Compacting machine, positioning device and positioning method

Abstract

A compacting machine for compaction a fabric including a feed roller, a retarding roller and a blade element configured to introduce the fabric to be treated between the feed roller and the retarding roller. The compacting machine also comprises a positioning device provided with at least one drive member configured to move one of the rollers with respect to the other of the rollers.

Claims

1. A compacting machine for compacting a fabric, comprising a feed roller, a retarding roller and a blade element configured to introduce said fabric to be treated between said feed roller and said retarding roller, wherein said compacting machine further comprises a positioning device provided with at least one drive member configured to move one of said rollers with respect to the other of said rollers, said positioning device also comprising an abutment member integral with one of the rollers, and a stop member positionable to cooperate with said abutment member so as to mechanically limit movement of one roller so that a desired distance other than zero is defined between one roller and the other roller, wherein said stop member is provided with a stop portion cooperating with an end-of-travel portion provided on said abutment member, wherein when said end-of-travel portion is in contact with said stop portion one of the rollers is at a minimum distance from the other of the rollers, wherein said end-of-travel portion is provided on a free end of said abutment member.

2. The machine as in claim 1, wherein said positioning device comprises two abutment members and two stop members, each disposed in correspondence with one end of one of said rollers, so as to guarantee that one of the rollers is positioned perfectly parallel to the other of said rollers.

3. The machine as in claim 1, wherein said stop member comprises means for moving said stop portion at least from a safety height, correlated to said minimum distance, to an operative height in order to set between said feed roller and said retarding roller an operative distance that is greater than said minimum distance.

4. The machine as in claim 1, wherein said stop member is a motorized centesimal feeler.

5. The machine as in claim 1, wherein said abutment member is a lever rotatable with respect to a pin, comprising a first arm and a second arm, integral with each other, said first arm being connected in an integrated manner to one of said rollers and said second arm being connected to said drive member.

6. The machine as in claim 1, further comprising a control and command unit functionally connected to said positioning device and provided with a user interface by means of which an operator can select a desired operative distance between said feed roller and said retarding roller, said control and command unit being configured to regulate said stop member so as to position said stop portion at an operative height correlated to said operative distance selected.

7. A positioning device for a compacting machine for fabrics provided with a feed roller and a retarding roller, said positioning device comprising a drive member configured to move one of said rollers with respect to the other of said rollers, wherein said positioning device also comprises an abutment member integral with one of the rollers, and a stop member positionable to cooperate with said abutment member so as to mechanically limit the movement of one roller so that a desired distance other than zero is defined between one roller and the other, wherein said stop member is provided with a stop portion cooperating with an end-of-travel portion provided on said abutment member, wherein when said end-of-travel portion is in contact with said stop portion one of the rollers is at a minimum distance from the other of the rollers, wherein said end-of-travel portion is provided on a free end of said abutment member.

8. A method to position a retarding roller with respect to a feed roller in a compacting machine for fabrics, comprising moving one of said rollers at least between a non-operative open condition in which one of said rollers is distant from the other of said rollers, and an operative condition in which one of said rollers is positioned close to the other of said rollers by means of a positioning device comprising a drive member, said positioning device also comprising an abutment member integral with one of said rollers, wherein said method further comprises an initial setting step including setting a minimum distance other than zero between said retarding roller and said feed roller, positioning a stop portion of a stop member of said positioning device at a defined height correlated to said minimum distance and wherein, in order to move one of said rollers from said non-operative open condition to said operative condition, said method includes driving said drive member to move one of said rollers until an end-of-travel portion provided on a free end of said abutment member interacts with said stop portion of said stop member.

