The present invention relates to a machine to bend pipes and the like, equipped with at least one bending die working table more than the machines used to bend pipes and the like known so far.
In the machines used to bend pipes and the like, the calendaring operation is carried out on a table of the bending die specifically dedicated to this purpose. In the machines used to bend pipes and the like known so far, the calendering table is positioned alternatively as a first working table or as a last working table of the machine. A drawback in the calendering operation performed in the machines used to bend pipes and the like known so far consists in that it limits the possibility of working the pipe or the like while it is wound.
The present invention advantageously solves the drawbacks of the machines used to bend pipes and the like currently known, by adding at least one working table of the machine's bending die. This advantage is obtained by means of a machine to bend pipes and the like comprising a bed equipped, at one end, with a plate capable of moving along the X-axis parallel to the table on which the bed is located. The bending head of the machine used to bend pipes and the like is connected to this plate in such a way as to be able to move along the Z-axis orthogonal to the table on which said bed is located. Said bending head is provided with at least one bending arm, at least one bending die, at least one calendering jig, and means to feed the pipe to be worked. The calendering jig is located before the bending die, as referred the feeding direction of the pipe to be worked toward the bending die which is exerted to said pipe by the feeding means of the bending head.
Said calendering jig comprises at least one pair of first rolls and at least one second roll. In a preferred embodiment of this invention, the pair of first rolls used to lock the pipe to be worked are opposed to each other and lie on the end of the bed next to the bending die, whereas the second roll is anchored to the mentioned plate, preferably anchored to the upper portion of said plate. Said second roll determines the calendering radius of the pipe in any embodiments.
The calendering jig also comprises at least one device suitable for supporting the pipe to be worked and also suitable for generating and controlling the winding pitch of said pipe, said device being anchored to the bending head.
The procedure to calender the pipe to be worked in a machine to bend pipes and the like according to the present invention comprises the following steps:
In said fourth step, the second roll preferably modifies its own position, by varying the calendering radius of the pipe and, even more preferably, the pipe undergoes a further rotation according to the operating process set by the operator.
The procedure for calendering the pipe according to the present invention comprises a further fifth step, in which the pipe supporting device, anchored to the bending head, is made move along the Z-axis so as to support, generate and control the pipe's winding pitch.
Number | Date | Country | Kind |
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MI2013A1272 | Jul 2013 | IT | national |
Number | Name | Date | Kind |
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4391116 | Yogo | Jul 1983 | A |
7134310 | Hu | Nov 2006 | B2 |
8359896 | Wolf | Jan 2013 | B2 |
Number | Date | Country | |
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20150027193 A1 | Jan 2015 | US |