Straightening device with hyperbolic rolls for metal products and corresponding method

Abstract

Straightening device for long or rod-shaped metal products, comprising an upper roll unit and a lower roll unit, wherein the upper roll unit is mobile and can be positioned vertically at least in the step where a passage gap of said products is set to a desired value, wherein a hydraulic safety/control device is associated with the lower roll unit and comprises a single-effect hydraulic actuator of the selectively yielding type when an overload condition higher than a predetermined value is detected on said lower roll unit.

Claims

1. A straightening device for long or rod-shaped metal products, comprising a bearing structure, a vertically movable lower roll unit within the beating structure, a vertically movable upper roll unit above the lower roll unit and within the bearing structure, a safety and control device configured to detect the overload condition of the lower roll unit, and a hydraulic device under the lower roll unit, comprising a fixed part coupled to the bearing structure, a mobile part having a support, wherein the support is coupled to the lower roll unit, a fixed striker plate disposed between the fixed part and the lower roll unit, and a chamber flexibly formed by an upper face of the fixed part and a bottom face of the mobile part and capable of being selectively filled and emptied, wherein the fixed part and the striker plate define a cavity at an outside of the mobile part, the mobile part includes an abutment tooth disposed outside the chamber, wherein the abutment tooth is vertically moveable within the cavity to contact the striker plate to limit the maximum raised position of the chamber during filling and to stabilize the lower roll unit at its maximum raised operating position during normal operation of the straightening device, wherein the hydraulic device is a single-effect hydraulic actuator that is functionally associated with the safety and control device, wherein the lower roll unit is only vertically movable by the hydraulic device.

2. The straightening device of claim 1, wherein the safety and control device comprises detection means to detect position and pressure.

3. The straightening device of claim 2, wherein the detection means are configured to generate a signal to activate the hydraulic device in order to determine the lowering of the lower roll unit.

4. The straightening device of claim 1, wherein the hydraulic device further comprises a conduit connecting to the chamber, wherein the conduit is configured to feed and discharge the hydraulic fluid.

5. The straightening device of claim 4, wherein the hydraulic device further comprises valve means on the conduit, the valve means are functionally associated with the detection means so as to determine selective discharge of the hydraulic fluid from the chamber at the moment in which the detection means detects an overload condition on the lower roll unit.

6. The straightening device of claim 1, wherein a diameter of the hydraulic device is less than the length of the lower roll unit.

7. The straightening device of claim 6, wherein the diameter of the hydraulic device is about half of the length of the lower roll unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) These and other characteristics of the present invention will become apparent from the following description of a preferential form of embodiment, given as a non-restrictive example with reference to the attached drawings wherein:

(2) FIG. 1 shows a front view of a first form of embodiment of the straightening device according to the present invention;

(3) FIGS. 2a, 2b, 2c show an operating sequence of the functioning of the device in FIG. 1;

(4) FIG. 3 shows a second form of embodiment of the straightening device according to the present invention;

(5) FIGS. 4a, 4b, 4c show an operating sequence of the functioning of the device in FIG. 3.

(6) To facilitate comprehension, the same reference numbers have been used, where possible, to identify identical common elements in the drawings. It is understood that elements and characteristics of one form of embodiment can conveniently be incorporated into other forms of embodiment without further clarifications.

DETAILED DESCRIPTION OF SOME PREFERENTIAL FORMS OF EMBODIMENT

(7) A straightening device 10, 110 according to the present invention is shown in two forms of embodiment respectively in FIGS. 1 and 3.

(8) The device 10, 110 comprises a bearing structure 11 to which an upper roll unit 12, having an upper roll 13 with a concave hyperbolic shape and a corresponding chock 113, and a lower roll unit 14 having a lower roll 15 of a convex hyperbolic shape and a corresponding chock 115 are connected. The roll units 12, 14 are disposed in an opposite position and define an intermediate space, or gap 17 with an adjustable value in which a long metal product 18 is made to transit, on which the definitive sizes which fall within required tolerances have to be conferred.