9. The method as in claim 8, further comprising regulating an operative condition of one of said rollers with respect to the other roller, wherein said regulating step comprises the selection of an operative distance between said feed roller and said retarding roller, greater than or at least equal to said minimum distance, and the corresponding regulation of said stop member, wherein a stop portion of said stop member is positioned, with respect to said safety height set, at an operative height correlated to said operative distance selected.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

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

(2) FIG. 1 is a schematic lateral view of a positioning device applied to a retarding roller of a compacting machine in a closed operative condition during the treatment of a fabric with a first thickness;

(3) FIG. 2 is a schematic lateral view of a positioning device applied to a retarding roller of a compacting machine in a closed operative condition during the treatment of a fabric with a second thickness;

(4) FIG. 3 is a schematic lateral view of a positioning device applied to a retarding roller of a compacting machine in a non-operative open condition.

(5) 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 embodiment can conveniently be incorporated into other embodiments without further clarifications.

DETAILED DESCRIPTION OF SOME EMBODIMENTS

(6) Embodiments described here concern a compacting machine 10 suitable to perform a mechanical compaction on a fabric 11.

(7) The compacting machine 10 comprises, in a known manner, a feed roller 12, also called a drawing or rough roller, a retarding roller 14, also called a rubberized roller, and a shaped blade element 13 configured to introduce the fabric 11 between the two rollers 12, 14.

(8) According to some embodiments, movement means 15 can be provided, configured to move the shaped blade element 13 toward/away from the feed roller 12.

(9) The feed roller 12 is coated in gripping material to facilitate gripping on the fabric 11 that is wound upon it, while the retarding roller 14, which rotates at a lower speed than the feed roller 12, is coated in rubber or similar material, so as to brake the fabric 11 and compact it thanks to the difference in speed between the two rollers 12 and 14.

(10) The retarding roller 14 generally rotates at about half the speed of rotation of the feed roller 12.

(11) The retarding roller 14 is mobile away from/toward the feed roller 12 in the directions indicated by the arrows F1, F2 between a non-operative open condition (FIG. 3), where it is distant from the feed roller 12, and an operative condition in which it is adjacent to it (FIG. 1 and FIG. 2).

(12) According to one aspect of the present invention, the compacting machine 10 comprises a positioning device 20, configured to automatically reposition the retarding roller 14 with respect to the feed roller 12 while at the same time guaranteeing that it is always at a desired minimum distance Dmin, other than zero, from the latter, both in an operative condition, and also in the passage between the non-operative open condition and the operative condition.

(13) According to some embodiments, the positioning device 20 according to the invention is also configured to automatically regulate an operative distance Dop of the retarding roller 14 with respect to the feed roller 12, and to restore in a repeatable manner said operative distance Dop each time the retarding roller 14 moves away from the feed roller 12, for example due to the presence of a seam in the fabric 11 in transit.

(14) According to some embodiments, the positioning device 20 allows to define a minimum distance Dmin between the feed roller 12 and the retarding roller 14, that is, between the respective outer surfaces, for example about 0.1 mm, that is, such as to allow the independent rotation, and at different speeds, of the two rollers 12, 14.

(15) According to the embodiment shown here, merely by way of example, the positioning device 20 comprises a drive member 21 and an abutment member 22 connected on one side to the retarding roller 14 and cooperating with the opposite end with the drive member 21.

(16) According to some embodiments, the drive member 21 can be a linear actuator configured to exert a defined pressure, for example a pneumatic roller.

(17) For example, the drive member 21 can exert a pressure of about 6 bar such that the retarding roller 14 is rapidly brought back from the non-operative open condition to the operative condition, and in particular to the desired operative distance Dop with respect to the feed roller 12.

(18) In the solution shown, the abutment member 22 also performs the function of transferring and transforming the linear motion provided by the drive member 21 into a circular motion of the retarding roller 14, in particular of the longitudinal axis of the retarding roller 14 on a plane orthogonal to the longitudinal axis itself.

(19) Unlike the prior art solutions, in which the pneumatic roller exerts a pressure directly on the retarding roller 14, thrusting it forcefully against the feed roller 12, the positioning device 20 according to the present invention does not exploit the pressure exerted by the drive member 21 to move the retarding roller 14 toward the feed roller 12, but only to guarantee that it is correctly positioned and held in position.

