阅读说明：本技术 加工棒材的设备和方法 (Apparatus and method for processing rod material ) 是由 乔治·德尔法布罗 于 2018-12-21 设计创作，主要内容包括：一种用于加工棒材的设备,包括：多个容纳装置(11a-11f),它们彼此相邻且平行地设置,并且在各自的纵向方向(L)上具有长形展开以容纳棒材((B1-B6)的相应束(F1-F6),以及位于容纳装置(11a-11f)下游的至少一个加工站(12)；加工站(12)包括：用于从容纳装置(11a-11f)中的一个移出至少一根棒材(B1-B6)的至少一个移出装置(26)、被配置为使棒材(B1-B6)在平行于纵向方向(L)的供料方向(A)上移动的至少一个牵引单元(29)、以及被配置为弯折棒材(B1-B6)的至少一个弯折装置(35)；至少一个驱动构件(15)与加工站(12)相关联,并且被配置为使加工站(12)在相对于纵向方向(L)的横向方向(T)上移动,以便使移出装置(26)与位置基本固定的容纳装置(11a-11f)中的一个或另一个相对应。(An apparatus for processing bars, comprising: a plurality of containing devices (11a-11F) arranged adjacent and parallel to each other and having, in a respective longitudinal direction (L), an elongated development for containing respective bundles (F1-F6) of bars ((B1-B6), and at least one processing station (12) located downstream of the containing devices (11a-11F), the processing station (12) comprising at least one removing device (26) for removing at least one bar (B1-B6) from one of the containing devices (11a-11F), at least one drawing unit (29) configured to move the bar (B1-B6) in a feeding direction (A) parallel to the longitudinal direction (L), and at least one bending device (35) configured to bend the bar (B1-B6), at least one drive member (15) being associated with the processing station (12), and is configured to move the processing station (12) in a transverse direction (T) with respect to the longitudinal direction (L) so as to bring the removal means (26) in correspondence with one or other of the substantially fixed-position containing means (11a-11 f).)

1. An apparatus for processing bars, comprising: a plurality of containing devices (11a-11F) arranged adjacent and parallel to each other and having, in respective longitudinal directions (L), an elongated development to contain respective bundles (F1-F6) of bars (B1-B6); and at least one processing station (12) located downstream of said containing means (11a-11f), said processing station (12) comprising at least: at least one removing device (26) for removing at least one bar (B1-B6) from one of the containing devices (11a-11f), at least one drawing unit (29) configured to move the bar (B1-B6) in a feeding direction (A) parallel to the longitudinal direction (L), and at least one bending device (35) configured to bend the bar (B1-B6), the apparatus for processing bars being characterized in that at least one drive member (15) is associated with the processing station (12), and configured to move the processing station (12) in a transverse direction (T) with respect to the longitudinal direction (L), so as to make said removal means (26) correspond to one or other of said containing means (11a-11f) of substantially fixed position.

2. Apparatus for processing bars according to claim 1, characterized in that said processing station (12) comprises a supporting structure (14), said supporting structure (14) being provided with sliding elements (16) positioned on guides (17) oriented along said transverse direction (T).

3. The apparatus for working bars according to claim 1 or 2, characterised in that a command station (45) is associated with the working station (12), able to manage and control the working cycle of the bars (B1-B6).

4. Apparatus for processing bars according to claim 2 or 3, characterized in that said command station (45) is associated with said supporting structure (14) of said processing station (12) and is movable together with said processing station (12).

5. The apparatus for processing bars according to any of the preceding claims, characterised in that it comprises a collection station (19) for collecting the finished products, located downstream of the processing station (12).

6. Apparatus for working bars according to claim 5, characterised in that said collection station (19) of the finished product is associated with a respective drive member (23) and is movable in said transverse direction (T).

7. The apparatus for processing bars according to claim 5, characterized in that the collection station (19) is provided with sliding elements (24) positionable on guides (25) oriented in the transverse direction (T).