(9) The upper roll unit 12, with the corresponding upper roll 13, is moved vertically, in the initial setting step, in both directions. The movement of the upper roll unit 12 can be carried out manually or automatically, preferably using a mechanical system, for example, with screws, cams, gears or other suitable means, which is not important for the purposes of the present invention.

(10) Electric, hydrodynamic, mixed or other type systems can also be used.

(11) The initial setting step of the nominal passage gap 17 of the product 18 is therefore carried out, moving the upper roll unit 12 with respect to the lower roll unit 14, kept in a maximum raised position, as will be explained in more detail heretofore.

(12) The lower roll unit 14 is associated to a hydraulic actuator unit which, in the form of embodiment shown in FIG. 1, is indicated in its entirety by the reference number 19.

(13) The hydraulic actuator unit 19 comprises a mobile part, or piston unit, generally indicated by the number 27, associated to the lower roll unit 14, and a fixed part, anchored to the bearing structure 11 or other fixed part, for example the base. The two parts are separated by a hydraulic chamber 26 which can be selectively filled with/emptied of hydraulic fluid fed by means of a conduit 30 along which a valve 36 is disposed, which can be activated as explained hereafter.

(14) The mobile part 27 comprises, as its main components, a support 20 directly anchored to the lower roll unit 14, an intermediate sleeve 22 with a lower face directly in contact with the upper face of the chamber 26, a first metal tube 23 which contains said intermediate sleeve 22 and a second metal tube 24 inside the first metal tube 23.

(15) The fixed part comprises a third support metal tube 29 and an upper covering plate 28, made of a material suitable to be in contact with oil, the upper face of which is directly in contact with the lower face of the chamber 26. The oil is introduced at high pressure through the hydraulic conduit 30 into the chamber 26, so as to progressively fill it, overcoming the force of the weight of the lower roll unit 14 and moving it upward.

(16) The upward movement of the upper roll unit 14 occurs progressively from a lowered position (FIG. 2a) to a maximum upward travel position (FIG. 2b), defined mechanically by the abutment between a tooth 33 protruding toward the outside of the first metal tube 23 and a fixed striker plate 41 defined above a cavity 34 into which the tooth 33 can move vertically. Having reached this position, the lower roll 15 is in its nominal operating position (FIG. 2b), with respect to which the adjustable position of the upper roll 13 defines gap value 17 set for the selected long product 18 to be worked.

(17) In these conditions, the pressure of the oil inside the chamber 26 is about 100 bar, being able to reach a maximum value of about 130 bar.

(18) In the case shown in FIG. 1, there is a pressure switch 35 on the delivery conduit 30, while there is a position detector 37 associated to the first metal tube 23.

(19) During the normal functioning of the straightening device 10, the pressure switch 35 and the position detector 37 respectively detect the pressure of the hydraulic fluid in the chamber 26 and the position of the lower roll unit 14 with respect to the nominal position set.

(20) If these values diverge from the pre-established tolerances with respect to the nominal values, that is, if the oil pressure exceeds a pre-established threshold, or the position of the lower roll unit 14 diverges excessively with respect to a defined tolerance, as a consequence of the passage of a product 18 with sizes outside tolerance levels, or are too oval, the pressure switch 35 and/or the position detector 37 send a command to open the valve 36.

(21) When the valve 36 is opened, the oil is discharged from the chamber 26 through the same delivery conduit 30, and evacuated through a discharge line 48.

(22) In this way, the pressure exerted by the product 18 being worked, together with the weight of the lower roll unit 14, determines the lowering of the entire lower roll unit 14, thus safeguarding the integrity of the machine.

(23) The diameter of the hydraulic chamber 26 is less than the width of the straightening rolls 13 and 15 (between 0.45 and 0.75 times such width), in such a way that the quantity of oil to be discharged is rather low, so that the response times of the safety device thus made are advantageously low, keeping the pressure of the chamber within the established range.

(24) The mobile part of the system, made up of support 20, sleeve 22, first metal tube 23 and second metal tube 24, is guided by the third metal support pipe 29 and by a containing element 39 solid to the structure 11, in this way guaranteeing stability and rigidness of the system.

