SELF-PROPELLED WRAPPING MACHINE

Abstract

A self-propelled wrapping machine movable on a supporting surface includes a self-propelled carriage provided with a drive wheel for moving the self-propelled wrapping machine and a lifting device having a supporting element provided with an idle auxiliary wheel associated with the carriage and selectively movable between a raised position, where the auxiliary wheel is spaced from a supporting plane, and a lowered position, where the auxiliary wheel abuts the supporting plane and lifts and detaches the drive wheel from the supporting plane. The supporting element is rotatably associated with the carriage to rotate between the raised and lowered positions. The lifting device has a lever rotatably supported by the carriage, connected to the supporting element by a connecting element and movable between a non-operating position and an operating position, where the lever arranges the supporting element respectively in the raised and lowered positions.

Claims

1-8. (canceled)

9. A self-propelled wrapping machine movable on a supporting surface to wrap a load with a plastic film, comprising: a self-propelled carriage provided with at least one drive wheel suitable for moving said self-propelled wrapping machine; at least one steering wheel controlled by a steering system that can be manually operated by a manoeuvring bar or by a feeler element suitable to follow external walls of the load to be wrapped; an upright fixed to said carriage and slidably supporting an unwinding unit provided with at least a reel of film; at least one lifting device which includes a supporting element provided with an idle auxiliary wheel, said supporting element being associated with said carriage and selectively movable between a raised position, in which said auxiliary wheel is spaced from said supporting plane, and a lowered position, in which said auxiliary wheel abuts said supporting plane and lifts and detaches said drive wheel from said supporting plane; wherein said supporting element is rotatably associated with a side of said carriage, adjacent to said drive wheel so as to rotate between said raised position and said lowered position and in that said lifting device comprises: a lever rotatably supported by said carriage, connected to said supporting element and movable between a non-operating position, in which said lever arranges said supporting element in the raised position, and an operating position, in which said lever arranges said supporting element in the lowered position; and a connecting element suitable for connecting said lever and said supporting element.

10. The self-propelled wrapping machine according to claim 9, wherein said lever has an elongated shape and has a gripping first portion adapted to be gripped by an operator and an operating second portion that is connected to said supporting element, said lever being rotatably connected to, and supported by, said carriage at a fulcrum point that is interposed between said first portion and said second portion.

11. The self-propelled wrapping machine according to claim 10, wherein said gripping first portion has a length longer than the length of said operating second portion.

12. The self-propelled wrapping machine according to claim 10, wherein said connecting element comprises a first end rotatably connected to an end of said operating second portion of said lever and an opposite second end rotatably connected to said supporting element.

13. The self-propelled wrapping machine according to claim 9, wherein said connecting element has an elongated shape and is adjustable in length.

14. The self-propelled wrapping machine according to claim 9, wherein said lever forms a first angle with said connecting element in said non-operating position that is comprised between 80? and 100? and in said operating position forms a second angle wider than 180?.

15. The self-propelled wrapping machine according to claim 9, wherein said lifting device comprises a locking device configured to reversibly lock said lever at least in said operating position.

16. The self-propelled wrapping machine according to claim 9, wherein said carriage comprises two drive wheels and two lifting devices, each lifting device being associated with a respective drive wheel in order to lift and detach said drive wheel from the supporting plane.

Description

[0018] The invention can be better understood and implemented with reference to the attached drawings which illustrate an exemplary and non-limiting embodiment thereof, in which:

[0019] FIG. 1 is a perspective view of the wrapping machine of the invention;

[0020] FIG. 2 is an enlarged partial view of the wrapping machine of FIG. 1 with a covering casing in open position in order to illustrate a lifting device of a drive wheel with a supporting element in the raised position;

[0021] FIG. 3 is a view similar to that of FIG. 2 which illustrates the supporting element in lowered position.

[0022] With reference to FIGS. 1 to 3, a self-propelled wrapping machine 1 according to the invention (hereinafter called machine 1) is illustrated that is movable on a supporting plane P around a load to wrap it with a plastic film during a wrapping cycle. The supporting plane P is, for example, identified in the ground or in the floor of the place or environment in which the machine 1 is positioned. The load consists, for example, of one or more products arranged on a pallet or bed.

[0023] The machine 1 comprises a self-propelled or mobile carriage 2 and an upright 3 fixed to the carriage and slidably supporting an unwinding unit 4. A covering casing 7 encloses and forms an inner compartment of the carriage intended to receive, for example, an electric power supply battery. The covering casing 7 is movable in open position to allow accessing the inner compartment.

[0024] The unwinding unit 4, of the known type, is provided with a reel of film 51, for example of plastic material, and roller means for unwinding and/or pre-stretching the film, of known type and not shown in the figures.