8. The apparatus for processing bars according to claim 5, characterised in that the processing station (12) can be raised very high with respect to the floor (P) so that the collection station (19) can be moved under the processing station (12).

9. Plant for working bars according to claim 5, characterised in that said containing means (11a-11f) form a modular warehouse (13) substantially independent of the working station (12) of the bars (B1-B6) and of the collection station (19) of the finished products.

10. Method for working bars using an apparatus for working bars according to any of the previous claims, characterised in that it comprises: at least one step of moving the processing stations (12) relative to the accommodation devices (11a-11f) arranged adjacent and parallel to each other, in order to present the processing stations (12) in each case in correspondence with one or other of the accommodation devices (11a-11f) which are substantially fixed in position; at least one step of removing at least one bar (B1-B6) from said containing means (11a-11 f); and at least one step of bending and then shaping the bars removed from the respective containing means (11a-11f) by means of said processing station (12).

Technical Field

The invention relates to a device and a method for processing bars, in particular metal bars.

The term "rod" refers to generally elongated products such as rods, stiffeners, round bars, square bars, etc. Thus, for example in the building field, the bars may be used as reinforcements for concrete structures, such as but not limited to beams or columns.

Background

Apparatuses are known for working metal products, such as bars, reinforcing bars, section steels, tubes or other profiles having any cross-sectional shape, to obtain semi-finished products for use as reinforcements in building structures.

These devices may include bending machines, stirrup-making machines, cutting devices, counting machines or other machines.

These devices generally require feeding devices capable of arranging the individual bars starting from the bundle and feeding them sequentially (for example, but not only one after the other) to respective processing units, such as bending units, cutting units, counting units, etc.

One of said known devices for working bars may comprise: a plurality of containing devices, which are arranged adjacent to each other and parallel and have an elongated development in the respective longitudinal direction to contain the respective bundle of bars; and a processing station located downstream of the containing means and comprising means for removing at least one bar from one of the containing means, drawing means configured to move the bar in a feeding direction parallel to the longitudinal direction, and bending means configured to bend the bar.

The receiving devices thus form a modular warehouse in which different types of bundles or groups of bars can be positioned, wherein each receiving device is provided with a specific type of bar.

There are apparatuses for processing bars in which the modular warehouse is mobile, for example mounted on guides located on the floor, so that it can translate with respect to the processing stations, presenting in each case the selected containing means in front of the processing station where the bending means are provided.

As can be appreciated, providing a movable modular warehouse requires, for example, the provision of guides and moving devices for the entire warehouse, and therefore requires having large surfaces and spaces available for handling, since the modular warehouse must be able to position the first to the last accommodation device in correspondence with the fixed processing stations.

Since such equipment is typically housed in warehouses and the like, it is clear that a large space is necessarily required in these warehouses to house and manipulate the mobile warehouses.

Furthermore, moving the mobile warehouse requires structural interventions in the warehouse, thus resulting in an increase in the cost and complexity of the entire processing plant.

Furthermore, it is difficult to expand the modular mobile warehouse with additional housing means. Often, if the user needs additional containment devices, for example because the product he is working on requires bars of different length compared to the bars already present in the containment devices, he has to install a new, larger mobile warehouse if there is space available in the warehouse.

Therefore, this mobile warehouse does not allow to place variable length bundles of bars, with the same or different diameters, in order to optimize the production cycle.

Moreover, another drawback of this mobile warehouse is that if the operator needs to move/load/remove the bundle of bars in one or the other containing device of the warehouse, it is necessary to stop the mobile warehouse and therefore the processing cycle of the bars, with a significant loss of efficiency in the whole process.

Therefore, the mobile warehouse, which must be equipped with moving means and possibly corresponding guides, also causes an increase in the weight of the whole system or plant.

Another drawback of the known processing plant relates to the step of unloading the finished product (and therefore, for example, the different types of suitably shaped stirrups) according to a determined processing cycle. In fact, from an automation point of view, the unloading step often involves limitations, since it is difficult to separate the warehouse containing the finished products from the rest of the processing plant and it is often difficult to organize suitable containing devices for each type of finished product.