(25) The presence of the chamber 26 directly under the sleeve 22, and therefore under the lower roll 15, allows easy access from above for maintenance or interventions, also using the same mechanical system for moving the upper roll 13. Thanks to this, the use of a crane or other movement members can be avoided, at the same time guaranteeing greater safety, practicality and speed in operations to replace parts or in maintenance. Moreover, since access to the chamber 26 is from above, the present invention allows to avoid the construction of a pit, or other civil works, under the device, and also guarantees that the maintenance operations and replacement of parts can take place in safe, well-lit and comfortable conditions for the operators.

(26) In the alternative form of embodiment shown in FIG. 3, in which the same reference numbers are used for equal or equivalent elements, the hydraulic actuator unit 119 comprises a mobile part consisting of the support 20 solid to the lower roll unit 14, and of a piston unit 127. The piston unit 127 in turn consists of a first metal tube 123 fixed at the lower part to a flange 38 and at the upper part to said support 20.

(27) The fixed part of the hydraulic unit 119 instead consists of the containing element 39, solid to the structure 11, the lateral walls of which, in the contact zones indicated by the number 42, act as a guide for the first metal tube 123 of the piston unit 127, and of a lower flange 40, which makes up the bottom of the hydraulic unit 119 and is solid to said containing element 39.

(28) A chamber 126 is created between the flange 38 (that is, the bottom of the mobile part of the hydraulic unit 119) and the flange 40 (that is, the bottom of the fixed part of the hydraulic unit 119), said chamber 126 being hydraulically connected to the oil delivery conduit 30 through a passage made in the lower flange 40. In particular, the upper face of the chamber 126 is directly in contact with the lower face of the flange 38, while the lower face of the chamber 126 is directly in contact with an upper face of the flange 40.

(29) Similarly to what we saw before, an oil delivery system can introduce oil into the chamber 126, subject to the opening of the valve, in order to progressively raise the lower roll unit 14 (FIG. 4a), until the chamber 126 is completely full, taking the lower roll unit 14 to its stable, maximum raised operating position (FIG. 4b), defined by the mechanical abutment of the tooth 33 which slides into the cavity 34.

(30) The position of the upper roll unit 13 with respect to the lower roll unit 14 can be adjusted mechanically, as already seen, to define the value of the nominal passage gap for the product 18 being worked.

(31) In this case too, a pressure switch 35 and a position detector 37 are provided to respectively detect the pressure of the oil in the chamber 126 and the position of the lower roll unit 14 during working.

(32) When the pressure switch 35 and/or the position detector 37 detect a variation in pressure or position which exceeds an allowed tolerance value, the valve 36 is opened to discharge the oil toward the discharge line 48.

(33) The discharging of the oil determines an immediate lowering of the lower roll unit, due both to its own weight and also to the pressure which the product 18 being worked exerts on it, thus safeguarding the structural integrity of the machine.

(34) From the description of the two forms of embodiment of the present invention, it can be seen that the invention allows to obtain a plurality of advantages in terms of operative, constructive and functioning simplicity.

(35) The use of a single-effect actuator rather than a double-effect one makes the whole structure simpler and the response more rapid in the case of overloads.

(36) Using the weight of the roll itself to obtain the lowering thereof facilitates operations and reduces the force needed to move it.

(37) The entire hydraulic circuit is reduced to a single delivery conduit and a valve which can be selectively opened and closed.

(38) The upper roll is moved and adjusted mechanically only during the initial setting step, then it is no longer involved in the activation of the safety/control device.

(39) Finally, the maintenance operations on the hydraulic unit 19, 119 are also easier, given that the hydraulic bearing is at a man's height, therefore easily reached, and not situated at an even greater height with respect to the upper roll unit 12. In particular, in the case of the hydraulic unit 19, it is possible to act from above after having removed only the lower roll unit 14 and having used the mechanical adjustment system of the upper roll unit 12 to remove the support 20 and the sleeve 22.

(40) It is clear that modifications and/or additions of parts may be made to the straightening device 10, 110 as described heretofore, without departing from the field and scope of the present invention.