[0025] The carriage 2 comprises at least one drive wheel 5 connected with and rotated by motor means of known type and not illustrated in the figures and at least one steering wheel 6 controlled by steering means 8 which can be manually operated by a manoeuvring bar 9 or by a feeler element 19 suitable for following the outer walls of the load to be wrapped. The manoeuvring bar 9 and the feeler element 19 are of known type and thus not described or illustrated in detail.

[0026] In the embodiment shown by way of example, the machine 1 comprises a pair of rear wheels of which only one is the drive wheel and a pair of front steering wheels 6 which can be oriented by the operator by means of the manoeuvring bar 9 during manual manoeuvring or by the feeler element during operation, rotating about the load.

[0027] The rear drive wheel 5 is positioned on the carriage 2 on the opposite side with respect to the feeler element, of known type and not illustrated, configured to follow the outer profile or shape of the load and orient the steering wheels accordingly, to which it is connected, in an operating work configuration, in which the self-propelled machine rotates autonomously and automatically around the load to wrap it with the film.

[0028] The machine 1 further comprises at least one lifting device 10 which includes a supporting element 11 provided with an auxiliary wheel 12 that is idle, i.e. free to rotate about its own rotation axis, and selectively movable between a raised position A, in which the auxiliary wheel 12 is spaced from the supporting plane P (FIG. 2) and a lowered position B, in which the auxiliary wheel 12 abuts the supporting plane P, lifting and detaching the drive wheel 5 from the supporting plane P (FIG. 3). More precisely, in the raised position A, the auxiliary wheel 12 is spaced from the supporting plane P so as not to interfere with the movement of the machine 1, leaving the drive wheel 5 in contact with the supporting plane P. In the lowered position B, the auxiliary wheel 12 abuts the supporting plane P and by pushing against the supporting plane P lifts the drive wheel 5 so that the drive wheel is detached from the supporting plane P.

[0029] The lifting device 10 is positioned on the carriage 2 at the drive wheel 5 and is accessible for its operation by lifting the covering casing 7 in open position.

[0030] The supporting element 11 is associated with a side 2a of the carriage 2 and is adjacent and near the drive wheel 5.

[0031] The supporting element 11 is in particular rotatably connected to the carriage 2 so that it can rotate with respect the carriage between the raised position A and the lowered position B. The lifting device 10 also comprises a lever 13 rotatably supported by the carriage 2 and connected to the supporting element 11. The lever 13 is selectively movable between a non-operating position C, in which the lever 13 arranges the supporting element 12 in the raised position A and an operating position D, in which the lever arranges the supporting element 12 in the lowered position B.

[0032] The lever 13 has an elongated shape and has a gripping first portion 13a adapted to be gripped by an operator and an operating second portion 13b connected to the supporting element 11. The lever 13 is rotatably connected to and supported by the carriage 2 at a fulcrum point 15 that is interposed between the first portion 13a and the second portion 13b. More precisely, the fulcrum point 15 divides and defines the first portion 13a and the second portion 13b.

[0033] In particular, the first portion 13a is shaped so as to be ergonomically gripped by an operator. According to an embodiment, the first portion 13a may be suitably shaped to facilitate gripping by the operator.

[0034] The gripping first portion 13a has a length longer that a length of the operating second portion 13b with reference to the fulcrum point 15, so as to advantageously carry out a lever 13 in which the operator's effort is minimal for changing the position of the supporting element 11, as better explained in the following description.

[0035] Furthermore, the lifting device 10 comprises a connecting element 14, suitable for connecting the lever 13 to the supporting element 11. More precisely, the connecting element 14 comprises a first end 14a rotatably connected to an end of the operating second portion 13b of the lever 13 and an opposite second end 14b rotatably connected to the supporting element 11. According to a preferred embodiment of the invention, the connecting element 14 has an elongated shape and is adjustable in length so as to adjustably connect the lever 13 and the supporting element 11. The connecting element 14 is for example a bar, tie rod or strut of cylindrical shape.

[0036] The supporting element 11 comprises, for example, a box-like element having an approximately triangular shape provided with a first vertex 11a, a second vertex 11b and a third vertex 11c. At the first vertex 11a, the auxiliary wheel 12 is rotatably connected, that is rotatable about a rotation axis almost parallel to the rotation axis of the drive wheel 5. The second end 14b of the connecting element 14 is rotatably connected to the second vertex 11b. Finally, the third vertex 11c of the supporting element 11 is rotatably connected by a supporting pin to an outer side wall 21 of the carriage 2, near the drive wheel 5.

[0037] In a mounting configuration of the supporting element 11 on the carriage 2 (FIG. 3), the first vertex 11a is closer to the supporting plane P and the second vertex 11b is farther from the supporting plane P.

