5 is shown.

The first guide element 1 is coupled to the power means 6. The force means 6 is a spring which exerts a pressure in the direction of the arrow 60 on the first guide element 1. The first guide element 1 has on the side facing away from the force means a first guide surface 11, with which the first guide element 12 rests against the round rod 5. The first guide element is movably mounted.

The second guide element 2 is firmly anchored. It has a second guide surface 21 against which the round rod 5 rests.

The third guide element 3 is connected to a drive, not shown, which can move the guide element 3 in the direction of the arrow 70. The round rod 5 abuts against a third guide surface 31, via which the movement of the third guide element can be transmitted to the round rod 5. The displacement of the round rod 5 takes place along the first guide surface 11 and the second guide surface 21 parallel thereto.
The round rod 5 may consist of a in the Fig. 1 be shifted by the solid line shown in the first position in a second position shown by the dashed line. In this second position, the round rod 5 bears against a first edge 12 of the first guide surface 11. This first edge 12 springs back in a direction parallel to the second guide surface perpendicular to a second edge 22 of the second guide surface 21 opposite the second edge 22 of the second guide surface 21, so that the round rod in the second position away from the second edge 22 at the first Guide surface 21 is present. If the round rod 5 is moved further from this second position in the direction of the arrow 70, the force means 6 causes a force impulse, which is transmitted via the first edge 11 into the round rod 5. This force pulse accelerates the round rod 5 in the direction of the arrow 70. This occurs because the force applied by the spring 6 presses the first edge 12 onto the third guide surface 31 facing side of the round rod 5. In this case, the round rod 5 abruptly pushed away in the direction of the arrow 70 (weggeschnippt).

At the same time, it may happen that the round rod experiences a rotational acceleration about its longitudinal axis.

That in the Fig. 2 The second example of a dispensing device according to the invention also uses a force impulse for the sudden acceleration of a round rod 5. The force impulse is transmitted in this example via a first edge 12 of a first guide surface 11 of a first guide member 1 in the round rod 5. Previously, the round rod 5 is moved from a first position (solid representation of the round rod 5 and the first guide element 1) into a second position (dashed representation of the round rod 5 and the first guide element 1). The movement of the round rod 5 is carried out differently than in the first example. The round rod 5 is moved by a force that exerts a force means 6, again a spring, in the direction of an arrow 60 on the first guide element 1. The first guide element 1 is connected via a pivot joint with a second guide element 2, which has a second guide surface 21 with a second edge 22. As in the first example, the first edge 12 is set back from the first position to the second position with respect to the second edge 22 in the direction of movement of the round rod 5.

By a force exerted on the first guide element 1 by the force means 6, the first guide element 1 is pivoted onto the second guide element, so that an angle between the first guide surface 11 and the second guide surface 21 decreases. In this case, the round rod 5 is pushed from the first position to the second position. If the rod 5 has reached the second position, the force is applied to the rod as soon as the angle between the guide surfaces 11, 21 is further reduced.

The third example of a device according to the invention, as described in the Fig. 3 is shown, likewise has a first guide element 1, a second guide element 2 and a force means 6. The power means 6 is again a spring which exerts a force on the first guide element in the direction of an arrow 60. A first guide surface 11 of the first guide element 1 is at an angle of z. 5 to 40 ° to a second guide surface 21 of a second guide element 22. The arrow 60 is perpendicular to the second guide surface 21. By the movement of the first guide member 1 in the direction of the arrow 60, a parallel displacement of the first guide surface 11 in the direction of the second Guide surface 21. Thereby, the round rod 5 is moved along the first and second guide surfaces 11, 21 from the first position (shown by a solid line) to the second position (shown by a dashed line). As soon as it leaves the second position, the round rod experiences a force impulse through the first edge 12 of the first guide element 1, which moves the round rod 5 further along the second guide surface 12.

The fourth example of a device according to the invention according to Fig. 4 a to d has a first guide element 1, a second guide element 2 and a third guide element 3. The first guide element 1 is pivotally mounted on the third guide element 3. The third guide element is fixedly attached to a holder 91. Between the holder 91 and the first guide element 1, a spring is arranged as the force means 6, which presses the first guide element in the direction of an arrow 60.

Between the holder 91 and the third guide element 3 on the one hand and a further holder 92, a shaft is formed, in which a supply of round rods 5 is mounted one above the other. The rods are arranged parallel to each other. At one end of the Well, the second guide element 2 is provided with which an outlet opening of the shaft can be closed ( Fig. 4b, c, d ).

The second guide element 2 is coupled to a movement means 7. This is a drive by means of which the second guide element 2 can be moved linearly in the direction of an arrow 70 and in the opposite direction. This linear movement of the second guide element 2 is guided by a further holder 93 and serves for a release and closing of the shaft.

To release the shaft, the second guide element 2 is pulled back by the movement means 7 so far that the second guide surface 21 comes into alignment with the shaft wall formed by the holder 92. If the second guide element 2 is pulled back so far, the lowest round rod 5 can fall in front of the second guide element ( Fig. 4a ). This rod 5 is then held between the second guide member and the first guide member 1. The first guide element 1 is pressed by the power means 6 against the lowermost rod 5. The lowest round rod 5 is thus held by the first guide member 1 and the second guide member 2 by force fit. In the FIG. 4a the lowest rod is shown in the first position.

