• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Machine and method for cold semi-continuous bending of profiles (3) of low ductility of the type comprising a horizontal bench (1) and an interchangeable tool (4) against which said profile bending (3) is generated. The machine consists of a support gantry (10). Said tool (4) is located in an area delimited by the bed (1), vertical supports (5) of the tool (4) and a compression plate (7) driven by vertical pressing cylinders. The tool (4) is located opposite an action plane defined by a double set of hydraulic positioning cylinders (23) and pusher (20). Said curved profiles (3) can be used for tents, skylights, faºade profiling, sun protection blades or tricarrile bodies for truck tarpaulins, guaranteeing the uniformity of the curve in all the curved profiles, without the profile being keyed in the machine during its curving. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2555703A1
    申请号:ES201430817
    申请日:2014-05-29
    公开日:2016-01-07
    发明作者:Ana PEREZ GONZALEZ
    申请人:Inmotec Asesoria Tecnica Sl;
    IPC主号:
    专利说明:

    MACHINE AND METHOD FOR SEMI-CONTINUOUS CURVED IN COLD OF LOW DUCTILITY PROFILES


    OBJECT OF THE INVENTION 5

    The present invention is in the field of machine technique and methods for semi-continuous cold bending of profiles of low elastic limit materials such as aluminum manufactured by extrusion. Specifically, for profiles 10 of any length, type, cross-sectional area and curved.


    BACKGROUND OF THE INVENTION 15

    Roller or cylinder bending machines are known in the state of the art, where a curve is generated on the profile of aluminum or other matter by means of three rollers located in the same plane. Thus, two two rollers are placed on one side of the profile and the third roller on the opposite side of the profile. This last roller, the bending or deformation roller, is the one that exerts the transverse effort on the profile (that is, the effort in the direction of the radius of the desired curve) to achieve its deformation or bending; Meanwhile, the other two rollers serve as support and act as traction cylinders. With these machines, the profile is submitted on the deformation roller in its length to be curved, thus generating a progressive deformation (as the progress of the deformation roller grows) until the desired curve in the profile is reached. This type of roller bending machine has a limited use for bending of aluminum profiles of small section or steel profiles of small or large section because the roller support on the profile is made only on one line (contact line ). This means that, in order to avoid deformation by "nailing" the roller on the profile, the material to be curved has, or that it is subjected to very little effort to overcome its elastic limit and achieve a deformation as is the case of the profiles of aluminum in profiles of low section, or if not, that it has to be a material with a high resistance to deformation, as is the case of steel profiles, which although it needs more effort to generate a permanent deformation its high resistance avoid the nailing of the rollers in the profile.

    Also known in the state of the art are the machines 15 curved by cintrado, where the curve is executed in the profile simultaneously exerting two efforts: one perpendicular to the length of the profile against a tool that generates the curve, and another in the sense longitudinally so that a deformation effort 20 necessary to generate a permanent deformation in the profile can be achieved between them. This type of machines are used for open profiles and of short length since they are limited in that the size of the tool that exerts the deformation must be equal to the size of the curve to be performed, not allowing, therefore, a curved semi-continuous type Therefore, they are not valid machines for closed cross-section profiles, since when performing on said type of closed profile the two forces necessary for the process, the inner hollow of the profile would be closed. 30

    Also known in the state of the art is the bending machine for tubes, round bars and other elongated materials described in US Pat. No. 5,862,698, which is provided with a positioning template with a passage hole of a profile towards a template of curved or folded. The folding template is attached to a pivotable element by the action of a hydraulic cylinder. This machine guides the profile 5 to be curved with nothing to support the curved profile, which will result in non-flat curves (i.e., twisted) due to the tensions that will be generated in the bending process.

    Likewise, US2008184758 describes a machine for the flexion of acute angle profiles thanks to the performance of a rotating roller, driven by a hydraulic roller, on the profile, which in turn rests against a cylindrical die that allows a sharp angle curve by successive profile curves. This type of machine is known by the tube curvature companies of the naval, petrochemical industry, and in a smaller version, for domestic pipes, copper, water installations and home heating. Being a cylinder that rests on the line on the profile to be curved (contact line) by increasing the effort 20 on the profile to be curved, there is a risk that the profile will be "keyed".