Further limitations and disadvantages of conventional solutions and techniques will become apparent to one of skill in the art after reviewing the remainder of the specification with reference to the drawings and the following description of embodiments, although it will be clear that the description of the prior art in connection with the specification should not be taken as an admission that what is described herein is known in the prior art.

It is therefore desirable to provide a processing plant for bars, in particular metal bars, which overcomes at least one of the drawbacks of the prior art.

It is therefore an object of the present invention to provide an apparatus for processing bars, in particular metal bars, which is automated, efficient and allows to keep a warehouse containing the bars to be processed in a substantially fixed position, while providing at least one movement of the processing stations, so that each time a processing station appears to correspond to one of the containing means in order to remove at least one bar to be processed.

Another object of the present invention is to provide a plant for working bars which allows the user to optimize the production cycle of the bars, limits the plant downtime and allows to arrange and/or move the bars in the containing means even during a specific production cycle.

Another object of the present invention is to provide an apparatus for processing bars which allows the user to enlarge or reduce the warehouse containing the bars as required by adding or removing one or more devices containing bundles or units of bars, thus optimizing the production cycle of the bars.

Another object of the present invention is to provide an apparatus for processing bars with a large free space and handling space, which is compact and of smaller size and weight than the known processing apparatuses.

Another purpose of the present invention is to perfect an efficient method for processing bars, in which the processing station is movable with respect to the substantially fixed means that contain the bars.

The applicant has devised, tested and embodied the present invention to overcome the shortcomings of the state of the art and to obtain these and other purposes and advantages.

Disclosure of Invention

The invention is set forth and characterized in the independent claims, while the dependent claims describe other characteristics of the invention or variants to the main inventive idea.

According to the above purpose, according to the present invention, a device for working bars comprises: a plurality of containing devices, which are arranged adjacent and parallel to each other and have an elongated development in the respective longitudinal direction to contain the respective bundle of bars; and at least one processing station located downstream of the containing means, the processing station comprising at least one removing means for removing at least one bar from one of the containing means, at least one drawing unit configured to move the bar in a feeding direction parallel to the longitudinal direction, and at least one bending means configured to bend the bar.

According to one aspect of the invention, at least one drive member is associated with the processing station, which drive member is configured to move the processing station in a transverse direction with respect to the longitudinal direction in order to bring the removal device in correspondence with one or other of the substantially fixed-position containment devices.

According to another aspect of the invention, the processing station comprises a support structure provided with a sliding element positionable on a guide oriented in the transverse direction.

A command station may be associated with the processing station, able to manage and control the processing cycle of the bars.

The command station may be associated with the support structure of the processing station and may be movable with the processing station.

The processing plant may also comprise a collecting station for collecting the finished products, downstream of the processing station.

The collection stations of the finished products are associated with respective drive members and are movable in a transverse direction.

The collecting station is provided with a sliding element positionable on a guide oriented in the transverse direction.

The processing station can be raised so high relative to the floor that the collection station can be moved under the processing station.

Said containing means form a modular warehouse substantially independent from said processing station of the bars and from said collection station of the finished products.

The invention also relates to a method for processing bars using the above-mentioned apparatus for processing bars. The method comprises the following steps: at least one step of moving the processing stations relative to the accommodation devices arranged adjacent and parallel to one another in order to present the processing stations in each case in correspondence with one or other of the accommodation devices whose position is substantially fixed; at least one step of removing at least one bar from said containing means; and at least one step of bending and then shaping the bars removed from the respective containing means by means of said processing station.

These and other aspects, features and advantages of the present disclosure will be better understood with reference to the following description, drawings and appended claims. The accompanying drawings, which are incorporated in and form a part of this specification, illustrate some embodiments of the invention and, together with the description, serve to explain the principles of the disclosure.

The various aspects and features described in this specification may be applied separately where possible. These individual aspects, such as aspects and features described in the appended dependent claims, may be the subject of divisional applications.

