Device for Measuring the Tensioning of a Strapping, Method for Measuring Said Tensioning and Strapping Machine Using the Aforesaid Measuring Device

Abstract

A device for measuring the tensioning of a strap wound around one or more products or objects includes: a frame that supports a first head and a second head opposed, spaced apart and configured to receive a strap that is strapped externally to both of them; a movement mechanism for mutually displacing the heads, a detector for detecting the stress and deformation data of the strap when the movement mechanism mutually move the heads away to deform the strap until the relative breakage; a computer operatively connected to the detector, configured to process the data acquired by the detector and to calculate the values of the tensile load and of the elongation affecting the strap.

Claims

1. A device for measuring the tensioning of at least one strap wound and strapped around at least one product or one object, comprising a frame that supports: a first head and a second head facing each other, spaced apart and opposed that are configured to receive a strap that is wound and strapped externally to both said heads according to a ring configuration; movement means configured to mutually displace at least one of said heads according to at least one direction; detection means for detecting at least the stress and deformation data affecting said strap when it is wound and blocked outside said heads and when said movement means mutually move said heads away to deform said strap until the relative breakage; computer means operatively connected to said detection means and comprising: storage means in which a computer product is stored; a microprocessor that is configured to execute said computer product, said computer product, when it is being processed, being configured to process the data acquired by said detection means and to calculate the values at least of the tensile load and of the elongation affecting said strap.

2. The measuring device according to claim 1, wherein said detection means comprise at least one load cell interposed between said first head and a contrasting surface belonging to said frame, said load cell being configured to detect the values of the tension acting on said strap.

3. The measuring device according to claim 2, wherein said detection means also comprise at least one encoder belonging to said movement means to which at least said second head is associated, said encoder being configured to detect the displacements that said movement means impose on at least one of said heads.

4. The measuring device according to claim 2, wherein said movement means comprise: at least one gear motor unit; a recirculating ball screw connected to said gear motor unit and put into rotation by the same, at least said second head being coupled to said recirculating ball screw and said at least one encoder being interposed between said gear motor unit and said recirculating ball screw.

5. The measuring device according to claim 1, wherein at least said second head is supported by guide means and is configured to define the respective straight direction of displacement of at least said second head.

6. Measuring device according to claim 5, wherein said guide means comprise at least one linear guide fixed to said frame.

7. The measuring device according to claim 1, wherein said first head and said second head have hooking profiles which are configured to removably accommodate the coupling of hooking counter-profiles corresponding to them which belong to shaped caps and which have the external profile equal to the external profile of said elements being strapped.

8. The measuring device according to claim 1, wherein said detection means further comprise at least one timer which detects at least the times for winding, tensioning and welding said strap.

9. The measuring device according to claim 1, wherein said computer product, when it is being processed, calculates the values: of the tensile load and of the elongation affecting the strap during the step of winding and of tension externally to said heads; of the tensile load and of the elongation affecting the strap at the end of said step of winding and of tension; of the time for the winding and the tension of said strap; of the time for welding, crimping or melting the ends of said strap; of the tensile load and of the elongation affecting said strap after welding, crimping or melting of the ends thereof; of the tensile time of said strap until relative breakage after welding, crimping or melting of the ends thereof; of the yield strength and of the breaking load of said strap, said values being made available to the user in a report.

10. The measuring device according to claim 9, further comprising means for storing and/or displaying said values.

11. The measuring device according to claim 1, wherein said detection means also comprise means for acquiring at least the electrical power supply values of the welding machine that welds the ends of said strap.

12. The measuring device according to any one claim 1, wherein said detection means also comprise image acquisition means of said welding.

13. A method for measuring the tensioning of a strap using the measuring device according to claim 1, said measuring method comprising the following operations: setting up a strapping machine or a strapping system; inserting said measuring device into said strapping machine or into said strapping system in a suitable position so that said first head and said second head are positioned at the strapping head of said strapping machine or of said strapping system; applying said shaped caps externally to said heads so as to reproduce the strapping configuration of said elements or objects to be strapped; winding a strap externally to said heads; at the end of winding, welding/joining the ends of said strap; putting said strap under traction by moving mutually away one with respect to the other or both of said heads until the breakage of said strap; recording said values of said tensioning in a report.

14. Strapping A strapping machine or strapping system comprising: a frame; a rest surface for the objects or elements to be strapped; a strapping head, supported by said frame, for applying a strap to said objects or items to be strapped; and a device for measuring the tensioning of said strap, according to claim 1.

15. The strapping machine or strapping system according to claim 14, wherein said measuring device is associated with support and displacement means for the approach/distancing of said measuring device to/from said strapping head.