    DESCRIPTION OF THE INVENTION 25

    The machine and method object of the present invention overcomes the disadvantages of the state of the art indicated above in a simple and effective manner.
     30
    It is a machine that allows different types of combinations of cold bending of aluminum profiles, normally manufactured by extrusion: semi-continuous curving, single radius bending, curved with different radii in different sections of the profile, or variable radius bending . All in aluminum profiles of any length, open or closed type, with cross sections inscribed 5 in a rectangle normally of dimensions up to 450 x 450 mm, or equivalent, and of different lengths in a single piece between 0.25 meters up to 30 meters.

    The curved profiles can be structural for tents, 10 skylights, etc. or facade profiles, including curtain walls, as well as for solar protection slats, tricarrile bodies for canvas trucks, etc. guaranteeing the homogeneity of the curve in all curved parts, without that the profile is stuck in the machine during its bending or its cross section is closed in the case of closed cross section profiles.

    The machine object of the present invention consists of:
     twenty
    - A horizontal bench.

    - At least one support gantry on the bench and perpendicular to it, with at least two feet supporting a raised horizontal beam on the bench. 25

    - A tool (4) on which the curve is generated on the profile to be curved that is interchangeable, existing in various sizes / dimensions.
     30
    - At least one vertical support of said tool located on the bench, which can coincide with said foot of the porch.

    - A double set of hydraulic cylinders, each set located on each side of the central axis of the machine (X) and in a plane located on the bench, parallel to it and facing / acting on said tool; and composed of: a hydraulic pusher cylinder connected through a sliding mobile point 5 through a guide to a hydraulic positioning cylinder joined, at its other end, to a structural vertical element by a fixed pivotal bearing point. Said guide is fixed on the bench. The hydraulic pusher cylinder may be supported by a secondary guide. The free end of the pusher cylinder supports a pusher plate.

    - Each of these pusher cylinders (20) is equipped with a transducer. fifteen

    - Press cylinders perpendicular to the bench supported by the beams of the support gantry and holding a compression plate parallel to the bench for compensation of efforts made in the profile to bend. Said 20 pressing cylinders incorporate position, load, etc. measurement sensors to provide information on the working parameters.

    - A single hydraulic pump driving all cylinders 25 (pushers, positioners and presses) through valves associated with each cylinder. Alternatively, several hydraulic pumps can be installed, each associated with each cylinder or type of cylinder.
     30
    - Indicators of different types (position, mechanical load of the cylinders, etc.) associated to the sensors and transducers of the cylinders, and that allow to visualize on a screen (for example, that of the control computer) the operating parameters and control of the bending process

    Thus, the machine has a rectangular hollow of variable height, which is where the tool and the profile to bend are located. 5 The lateral section of this hole has a variable height delimited by the compression plate and a width delimited by the feet of the porch.

    The actuation plane of the positioner and 10 pusher cylinders, parallel to the bench, is preferably located at half the height of the tool. Therefore, it is desirable that the guide and the swivel fixed support can be height adjustable.
     fifteen
    Therefore, the machine object of the present invention provides a series of improvements described below:

    When curving a low ductility profile on the tool chosen from those of suitable length and shape to said profile (that is, depending on the desired curve length, for example a standard length of 2,000 mm), the contact The initial profile of the tool is a line (a contact line between the curved surface of the tool and the straight surface of the profile), but nevertheless, when a minimum deformation is carried out on the profile, said contact line becomes a contact surface equivalent to the contact line length multiplied by the deformation length produced in the profile. Therefore, this contact surface increases as the deformed zone increases and causes the increasing load on the profile to cause it to pass from elastic to plastic deformation and, thus, the load is distributed over a larger surface of the profile without causing deformation. of his section.