The linear movement of the second guide member 2 also serves to store potential energy in the force means 6. By the movement of the second guide member 2 in the direction of the arrow 70, the lowermost rod 5 is moved along a third guide surface 31. As a result, the round rod moves on the one hand in the direction of the arrow 70 and the other in one Direction perpendicular to it. The movement of the round rod 5 in the direction of the arrow 70 is transmitted to the first guide element 1, which dodges against the direction of an arrow 60. By this evasive movement, the spring of the power means 6 is tensioned and stored potential energy.

The movement of the round rod 5, held and guided between the first, the second and the third guide surface 11, 21, 31, leads the round rod not only along the third guide surface 31, but also along the first guide surface 1. This movement lasts so long until the round rod has reached a first edge 12 of the first guide surface 1. Then a second position of the round bar is reached. If the round rod is now pressed further along the third guide surface 31, the round rod 5 experiences by a fast-forward of the first guide member 1 in the direction of the arrow 60, which is effected by the force element 6, a force impulse, the rod 5 at high speed along a Guiding curve of a subsequent to the third guide element 3 fourth guide member 4 moves. At this moment, the round rod 5 is discharged from the device at high speed.

Claims (15)

1. Device for dispensing individual rods (5), individual wires or similar individual cross-sectionally round or cross-sectionally polygonal articles,

   - having a first guide element (1) for guiding the rod (5), the wire or the similar article with a first guide face (11),

   - having a second guide element (2) for guiding the rod (5), the wire or the similar article with a second guide face (21),

   - having moving means (7) for moving the rod (5), the wire or the similar article on the two guide faces (11, 21),

   - wherein the first guide face (11) has a first edge (12),

   - wherein, by means of the moving means (7), the rod (5), the wire or the similar article is displaceable along the second guide face (21) from a first position to a second position, in which the rod (5), the wire or the similar article rests against the first edge (12), and

   - having a force means (6), wherein, in the second position of the rod (5), of the wire or of the similar article, the rod (5), the wire or the similar article is able to be accelerated substantially parallel or parallel to the second guide face (21) by means of a force impact that is able to be applied by the force means (6).
2. Dispensing device according to Claim 1, characterized in that the force impact that is able to be applied by the force means (6) has a component in a direction perpendicular to the second guide face (21).
3. Dispensing device according to Claim 1 or 2, characterized in that the force means (6) is a drive, for example a drive having an element for storing potential energy.
4. Dispensing device according to Claim 3, characterized in that the storage element for potential energy is a spring.
5. Dispensing device according to one of Claims 1 to 4, characterized in that the moving means (7) comprise the first and the second guide element (1, 2), wherein the first and the second guide face (11, 21) enclose an angle greater than 0° and less than 65°, and the rod (5), the wire or the similar article is movable by means of a relative movement of the first and the second guide face (11, 21), by way of which the guide faces (11, 21) are movable in a relative manner towards one another in a first direction, in order to be moved from the first position into the second position and out of the second position.
6. Dispensing device according to one of Claims 1 to 4, characterized in that the moving means (7) comprise the first guide element (1) and the second guide element (2) and also a third guide element (3) having a third guide face (31), wherein the first or the second guide face (11, 21), for the one part, and the third guide face (31), for the other part, enclose an angle, and the rod (5), the wire or the similar article is movable by means of a movement of the first and the second guide face (11, 21) relative to the third guide face (31), in order to be moved from the first position into the second position and out of the second position.
7. Dispensing device according to one of Claims 1 to 6, characterized in that the moving means (7) comprise at least one drive, for example a motor.
8. Dispensing device according to one of Claims 1 to 7, characterized in that the drive drives the first, the second or the third guide element (1, 2, 3).
9. Dispensing device according to one of Claims 1 to 8, characterized in that the force means (6) and the moving means (7) are formed by one means or a group of means.
10. Dispensing device according to one of Claims 1 to 9, characterized in that the dispensing device has a fourth guide element (4) having a guide curve, along which the rod (5), wire or similar article accelerated by the force impact is guidable.
11. Dispensing device according to Claim 10 in combination with Claim 6, characterized in that the third guide element (3) and the fourth guide element (4) form one guide element, wherein the guide curve has a transition-free junction with the third guide face (31).
12. Dispensing device according to one of Claims 1 to 11, characterized in that the first guide element (1) or the second guide element (2) is coupled to the force means (6) and the force impact is transmissible to the rod (5), the wire or the similar article via the guide element (1, 2) coupled to the force means (6).
13. Dispensing device according to Claim 12, characterized in that the first or second guide element (1, 2) that is not coupled to the force means (5) is coupled to the moving means (7), and the guide element (1, 2) that is not coupled to the force means is movable counter to the guide element (1, 2) coupled to the force means (6) by means of the moving means (7), in order as a result to move the rod (5), the wire or the similar article from the first position into the second position and at the same time to supply the force means (6) with the potential energy for the force impact.
14. Method for dispensing an individual rod (5), an individual wire or a similar individual cross-sectionally round or cross-sectionally polygonal article, wherein the rod (5), the wire or the similar article is moved from a first position, along a first guide face (11) of a first guide element (1) and along a second guide face (21) of a second guide element (2), into a second position in which the rod (5), the wire or the similar article reaches a first edge (12) of the first guide element (1), and wherein, on leaving the second position, a force impact is transmitted to the rod (5), the wire or the similar article in order to accelerate the rod (5), the wire or the similar article in a direction substantially parallel or parallel to the second guide face (21).
15. Method according to Claim 14, characterized in that, after being accelerated by the force impact on leaving the second position, the rod (5), the wire or the similar article moves along a guide curve of a fourth guide element (4).

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