16. The strapping machine or strapping system according to claim 15, wherein said means for supporting and displacing said measuring device are associated with said frame.

17. The strapping machine or strapping system according to claim 15, wherein said means for supporting and displacing said measuring device are separate and independent from said frame.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0043] The purposes and advantages listed will be better highlighted below during the description of a preferred, but not exclusive, embodiment of the invention which is given with reference to the attached drawings in which:

[0044] FIGS. 1 to 6 represent a strapping method and system according to the prior art;

[0045] FIGS. 7 to 9 represent the measuring device of the invention;

[0046] FIGS. 10 and 11 represent two different views of a strapping machine using the measuring device of the invention;

[0047] FIG. 12 represents an enlarged detail of FIG. 11 in axonometric view.

[0048] The measuring device of the invention is represented in different views in FIGS. 7 to 9 where it is collectively referred to with 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0049] The measuring device 1 is used to measure the tensioning, understood at least as the set of the stress, deformation, elongation, breaking load and welding and junction efficiency parameters of at least one strap that packages elements of various kind and that is tightened in direct contact with the elements to be packaged or in contact with the container that houses them.

[0050] It is considered appropriate to specify that in the description the term “strapped” may be used to indicate a strap wound and tightened around one or more objects or products.

[0051] In the remainder of this description, as has already been mentioned above, the term tensioning will be used to refer to the set of the parameters of stress, deformation, elongation, breaking load and therefore of welding and junction efficiency of a strapping that joins together elements and/or objects of any type and size.

[0052] The device of the invention is, however, particularly suitable for measuring the parameters defining the tensioning as defined above of at least one strap that wraps and tightly tightens into a bundle a plurality of elements with predominantly longitudinal development, such as metallic and non-metallic profiles, tubes and bars for various use.

[0053] During the following description, reference will therefore be made to the strapping of bundled elements with predominantly longitudinal development, but it is understood that the measuring device of the invention may also be applied to measure the parameters defining the strapping tensioning of elements of any type in terms of geometry, material and product sector to which they belong, possibly also contained in respective packagings.

[0054] The measuring device 1 of the invention is essentially a strapping simulator that can be applied to any automatic and semi-automatic strapping machine and also to any strapping device of the manual type.

[0055] In the following discussion, the device of the invention is described in its application to a strapping machine of the automatic type provided with an arched strapping head in which, in order to determine the strapping parameters, particularly the tensioning is used which affects the strap during and after strapping and which influences and determines the quality of the strapping that the strapping machine performs.

[0056] According to the invention, the measuring device 1, as can be seen in FIGS. 7 to 9, comprises a frame 2 that supports a pair of heads that simulate the geometry of the product to be strapped and which comprise a first head 3 and a second head 4 facing each other, spaced apart and opposed that are configured to receive a strap R which is wound externally to both according to a ring configuration.

[0057] The frame 2 also supports movement means 5 that are configured to mutually displace at least one of the heads 3, 4 according to a straight direction X and detection means 6 for detecting at least the stress and deformation values affecting the strap R when it is wound outside the heads 3, 4 and when the movement means 5 mutually move the heads 3, 4 away to deform the strap R until its breakage.

[0058] It is considered appropriate to specify that the movement means can be of any type and therefore electric, fluid or manual.

[0059] In addition, these movement means may exert the mutual displacement of the heads even according to several directions.

[0060] Computer means, not represented in the figures, also belong to the device, which are operatively connected to the detection means 6 and which comprise storage means in which a computer product is stored and at least one microprocessor which is configured to execute the aforesaid computer product.

[0061] The aforesaid computer product is configured in such a way that, when it is being processed, it processes the data acquired by said detection means 6 and calculates the values of at least the tensile load and the elongation affecting the strap R.

[0062] With regard to the detection means 6, it can be seen in FIGS. 7 to 9 that they comprise a load cell 7 that is interposed between the first head 3 and a contrasting surface 8 belonging to frame 2 and is configured to detect the values of the tension acting on the strap R.

[0063] The detection means 6 also comprise an encoder 9 that belongs to the movement means 5 to which the second head 4 is associated and is configured to detect the displacements that the movement means 5 impose on at least one of the heads 3, 4.

[0064] With regard to the movement means 5, it can be seen in the figures that they comprise a gear motor unit 10 and a ball recirculating screw 11, which is connected to the gear motor unit 10 and put into rotation by the same, and to which the second head 4 is coupled.

[0065] In another different embodiment, which is not described and represented, the movement means can be connected to both heads in order to put them into mutual movement simultaneously or one with respect to the other.