    The operation of the machine object of the present invention can be repeated semi-continuously on the profile to be curved 5 obtaining curves of the desired length, with start and end points on the straight profile limited in its smaller separation only by the length of the curving tool. As the tool can be replaced by tools of greater or lesser size, they can also be obtained: curves of different radius 10 on the same profile, curves in different directions by changing the orientation of the profile, variable radius curves, etc. In short, any curve that is defined on the tool to conform.
     fifteen
    As for the quality of the products obtained (that is, the curved profiles), the dimensional stability of the curves obtained will be influenced by the homogeneity of the mechanical characteristics of the profiles to be curved.
     twenty

    BRIEF DESCRIPTION OF THE DRAWINGS

    - Figure 1: View of the upper floor of the machine and several positions (initial Y, Y ', intermediate W, W' and final 25 Z, Z ') of operation of the profile and set of cylinders on the left side (not represented the set of cylinders on the right side of the machine).

    - Figure 2: Side view of the machine. 30


    DESCRIPTION OF A PREFERRED EMBODIMENT

    In figure 1 it is observed that the pusher cylinder (20), located to the left of the central axis of the machine (X) of the machine in a horizontal position on the bench (1), joins the positioner cylinder (23) to through a mobile support point (21) that travels along the guide (22). The other end, free end, of the pusher cylinder (20) supports a pusher plate (26) that rests against the profile (3) to exert a thrust perpendicular to the profile by the pusher cylinder (20), which is actuated by a hydraulic pump and after having positioned the mobile support point (21) at the appropriate point of the guide (22) by actuating the positioning cylinder (23).
     fifteen
    Regarding the positioning cylinder (23), it is placed horizontally on the bench (1) and is attached to a structural element fixed to the bench through a fixed pivotal support point (24) on the central axis (X ) of the bench. Each of these pusher cylinders (20) is equipped with a transducer that reflects on the screen the position of the moving point (21) on the guide (22). The cylinders (20, 23) on both sides of the central axis (X) are driven by the same hydraulic pump (not shown), which drives the appropriate cylinder at any time by means of a system of valves associated with each cylinder. The hydraulic pusher cylinder (20) is supported by a secondary guide (25) fixed to the bed (1).

    Figure 2 shows the hydraulic pressing cylinders 30 (6) located and acting in the vertical plane of the bed (1). The upper end of each of these cylinders is fixed and is anchored in a beam (12) supported by two feet (12) of the support gantry (10), holding at the bottom a compression plate (7) parallel to the bench (1) for compensation of efforts. As can be seen in figure 2, the compression plate (7) above the profile (3), and the bed (1) below the profile (3), hold said tool (4) 5 and profile (3) to bend in the working position, and compensate the lateral deformation stresses to which the profile (3) is subjected to be curved. These pressing cylinders (6) include sensors for measuring position, load, etc. to transmit this information related to the parameters of work to a computer and / or display / control screen.

    Therefore, as observed in both figures, on the bench (1) of the machine, and on the plane of action formed by the pusher cylinders (20) and positioners (23), and within 15 of the area of action of the compression plate (7), is the positioning area of the tool (4) on which the curve in the profile (3) will be generated. The tool (4) is pressed against the vertical supports (5) made with double “T” beams with a height at least equal to that of the tool. Thus, on the bench 20 (1), in the area defined above, the tool (4) and the profile (3) to bend are placed, with said profile (3) supported by the tool (4) by the face corresponding to the inside the curve and its length in the longitudinal direction of the tool (4). 25

    Then (see figure 2), the presser cylinders (6) that lower the compression plate (7) for holding the tool (4) in position are operated by means of a hydraulic pump (not shown). and 30 fastening of the profile (3).

    Subsequently (see figure 1) this profile (3) is curved by means of the positioning cylinders (23) and pushers (20). Thus, initially, the positioning cylinder (23) is driven by a hydraulic pump so that it moves the rear part (moving point (21)) of the positioning cylinder (20) 5 to the Y point (initial position) of the guide (22 ), at that time, the pusher cylinder (20) is operated until the pusher plate (26) contacts the profile (3) (initial state Y '). At that time, the pusher cylinder (20) is perpendicular to the profile. The pressing cylinders (6) 10 and the compression plate (7) also serve to compensate for the transverse stresses to which the profile (3) would be subjected. Therefore, it is important, as seen in Figure 2, that the height of the tool (4) and the profile (3) be the same. Next, the positioning cylinder 15 advances until the movable point (21) is moved to the intermediate point W of the guide (22). Now the pusher cylinder would advance to bend the profile to the W ’position. This process is repeated repeatedly until the mobile point reaches the end point Z from which the profile can be taken to the desired curvature (final state Z ’).