It should be appreciated that any known aspect or feature discovered during the prosecution of the patent application is not to be claimed and should be subject of disclaimer.

Drawings

These and other features of the invention will become apparent from the following description of some embodiments, given as non-limiting examples, with reference to the accompanying drawings, in which:

fig. 1 is a front view of an apparatus for working bars according to the invention;

fig. 2 is a first plan view of the apparatus for processing bars of the invention, with the processing station in a first removal position with respect to the means for housing the bars;

fig. 3 is another plan view of the apparatus for processing bars of the invention, with the processing station in a second, removed position with respect to the means for housing the bars.

To facilitate understanding, identical reference numerals have been used, where possible, to designate identical elements that are common to the figures. It should be understood that elements and features of one embodiment may be readily combined with other embodiments without further recitation.

Detailed Description

Reference now will be made in detail to various embodiments of the invention, one or more examples of which are illustrated in the drawings. Each example is provided by way of illustration of the invention and should not be construed as limiting the invention. For instance, features illustrated or described as part of one embodiment, can be used on or in conjunction with other embodiments to yield yet a further embodiment. It is to be understood that the invention is intended to embrace all such modifications and variations.

Before describing these embodiments, it must also be noted that the specification is not limited in its application to the details of construction and the arrangement of components as set forth in the following description using the drawings. The description may provide other embodiments, and may be obtained or carried out in various other ways. It is also to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.

With reference to the figures, the apparatus 10 for working bars according to the invention comprises a plurality of containing devices 11a-11F, arranged adjacent and parallel to each other and having an elongated development in the respective longitudinal direction L to contain respective bundles F1-F6 of bars B1-B6.

The receiving means 11a-11f thus essentially define a modular warehouse 13, and different types of bars B1-B6 may be arranged in the receiving means 11a-11 f.

The receiving means 11a-11f are in a substantially fixed position relative to the processing station 12. The processing station 12 is located downstream of the accommodating means 11a-11f and is movable at least in the transverse direction T by suitable drive means 15.

The processing station 12 may comprise a support structure 14, which support structure 14 is provided with sliding elements 16, such as wheels, pads or the like, which sliding elements 16 are positioned on guides 17, which guides 17 are formed on the floor P in a direction parallel to the transverse direction T.

The processing station 12 can be raised very high with respect to the floor P in order to obtain a space 18 therebelow, in which space 18 a collection station 19 for the finished products can deliver the formed products, for example starting from the bars B1 and B6.

The collection station 19 can also be divided into a plurality of containing devices 20, these containing devices 20 being adapted to receive different types of finished products.

The collecting station 19 essentially comprises a pallet 21, at which pallet 21 the receiving means 20 are positioned. The pallet 211 is also provided with retaining elements 22 for the finished product.

The collection station 19 is movable at least in the transverse direction T by at least one corresponding drive member 23.

For example, it may be provided that the pallet 21 is provided with sliding elements 24, such as wheels, pads or the like, positioned on corresponding guides 25, associated with the floor P and parallel to the transverse direction T.

The processing station 12 comprises at least one removal device 26 to remove at least one bar, for example bar B3' (fig. 1) of bundle F3.

For example, the removing device 26 may be provided with a removing head 27, which removing head 27 may be moved downwards to remove the bar B3' from the bundle F3 and upwards to place the bar in alignment with the feeding direction a, suitable for conveying it to the subsequent operating members of the processing station 12. The removal head 27 may be a magnetic head or the like.

The feed direction a of any rod, in this case for example rod B3', is parallel to the longitudinal direction L.

Downstream of the removal device 26 there is an introduction unit 28, the introduction unit 28 being adapted to move the bar B3' towards the drawing unit 29.

In some embodiments (fig. 1), the introduction unit 28 may comprise a gripper, for example defined by two jaws 30, and a translation device arranged to move the gripper in a direction parallel to the feeding direction a to feed the bar B3' to the components located downstream. Thus, the introduction unit 28 can be moved in both directions in the feeding direction a.