(20) In accordance with another aspect of the present invention, the positioning device 20 also comprises at least one stop member or feeler 26, configured to provide a mechanical abutment for the positioning device 20, and in particular for for the drive member 21, so as to guarantee that the retarding roller 14 always remains at the minimum distance Dmin with respect to the feed roller 12.

(21) According to possible solutions, two stop members 26 are provided, each disposed in correspondence with or close to one end of a rotation shaft 33 of the retarding roller 14, so as to guarantee that it is positioned perfectly parallel to the feed roller 12.

(22) According to some embodiments, the stop member 26 can comprise a stop portion 27 suitable to cooperate directly or indirectly with the drive member 21.

(23) According to embodiments shown, for example, in FIGS. 1-3, the stop member 26 can cooperate indirectly with the drive member 21 by means of the abutment member 22.

(24) According to these embodiments, the abutment member 22 is provided with an end-of-travel portion 28 configured to contact the stop portion 27 of the stop member 26 to stop the travel of the retarding roller 14 in the passage between the non-operative open condition and the operative condition when the latter is at the desired distance Dmin from the feed roller 12.

(25) According to some embodiments, on the end-of-travel portion 28 there can be abutment elements 29, for example electric switches or contact sensors, suitable to rest in contact with the stop portion 27 to reduce the wear on the end-of-travel portion 28 and/or the stop portion 27, and possibly cushion the collision between them due to the pressure exerted by the drive member 21.

(26) According to some embodiments, the stop member 26 can be a motorized centesimal feeler, suitable to also define displacements in the range of hundredths of a millimeter, so that the desired minimum distance Dmin can be set with high precision.

(27) According to some embodiments, the abutment member 22 can be a lever 25 constrained to a pin 30 which acts as a fulcrum, so as to be rotatable with respect to a first axis of rotation X1 passing through the pin 30 in the directions of rotation F1, F2 shown in FIGS. 1-3.

(28) In accordance with some embodiments, the lever 25 can comprise a first arm 31 and a second arm 32 connected integrally to each other in correspondence with respective ends and both rotatable with respect to the pin 30.

(29) According to possible embodiments, on a plane orthogonal to the first axis of rotation X1, the lever 25 can be L-shaped, where the first arm 31 is disposed substantially orthogonal to the second arm 32 in correspondence with the pin 30.

(30) According to some embodiments, in correspondence with its free end, the first arm 31 is connected integrally with the retarding roller 14, for example in correspondence with the rotation shaft 33 of the latter. In this way, the rotation of the lever 25 around the pin 30 involves a correlated displacement of the rotation shaft 33 along an arc of the circumference C.

(31) According to other embodiments, the second arm 32 is connected to the drive member 21.

(32) The second arm 32 in particular is hinged to the drive member 21 and is rotatable relative to it around a second axis of rotation X2 substantially parallel to the first axis of rotation X1.

(33) According to possible solutions, the second arm 32 is provided with the end-of-travel portion 28 in correspondence with its free end.

(34) According to other embodiments, the drive member 21 is connected to, and acts on, an intermediate portion of the second arm 32 between the pin 30 and the end-of-travel portion 28.

(35) According to the example embodiment shown in FIG. 3, when there is a seam in the fabric 11, the retarding roller 14 moves away from the feed roller 12, moving in the opening direction F1 toward the non-operative open condition. In this condition, the drive member 21 rotates the lever 25 in a concordant direction F1 by an angle correlated to that of the retarding roller 14, so that the end-of-travel portion 28 moves away from the stop portion 27.

(36) Subsequently, the positioning device 20 moves the retarding roller 14 again and automatically to restore its operative condition, returning it to the operative distance Dop from the feed roller 12. In particular, the drive member 21 can be driven in such a way as to make the lever 25, and hence the rotation shaft 33 of the retarding roller 14 constrained to it, rotate in a closing direction F2 opposite the opening direction F1.