    The movement of the rear part (moving point (21)) of the pusher cylinders (20) is intended for the pusher cylinder (20) to always act perpendicularly to the profile (3) 25 during its bending. Alternatively, this process can also be automated and done continuously with the help of additional hydraulic pumps.

    Therefore, as shown in Figure 1, the profile (3) is pressed against the tool (4) by the pusher plates (26) on each side of the central axis of the machine. The pusher cylinders (20), thanks to the guide (22), remain at all times perpendicular to the area of the profile (3) where it acts, until the profile (3) in its deformation reaches the previously defined point (Z ' ) or selected to generate the desired curve.
     5
    In the event that the requested curve length is greater than the curve length generated by the tool (4), the profile (3) is released and then the profile (3) is moved longitudinally to generate a new section curved as described above. In this way, 10 curved lengths are added in a semi-continuous process until the desired curve length is reached.
    权利要求:
    Claims (6)
    [1]

    1. Machine for semi-continuous cold bending of profiles (3) of low ductility, of the type comprising a horizontal bench 5 (1) and an interchangeable tool (4) against which said profile bending (3) is generated, characterized by also understanding:
    - at least one support gantry (10) on the bed (1) and 10 perpendicular thereto, said support gantry (10) comprising at least two vertical feet (11) supporting a horizontal beam (12),
    - at least one vertical support (5) of said tool (4) 15 located on the bench (1),
    - a double set of hydraulic cylinders (20,21) in a plane located on the bench (1) and parallel to it, each set located on one side of the central axis 20 of the machine (X), and each set comprising: a hydraulic pusher cylinder (20) attached at one end to a pusher plate (26) and at the other end joined, through a sliding mobile point (21) along a guide (22), to a hydraulic cylinder of 25 positioning (23); said hydraulic positioning cylinder (23) fixed through a fixed rotating support point (24) to a structural element fixed to the bed (1),
     30
    - at least one pressing cylinder (6) perpendicular to the bed (1), said pressing cylinder (6) with its upper end fixed and anchored to one of said beams (12) and its lower end supporting a compression plate (7) , Y
    - at least one hydraulic actuator pump of said 5 cylinders (20,22,6) through valves associated with each cylinder,
    and because said tool (4) is located in an area delimited by the bench (1), the vertical supports (5) and the compression plate (7), and in front of an action plane defined by the double set of hydraulic positioning cylinders (23) and pusher (20).

    [2]
    2. Machine for semi-continuous cold bending of profiles (3) 15 of low ductility, according to the preceding claim, characterized in that each pusher cylinder (20) is supported by a secondary guide (25).

    [3]
    3. Machine for semi-continuous cold bending of profiles (3) 20 of low ductility, according to any of the preceding claims, characterized in that said pusher cylinders (20) comprise a transducer, and said pressing cylinders (6) comprise a sensor of measurements of position and mechanical load. 25

    [4]
    4. Machine for semi-continuous cold bending of profiles (3) of low ductility, according to any of the preceding claims, characterized in that at least one of the feet (11) is constituted as vertical support (5). 30

    [5]
    5. Method for semi-continuous cold bending of profiles (3) of low ductility using the machine of any of
    The preceding claims characterized by comprising the following steps:
    - choose a profile (3) and the tool (4) of suitable dimensions for said profile and the type of curve to be made, 5

    - place the tool (4) on the bench (1) and against said vertical supports (5),
    - position the profile (3) on the bed (1) and against said tool (4) on the face corresponding to the inside of the curve and with its length in the longitudinal direction of the tool (4),
    - hold said tool and profile (3) vertically with the pusher plate (26) by actuating said hydraulic pressing cylinders (6) by means of a hydraulic pump,
    - operate the positioning cylinder (23) by moving the 20 moving point (21) to an initial point (Y) of the guide (22),
    - drive the pusher cylinder (20) until the pusher plate (26) contacts the profile (3), keeping the pusher cylinder (20) perpendicular to the profile (3),
    - actuate the pressing cylinders (6) to compensate for the transverse forces to which profile 30 (3) is subjected,
    - actuate the positioning cylinder (23) advancing the moving point (21) to an intermediate point (W) of the guide (22), and
    - drive the pusher cylinder until the profile is curved to an intermediate position (W ’).