In a variant embodiment, not shown, the introduction unit 28 may comprise motorized rollers between which the bar B3 'is positioned and may be adapted to translate in the feeding direction a in order to move the bar B3' towards the drawing unit 29.

Downstream of the introduction unit 28, an introduction element 31 may be provided, which is adapted to correctly position the bar B3' in alignment with the feeding direction a, to allow its subsequent transfer to the drawing unit 29.

The introduction element 31 may, for example, comprise a channel 32, which channel 32 opens out in the feeding direction a and may be provided with an introduction 33 for facilitating the introduction of the rod.

Between the introduction unit 28 and the drawing unit 29 there can be mounted a cutting device 49 configured to selectively cut the bars fed in the feeding direction a. By way of example only, the cutting device 49 may be configured to cut the tail end of the bar passing through the processing station 12.

The drawing unit 29 may comprise motorized rollers 34, between which rollers 34 any one of the bars B1-B6 (for example bar B3') may be positioned, so as to be able to be conveyed to the bending device 35 located downstream.

The bending device 35 may comprise a support table 36, which support table 36 may be translated by means of suitable driving means in a direction Z perpendicular to the feeding direction a. This allows the bending device 35 to be positioned in a predetermined manner in each case with respect to the particular bending to be performed.

The bending device 35 comprises a support disc 37 on which a fixed counter-pin 39 is positioned. The bending pin 38 can rotate, for example, in the direction R around a fixed counter-pin 39.

The bar may then be inserted between the bending pin 38 and the fixed counter-pin 39, and by means of a suitable combined movement of rotation of the bending pin 38 and translation of the support table 36 in one or the other of the directions Z substantially perpendicular to the feeding direction a, it is possible to manufacture bent products, for example products having a square, rectangular or other shape, such as stirrups or the like, starting from the bar.

Upstream of the bending device 35, a cutting unit 40 is generally provided, which cutting unit 40 may be provided with, for example, a first cutting blade 41 and a second cutting blade 42. The cutting unit 40 may be configured to cut the leading end of the fed rod.

As shown in fig. 1, the cutting unit 40 may be mounted directly on the support structure 14. According to a variant embodiment, it may be provided that a portion of the cutting unit 40 (for example the first cutting blade 41) is mounted on the support frame 14 and another portion (for example the second cutting blade 42) is mounted on the support table 36.

Downstream of the bending device 35, a gripping unit 48 may be provided, which is adapted to allow to keep a portion of the bar translated in the feeding direction a past the bending device 35 by means of the drawing unit 29.

The gripping unit 48 may be provided with rollers 43 and 43 ', the bar being positioned between the rollers 43 and 43', and the rollers 43 may be positioned on supports 44, wherein at least one of the supports 44 is adapted to translate at least in a direction Z1 substantially perpendicular to the feeding direction a. It may be provided that the two supports 44 can translate in both directions of the direction Z1, as schematically illustrated.

At least one of the rollers of the series (for example roller 43') may be motorized so as to allow a bidirectional translation of the bar in the feeding direction a.

Once the bars have been shaped by the bending device 35, the cutting unit 40 separates the finished product from the drawing unit 29 and allows it to reach the finished product collection station 19 by gravity.

It can be provided that the support structure 14 has an inclination with respect to the vertical so as to provide an inclined plane along which the finished products can slide until they reach the collection station 19.

The processing plant also comprises a command station 45, see fig. 2 and 3, from which the operator can manage all the operations of the processing cycle of the bars. The command station 45 may comprise at least one processor 46 connected to at least the removing device 26, the pulling unit 29 and the bending device 35.

Preferably, the command station 45 is positioned on a platform 47 associated with the processing station 12, so that it is adapted to translate in a bidirectional manner in the transverse direction T together with the processing station 12.

Comparing fig. 2 and 3, it can be seen how in fig. 2 the processing station 12 is positioned in correspondence with the containing means 11c in which the bundle F3 of bars B3 is contained, whereas in fig. 3 the processing station 12 has been translated with respect to the substantially fixed containing means 11a-11F in correspondence with the containing means 11e of the bundle F5 of bars B5 in order to remove at least one bar B5 from the containing means 11 e.

