The present invention relates to a machine for packaging flexible hoses.
In the field of packaging of flexible hoses, it is known to provide a machine comprising a feeding wheel which is mounted to rotate about a first substantially horizontal rotation axis and is provided with a plurality of winding pins (in this case, three winding pins) mounted to rotate about respective second rotation axes substantially parallel to each other and to the first rotation axis. Each winding pin is advanced by the feeding wheel in succession and intermittently, first through a winding station, where the hose is wound to form a coil of flexible hose axially delimited by two side faces substantially parallel to each other and perpendicular to the relative second rotation axis, then through a packaging station, where the coil of flexible hose is packaged in an extensible plastic film, and finally through an unloading station, where the coil of flexible hose packaged in the extensible plastic film is unloaded from the machine. The packaging station is provided with a horizontal carriage, which is mounted to make straight movements in a feeding direction substantially parallel to said rotation axes, and has a support pin whose longitudinal axis is parallel to the feeding direction and which is configured to receive and hold a reel of extensible plastic film. Once locked a free end of the extensible plastic film between the end windings of the coil of flexible hose, the coil of flexible hose is wrapped in the extensible plastic film normally combining the movements of the reel of extensible plastic film in the feeding direction with the rotation of the coil of flexible hose about the respective second rotation axis.
The machines for packaging flexible hoses of the aforesaid known type have some drawbacks, mainly deriving from the fact that these machines are unable to feed the extensible plastic film on the inner areas of the side faces of the coil of flexible hose and, therefore, to pack correctly coils of hose with side faces having a relatively large radial width.
The machines for packaging flexible hoses of the aforesaid known type have, moreover, some further drawbacks due to the fact that:
stretching the extensible plastic film is not sufficient to ensure its adherence on the side faces of the coil of flexible hose, which therefore has a relatively reduced stability;
the extensible plastic film must be wound in multiple layers on the coil of flexible hose, with a relatively high material consumption, to ensure a sufficient compactness of the coil of flexible hose; and
once applied to the coil of flexible hose, the extensible plastic film has two side flaps, which do not adhere to the side faces of the coil and therefore cause imperfections and problems of handling and storage of the coil.
The object of the present invention is to provide a machine for packaging flexible hoses which is free from the aforesaid disadvantages and which has a simple and economic implementation.
According to the present invention, it is provided a machine for packing flexible hoses as claimed in the attached claims.
The present invention will be now described with reference to the accompanying drawings, which show a non-limiting embodiment, in which:
With reference to
The machine 1 comprises a support frame 5 and a feeding wheel 6 mounted to rotate in an intermittent manner, with respect to the frame 5 and under the thrust of a known and not shown operating device, about a substantially horizontal rotation axis 7.
The wheel 6 is provided with a plurality of winding pins 8 of the known type (in this case three winding pins 8), which protrude from the wheel 6 in a direction 9 parallel to the axis 7, and are uniformly distributed around the axis 7.
Each pin 8 is mounted to rotate about a rotation axis 10 parallel to the axis 7 and to the direction 9, and is fed in succession by the wheel 6 first through a winding station 11, where the flexible hose 3 is wound around the pin 8 to form the coil 2, then through a packaging station 12, where the coil 2 is packaged in the film 4, and finally through an unloading station 13, where the coil 2 packaged in the film 4 is unloaded from the machine 1.
The flexible hose 3 is fed to the station 11 by a known and not shown extrusion machine, and along a feeding channel 14 mounted on the frame 5 transverse to the axes 7, 10.
The station 12 is provided with a packaging unit 15 comprising a straight guide 16, which is fixed to the frame 5 and is parallel to the direction 9, is mounted above the wheel 6, and supports a carriage 17 movable along the guide 16 in the direction 9.
As shown in
The platform 18 is provided with a support pin 21, which is rotatably engaged by a reel 22 of film 4, and has a horizontal longitudinal axis 23 whose orientation depends on the position of the platform 18 about the axis 20.
The device 19 comprises, in this case, a crank mechanism 24 comprising, in turn, a crank 25 mounted on the carriage 17 to rotate, with respect to the carriage 17 and under the thrust of an electric motor 26, around a rotation axis 27 parallel to the axis 20, and a connecting rod 28 interposed between the crank 25 and the platform 18.
The continuous rotary motion of the crank 25 is converted by the connecting rod 28 in a reciprocating oscillatory motion of the platform 18, and then of the reel 22 of film 4.
The unit 15 is further provided with an unwinding device 29 comprising a plurality of unwinding rollers 30 idly mounted on the platform 18 to rotate about respective rotation axes 31 parallel to the axis 23, one of which is associated with a braking device 32 for selectively controlling the stretching of the film 4.
In use, the free end of the film 4 is locked against one of the side faces 2a of the coil 2 perpendicular to the axis 10 by means of a locking jaw 33 slidingly connected to the pin 8 to make straight movements along the pin 8 in the direction 9.
Now, the coil 2 is packaged in the film 4 by combining the rotation of the pin 8 about the respective axis 10 with the oscillation of the platform 18, and therefore of the reel 22 around the axis 20 and, preferably but not necessarily, with the movement of the carriage 17 along the guide 16. The aforesaid movements are selectively controlled by an electronic control unit 34 of the machine 1.
The coil 2 dragging the film 4 and the oscillation of the film 4 around the axis 20 allow wrapping in the film 4 also the two side faces 2a of the coil 2.
The machine 1 has some advantages, mainly deriving from the fact that the oscillation of the reel 22 and, therefore, of the film 4 around the axis 20, allows:
a proper package of coils 2 with side faces 2a having a relatively large radial width;
ensuring a relatively high stability of the coils 2 packaged in the film 4 during the unwinding of the flexible hose 3;
subjecting the film 4 to a relatively reduced stretching thus preventing its break;
ensuring the adherence of the film 4 on the side faces 2a of the coils 2; and
ensuring a sufficient compactness of the coils 2 with a relatively small number of layers of film 4, and a relatively low material consumption.
According to a variant not shown, the packaging unit 15 is movable in a horizontal direction 35 transverse to the direction 9 and/or around a rotation axis parallel to the direction 9 to selectively control the relative position between the coil 2 of flexible hose 3 and the reel 22 of film 4.
Number | Date | Country | Kind |
---|---|---|---|
BO2015A0224 | May 2015 | IT | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/IB2016/052545 | 5/4/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/178159 | 11/10/2016 | WO | A |
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Number | Date | Country | |
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20180141687 A1 | May 2018 | US |