    [6]
    6. Method according to the preceding claim characterized by further comprising the following steps:
     10
    - disconnect the positioning cylinders (23), pushers (20) and presses (6),
    - release the profile (3),
     fifteen
    - move the profile (3) in its longitudinal direction, and
    - position the profile (3) against said tool for bending in this new fixing position.
     twenty
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB785740A|1955-11-30|1957-11-06|Fairchild Engine & Airplane|Improvements relating to the forming of ductile parts|
    DE1137923B|1957-01-08|1962-10-11|Andre Huet|Bending device|
    US4782686A|1987-06-01|1988-11-08|Carson Jr Edward C|Tube bender for greenhouse structural supports|
    FI951826A0|1995-04-13|1995-04-13|Kvaerner Masa Yards Oy|Boejningsanordning Foer aluminum profile|
    CA2245996C|1998-08-26|2000-05-09|Kevin James Russell|Pipe bending machine|
    EP2697000B1|2011-04-12|2016-02-24|Primetals Technologies, Limited|Roll stripper device and method|CN105921565A|2016-07-14|2016-09-07|沈阳飞研航空设备有限公司|Lower mould mechanism for ultra-large intelligent vertical hydraulic cold bending machine|
    TWI643770B|2018-07-31|2018-12-11|捷將科技有限公司|Automobile floor mat automatic folding device, automobile floor mat automatic folding component and automobile floor mat automatic folding method|
    CN110170594B|2019-06-12|2020-08-11|湖北骏安骐建筑有限公司|Bending device is used in construction steel bar processing|
    US11213873B2|2019-06-21|2022-01-04|Fci Holdings Delaware, Inc.|Mine bolt bending system|
    法律状态:
    2016-12-14| FG2A| Definitive protection|Ref document number: 2555703 Country of ref document: ES Kind code of ref document: B1 Effective date: 20161214 |
    2018-05-25| GD2A| Contractual licences|Effective date: 20180525 |
    2020-02-10| PC2A| Transfer of patent|Owner name: INNOVACIONES TECNICAS MOTEC S.L. Effective date: 20200204 |
    优先权:
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    ES201430817A|ES2555703B1|2014-05-29|2014-05-29|MACHINE AND METHOD FOR SEMI-CONTINUOUS CURVED IN COLD OF LOW DUCTILITY PROFILES|ES201430817A| ES2555703B1|2014-05-29|2014-05-29|MACHINE AND METHOD FOR SEMI-CONTINUOUS CURVED IN COLD OF LOW DUCTILITY PROFILES|
    US15/314,435| US10160019B2|2014-05-29|2015-05-22|Machine and method for the semi-continuous cold-bending of sections with low ductility|
    EP15800426.7A| EP3150295B1|2014-05-29|2015-05-22|Machine and method for the semi-continuous cold-bending of sections with low ductility|
    CA2950511A| CA2950511A1|2014-05-29|2015-05-22|Machine and method for cold semi-continuous bending of low ductility profiles|
    DK15800426T| DK3150295T3|2014-05-29|2015-05-22|MACHINE AND METHOD FOR SEMI-CONNECTING COLD BENDING OF LOW EASILY PARTS|
    PT158004267T| PT3150295T|2014-05-29|2015-05-22|Machine and method for the semi-continuous cold-bending of sections with low ductility|
    PL15800426T| PL3150295T3|2014-05-29|2015-05-22|Machine and method for the semi-continuous cold-bending of sections with low ductility|
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    MX2016015370A| MX2016015370A|2014-05-29|2015-05-22|Machine and method for the semi-continuous cold-bending of sections with low ductility.|
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