Advantageously, when the processing station 12 continues to process the bar B3, for example by means of the bending device 35, it may also have translated towards the containing device 11e to remove the bar B5, the bar B5 being intended to be subsequently processed, for example during the processing and production of the finished product.

Furthermore, the finished product collection station 19 is substantially independent of the modular warehouse 13 and the processing stations 12, so that it can be translated in the transverse direction T to be positioned in the most suitable way below the processing stations 12 to collect the finished products in the respective containing devices 20.

As can be seen by observing the figures, the processing station 12 can effectively translate in the direction T to be positioned in correspondence with any one of the substantially fixed containment devices 11a-11 f.

The processing plant 10 of the invention thus achieves different advantages with respect to known processing plants or machines, namely the flexibility of a warehouse provided with a plurality of substantially fixed containing devices combined with the various processing modes of the bars, which can be performed by the processing stations, such as cutting the bars to size, bending, shaping, making stirrups, calendering, etc.

Since the containing means 11a-11f are substantially fixed in position, the containing means 11a-11f save space compared to a mobile warehouse, also making the overall structure of the processing plant 10 for bars of the invention simpler.

Since the bar containing means 11a-11f are substantially fixed, it is possible to enlarge or reduce the warehouse by adding or removing one or more containing means 11a-11f as required, without the limitations that arise in known devices and machines, i.e. the modular warehouse must be selected when purchasing the whole plant according to the type of bar used in a given period of time.

Even after its first installation, the modular warehouse 13 can be modified as required, for example to allow the accommodation of bars of a type not previously envisaged in the initial installation step of the warehouse.

This also allows the operation of removing the bars to be optimized, reducing the downtime required for format changes.

For example, if we look at fig. 2 and 3, it can be immediately understood how it may be advantageous to provide further containment devices adjacent to the existing containment devices 11a and 11f to remove one or more of the existing containment devices and possibly replace them with further containment devices.

Furthermore, the apparatus for working bars of the invention allows to arrange bundles of variable length with the same or different diameters, thus allowing to better optimize the production cycle.

Furthermore, since the containing means 11a-11f are substantially fixed during the working of any bar, it is possible to allow the operator to be able to move the bar or the bundle of bars to or from the containing means 11a-11f without risk and without the need to stop the working cycle, as it happens in known mobile warehouses.

Advantageously, the handling space required for moving the processing station 12 with respect to the containment devices 11a-11f is substantially equal to or slightly greater than the total width of all the containment devices 11a-11f, so as to be able to interact with all the containment devices provided, from the first to the last. In the known mobile store, the space required for handling the mobile store is substantially equal to twice the width of the mobile store, which is therefore quite large.

The apparatus 10 for processing bars of the invention also has a much lower overall weight than machines with movable warehouses with bundles, thus allowing a faster movement from one bundle to the other in the channel and a more precise alignment during the removal of the bars.

As already seen, the apparatus 10 for working bars of the invention can also be provided with one or more stations for receiving shaped pieces, which can be self-propelled and synchronized with the movement of the working apparatus and therefore with the working cycle of the bars. The collection station 19 allows the finished products to be organized and unloaded in an optimal manner.

The collection station 19 thus provides a plurality of containing devices in which the finished products are organized, advantageously making it possible to separate them from the processing plant during unloading, even during processing. Thus, even in the receiving station, the finished or shaped product can be handled safely without stopping the processing cycle.

Obviously, modifications and/or additions of parts and/or steps may be made to the apparatus and method for working bars as described heretofore, without departing from the field and scope of the present invention.

It is also clear that, although the present invention has been described with reference to some specific examples, a person of skill in the art shall certainly be able to achieve many other equivalent forms of apparatus and method for machining bars, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

In the following claims, the reference signs placed between parentheses are intended for convenience in reading and should not be construed as limiting the claim: reference signs shall not be construed as limiting the scope of the protection sought in the specific claims.