(37) The drive member 21 in particular is driven until the end-of-travel portion 28 of the lever 25 goes into contact with the stop portion 27, thus defining the end of travel of the retarding roller 14.

(38) In this way, it is possible to exert a high pressure, for example of 6 bars or more, such as to quickly restore the operative condition of the retarding roller 14 and at the same time preserve the rubber of the latter.

(39) According to some embodiments, the position of the stop portion 27 can be regulated, for example, automatically, also depending on the type and/or thickness of the fabric 11 to be treated, or the degree of compaction required.

(40) By way of example, FIG. 1 shows an operative condition of the positioning device 20 in the presence of a fabric 11 having a first thickness S1, wherein the distance between the feed roller 12 and the retarding roller 14 is, for example, equal to the minimum distance Dmin. In this case, the stop portion 27 is positioned at a first height H1, defining the safety height necessary to guarantee that the two rollers 12, 14 are never in contact with each other.

(41) FIG. 2 shows a second operative condition of the positioning device 20 in the presence of a fabric 11 having a second thickness S2, bigger than the first thickness S1. In this case, the distance between the feed roller 12 and the retarding roller 14, for example, is equal to an operative distance Dop greater than the minimum distance Dmin. In this case, the stop portion 27 is positioned at a second height H2, different from the safety height, such as to define a lower travel for the drive member 21.

(42) According to some embodiments, the compacting machine 10 also comprises a control and command unit 35, schematically shown in FIG. 3, provided with a user interface 36 by means of which an operator can select the desired operative distance Dop between the feed roller 12 and the retarding roller 14, so as to define the degree of compaction to be performed on the fabric 11.

(43) The control and command unit 35 can be connected to the rotation shafts of the feed roller 12 and the retarding roller 14 in a known way, to regulate their respective speeds and/or detect their respective reciprocal positions.

(44) The control and command unit 35 can also be connected to the positioning device 20 and configured to regulate it according to the operative distance Dop selected by the user.

(45) In particular, the control and command unit 35 can regulate the position of the stop member 26 so as to position the stop portion 27 at an operative height correlated to the selected operative distance Dop.

(46) Embodiments described here also concern a method for positioning the retarding roller 14 with respect to the feed roller 12, wherein the method provides to move the retarding roller 14 at least between a non-operative open condition in which it is distant from the feed roller 12 and an operative condition in which it is close to it.

(47) According to some embodiments, the method comprises an initial setting step of a minimum distance Dmin between the retarding roller 14 and the feed roller 12.

(48) According to some embodiments, in order to move the retarding roller 14 from the non-operative open condition to the operative condition, the method provides to drive the drive member 21 to move the abutment member 22 and hence the retarding roller 14 to the distance Dmin from the feed roller 12, that is, until the end-of-travel portion 28 is in contact with the stop portion 27.

(49) According to some embodiments, the initial setting step can comprise:

(50) positioning the retarding roller 14 parallel to, and in contact with, the feed roller 12 by the action of a drive member 21;

(51) distancing the retarding roller 14 from the feed roller 12 by a desired minimum distance Dmin, positioning at a defined correlated height a stop portion 27 of a stop member 26 of the positioning device 20 cooperating with an abutment member 22, and setting said defined height as the safety height of the positioning device.

(52) According to some embodiments, the method also provides a regulation step that comprises selecting an operative distance Dop between the feed roller 12 and the retarding roller 14, greater than or at most equal to the minimum distance Dmin, and the relative regulation of the stop member 26, in which the stop portion 27 of the stop member 26 is positioned, with respect to the set safety height, at an operative height correlated to the selected operative distance Dop.

(53) It is clear that modifications and/or additions of parts can be made to the compacting machine 10, the positioning device 20 and the positioning method described heretofore, without departing from the field and scope of the present invention.

(54) For example, in a substantially equivalent manner, the positioning device 20 could be connected to the feed roller 12 to move the latter with respect to the retarding roller 14.

(55) 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, compacting machine 10, positioning device 20 and positioning method, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.