[0066] In addition, between the gear motor unit 10 and the ball recirculating screw 11 there is interposed the encoder 9 which is connected to both the gear motor unit 10, and to the ball recirculating screw 11.

[0067] It is also noted that the second head 4 is supported by a linear guide 12, which is fixed to the frame 2 and is configured to define the straight direction X of displacement of at least the second head 4 itself.

[0068] In another different embodiment that is not described and represented, if both heads can be put into motion, both will be supported by a linear guide.

[0069] Other guide means belonging to the prior art may be used as an alternative to the linear guides.

[0070] In order to simulate as closely as possible the actual strapping conditions, the first head 3 and the second head 4 are provided with hooking profiles 13 which are configured to removably accommodate the coupling of hooking counter-profiles 14 corresponding to them that belong to shaped caps 15 having the external profile 16 equal to the external profile of the elements with predominantly longitudinal development that are tightened into a bundle by strapping.

[0071] In addition, the aforesaid shaped caps 15 will be made of a material whose mechanical characteristics are as similar as possible to those of the material to be strapped so that, during strapping, the operating conditions are as close as possible to the actual strapping conditions.

[0072] It is therefore evident that pairs of shaped caps 15 having an external profile 16 that can be conjugated to the external profile of the elements being strapped will be used.

[0073] In addition, the detection means 6 preferably also comprise means for measuring the torque applied by the movement means 5 and means (not represented but of a known type) for acquiring the electrical power supply values of the welding machine that welds the ends of the strap R.

[0074] There will also be a timer (not represented but of a known type) that detects the times for winding, tensioning, welding and releasing the strap R, and possibly a time scale for monitoring the detected values over time.

[0075] The detection means 6 preferably, but not necessarily, also comprise means for acquiring images 20 of the welding that is carried out in the junction area of the strap R and which are schematically represented in FIG. 8.

[0076] Such image acquisition means 20 comprise an image acquisition device 21, e.g., a camera, video camera or similar means, associated with a support arm 22 that places the image acquisition means 20 above the strap R at the welding.

[0077] The device 1 of the invention also comprises a pair of gripping members 30 which can be seen in FIG. 7, which are arranged coaxial and opposed to each other according to the straight direction X and which comprise a first gripping member 31 fixed to the frame 2 and a second gripping member 32 fixed to the second head 4.

[0078] The ends of a segment of sample strap Rc which is put under traction by the second head 4 to detect its tensioning values and in particular the breaking load, the elongation and the yield strength, are fixed to the gripping members 30.

[0079] The sample strap Rc consists of a segment of the same strap R that is used for strapping in the strapping machine, and the value of the tensile breaking load that is detected on the sample strap Rc is used to determine the strapping efficiency value understood as the ratio between the value of the breaking load detected by simulating the strapping between the heads 3, 4 and the value of the breaking load detected on the sample strap Rc.

[0080] As far as the computer product is concerned, which, as it has been said, is stored in the storage means of the computer means which are not represented in the figures, when it is being processed, it calculates the values: [0081] of the tensile load and of the elongation affecting the strap R during the step of winding and of tension externally to the heads 3, 4; [0082] of the tensile load and of the elongation affecting the strap R at the end of the winding and tension step; [0083] of the time for the winding and tension of the strap R; [0084] of the tensile load and of the elongation affecting the strap R in the tension and stretching steps; [0085] of the time for the welding/junction of the ends of the strap R; [0086] of the tensile load and of the elongation affecting the strap R after the welding/junction of the ends thereof and upon release after strapping; [0087] of the time of the tension loss of the strap R after the welding/junction of the ends thereof, before bringing the strap R to break; [0088] of the tensile load and of the elongation of the strap R after welding/junction and until the relative breakage; [0089] of the tensile time of the strap R after welding/junction and until the relative breakage; [0090] of the tensile load and of the elongation of the sample strap Rc until the relative breakage; [0091] of the welding/junction efficiency.

[0092] The aforesaid values are made available to the user in a report. In particular, the detected and calculated values can be marked by means of a printer or similar means on the strap that is applied to the products during the strapping cycle.

[0093] These values can also be recorded on labels to be applied to the strapped products, and finally they can also be stored on the computer media of the quality system in order to ensure the traceability of the strappings carried out on the products.

[0094] The user, by cross-referencing the qualitative analysis of the strapping with the records indicated in the report, will be able to assess the necessity and/or advisability of carrying out any adjustment interventions on the strapping machine.

[0095] The measuring device 1 of the invention can be applied to any automatic or semi-automatic strapping machine, and in general also to any manual strapping system, which will therefore also be an object of the present invention.