[0038] In a preferred embodiment, the lever 13 in the non-operating position C forms with the connecting element 14 a first angle ?1 that is comprised between 80? and 100?, while in the operating position D the lever 13 forms with the connecting element 14 a second angle ?2 greater than 180? so as to prevent the spontaneous return of the lever 13 from the operating position D to the non-operating position C. An external force must therefore be applied by an operator to move the lever from the non-operating position C to the operating position D and vice versa.

[0039] Locking means, not shown in the figures, are provided for reversibly locking the lever 13 at least in the operating position D so as to prevent the spontaneous movement of the lever from the operating position D to the non-operating position C.

[0040] The locking means can be carried out by means of a shaped rotating element positioned near the fulcrum point 15, for example a cam, acting on the end of the second portion 13b of the lever 13.

[0041] In the operation of the machine 1 during a load wrapping cycle the lever 13 is positioned in the non-operating position C and the supporting element 11 is arranged in the raised position A, so that the auxiliary wheel 12 is spaced from the supporting plane P and does not interfere with the movement of the machine 1 leaving the drive wheel 5 in contact with the supporting plane P to move the machine 1 around the load.

[0042] At the end of the wrapping cycle, if the operator needs to move the machine 1, for example from a first load to a second load, he actuates the first lever 13, in particular, he grips the first portion 13a of the lever 13 by lifting the lever and rotating it with respect to the fulcrum point 15 in order to move the lever from the non-operating position C to the operating position D. The lever 13, by rotating in the operating position D, moves the supporting element 11 from the raised position A to the lowered position B by means of the connecting element 14. During the move from the raised position A to the lowered position B, the auxiliary wheel 12 abuts the supporting plane P and progressively lifts a portion of the carriage 2 at the drive wheel 5 until it detaches the drive wheel from the supporting plane P. In other words, when the supporting element 11 is in the raised position A, the drive wheel 5 is spaced from the supporting plane P and does not interfere with the movement of the machine 1, allowing the operator to easily move and displace the machine, in particular to manually drive the machine into a manoeuvring configuration by means of the manoeuvring bar 8.

[0043] It should be noted that since the gripping first portion 13a has a length much longer than the length of second portion 13b with reference to the fulcrum point 15, a lever 13 is carried out in which the operator's effort is minimal for changing the position of the supporting element 11. More precisely, the lever 13 is an advantageous first class lever in which the effort arm (the first portion 13a) that is grasped by the operator has a length longer than the length of the resistance arm (the second portion 13b) connected to the supporting element 11. The force which the operator must exert to lift the lever 13 is thus much lower than the force necessary to lift the drive wheel 5.

[0044] When the operator has moved the machine 1, he can act on the lever 13 again to return it from the operating position D to the non-operating position C. At the same time as changing the position of the lever 13, the supporting element 11 is moved from the lowered position B to the raised position A and the auxiliary wheel 12 is lifted from the supporting plane P, allowing the drive wheel 5 to return to abut and rest on the supporting plane P.

[0045] The self-propelled wrapping machine according to the invention can therefore be easily and handy moved and displaced by an operator in a manoeuvring configuration, outside operating wrapping cycles.

[0046] Thanks to the lifting device 10, it is in fact possible to easily separate the drive wheel 5 from the supporting plane so that drive wheel does not interfere, slowing down the manual movement of the machine 1. In particular, thanks to the shape of the lever 13 (advantageous first class lever) that is connected with and acts on the supporting element 11 through the connecting element 14, the operator has to exert a minimum effort in order to rotate the lever from the non-operating position C to the operating position D, i.e. in order to lift the drive wheel 5 from the supporting plane P.

[0047] It should also be noted that, thanks to the lifting device 10 it is not necessary to include a system in the machine 1 of the invention for mechanically uncoupling the drive wheel from the motor means, which has to be activated during the manoeuvring configuration; thus the machine is very manoeuvrable and easily movable and less complex and cheaper than the known self-propelled wrapping machines.

[0048] According to an alternative embodiment of the self-propelled wrapping machine 1 of the invention, the carriage 2 may comprise a pair of rear drive wheels 5 and a pair of relative lifting devices 10. In particular, each lifting device 10 is positioned on the body 2 so as to lift the relative drive wheel 5 in a manoeuvring configuration.

[0049] According to another embodiment of the invention, the supporting element 11, alternatively to being rotatable, is slidably connected to the carriage 2 so as to be movable linearly between the lowered position B and the raised position A. In this variant, the lifting device 10 comprises driving means, for moving the supporting element 11 between the raised position A and the lowered position B.

[0050] For example, the driving means are screw-mother screw means, which transform a rotary motion exerted by the operator into a linear motion of the supporting element 1. The operation of such a preferred embodiment is entirely similar to what has been described above.

[0051] According to an alternative embodiment of the invention the connecting element 14 is movable according to a combined motion of roto-translational type.