[0096] Thus, the method for measuring the tensioning of a strap R using the measuring device 1 of the invention can be described by reference to any automatic or semi-automatic strapping machine and in general also to any manual strapping system.

[0097] Hereinafter, the measuring method is described with reference to an automatic strapping machine 50 of the arched type, represented in the schematic FIGS. 10 and 11 and also being an object of the present invention, which comprises a frame 51 with a rest surface 53 for the objects or elements to be strapped, a strapping head 52 supported by the frame 51 and the measuring device 1 of the invention which is associated with support and displacement means of any type, manual or automatic, not represented in the figures, belonging to the frame 51.

[0098] In another different embodiment, the measuring device 1 may be associated with a support structure independent of the frame 51 and will be inserted into the strapping machine 50 or other strapping system in an automatic, semi-automatic or manual manner.

[0099] In a further embodiment, the measuring device 1 may be carried by hand by the operator and placed in a suitable position to perform the test.

[0100] The support and displacement means, not represented in the figures, support the measuring device 1 which, during the operation of the strapping machine and thus during the strapping operations, remains in a position spaced apart from the strapping head 52, as can be seen in FIGS. 10 and 12.

[0101] In particular, the measuring device 1 is arranged so as not to hinder the strapping operations of the product and is inserted automatically, semi-automatically or manually into the strapping machine or into the strapping system, as can be seen in FIG. 10.

[0102] The strapping machine or the strapping system will apply the strap to the measuring device 1, as can be seen in FIGS. 11 and 12.

[0103] In order to measure the strapping tensioning, the strapping machine 50 is stopped and, after applying to the heads 3 and 4 the shaped caps 15 having the profile that reproduces the external profile of the elements or objects to be strapped, by means of the displacement means the measuring device 1 is displaced in order to move the heads 3 and 4 closer to the strapping head 52 in the condition represented in FIG. 11.

[0104] It should be noted that, usually, the caps 15, which as mentioned are interchangeable inserts, are fixed to the heads 3 and 4 and are already set up to simulate the product being strapped by that specific strapping machine.

[0105] Obviously, if the product to be strapped is changed, the caps 15 are replaced with others having the profile that reproduces the external profile of the new product to be strapped.

[0106] Furthermore, as already specified, the geometry and the characteristics of the material with which the caps 15 are made must be chosen appropriately in order to reproduce as closely as possible to reality the conditions under which the strapping of the products or of the objects takes place.

[0107] To measure the tensioning, the strapping machine 50 wraps a strap R externally to the heads 3, 4 and at the end of the winding the ends of the strap R are joined by crimping or welded by means of one or more welding heads, not represented in the figures.

[0108] The second head 4 then moves away from the first head 3, or both mutually if they are both movable, by means of the movement means 5, and the strap R is thus put under traction until the relative breakage.

[0109] It is also possible to measure the tensioning of a sample strap Rc.

[0110] The data acquired by the detection means 6 are then recorded in a report together with the values listed above and calculated by the computer product.

[0111] As mentioned above, the measuring device 1 of the invention can be applied to any automatic or semi-automatic strapping machine or to any manual strapping system to measure the characteristics of strapping that the strapping machine produces.

[0112] Operationally, at the user's choice, the strapping tensioning measurement can be carried out in the interval between two successive strapping operations or after a discrete number of strapping operations.

[0113] Furthermore, the image acquisition means 20 of the junction could compare the junction made with standardized junctions, or with all the junctions previously made, and possibly instruct the computer means to carry out a measurement of the strength of the junction and therefore of the strapping.

[0114] On the basis of what has been described, it is understood that the invention achieves the aim of realizing a device for measuring 1 the parameters that define the strapping for packaging objects.

[0115] In particular, the measuring device 1 achieves the aim of determining the values of the parameters that define the stress and the deformation of a strapping while packaging objects, and in particular of calculating the tensile load, the elongation, the yield strength and the breaking load affecting the strapping.

[0116] Knowing these data makes it possible to keep the strapping operations in a strapping machine under control by making any corrections to the adjustment parameters of the strapping machine itself, which are necessary in order to keep the strapping quality within the standards set by the user.

[0117] Finally, the aim is also achieved that the measuring device 1 of the invention is applicable to any automatic or semi-automatic strapping machine or to any manual strapping system, in which case any known strapping machine will be converted into a strapping machine or into a strapping system of the present invention.

[0118] In the execution step, modifications may be made to the measuring device of the invention, all of which, if they fall within the scope of the following claims, shall be deemed to be protected by this patent.