Patent Application
20230404197
The present invention generally relates to the field of garments, and in particular to the manufacturing of disposable garments.
Protective garments, such as disposable gowns for medical staff and patients, may be produced from a sheet of a flexible material, such as e.g. a plastic film, that is cut into parts and joined into the desired design. A drawback with this technology is however that the manufacturing process generally involves a large number of complex processing steps, which often requires manual intervention and handling.
With an ever-increasing demand for disposable protective garments there is a need for improved technologies that allow for a more efficient manufacturing and reduced manufacturing costs.
It would be advantageous to achieve a technology overcoming, or at least alleviating the above-mentioned drawback. In particular, it would be desirable to provide an improved and more cost-effective method for manufacturing disposable garments.
To better address this concern, a method, a garment and a system having the features defined in the independent claims are provided. Preferable embodiments are defined in the dependent claims.
Hence, according to a first aspect, there is provided a method for manufacturing disposable upper body garments having sleeves and a front portion. According to the method, a first sleeve film and a second sleeve film are provided on a respective edge portion of a main film, wherein the edge portions are separated by a centre line extending in a longitudinal direction. The method comprises joining the sleeve films to the main film along at least part of an outline defining the sleeves of the garments, and defining at least part of the remaining outline of the garments by punching through the films.
Specifically, the method may comprise feeding the main film in a longitudinal direction, wherein the first and second edge portions of the film are arranged transversely opposing each other on a respective side of the centre line. An assembly may be formed comprising the first sleeve film and the second sleeve film arranged on the upper surface of the main film, wherein the first sleeve film is arranged on the first edge portion of the main film and the second sleeve film is arranged on the second edge portion of the main film. For a first one of the garments, the first sleeve film may be welded to the main film along at least part of an outline defining the sleeves of the first one of the garments. For a second one of the garments, the second sleeve film may be welded to the main film along at least part of an outline defining the sleeves of the second one of the garments. Further, the method may comprise a step of punching through the assembly to define a neck opening of the garments, and punching through the assembly along an outline of the first one and the second one of the garments.
According to a second aspect, a disposable upper body garment manufactured by the method according to the first aspect is provided.
According to a third aspect, a system for manufacturing of disposable upper body garments according to the first and second aspects is provided.
The present inventive concept is based on the realisation that by arranging the first and second sleeve films on the edge portions of the main film, and using the sleeve films to form the sleeves of the resulting garment, the manufacturing of the garment can be more efficient. Several advantages may be associated with the present aspect. Firstly, the sleeve films allow for the front portion of the garment to be provided with sleeves in a relatively easy and efficient way. The sleeves may be formed by joining the sleeve films and the main film along lines defining the armpit to arm seams of the garment and, optionally, the shoulder to arm seams, and punching the films at the arm opening so as to define the outline of the sleeves. This can be done “on the fly” as the film assembly is feed forward in the longitudinal direction. Secondly, the size of the sleeves can easily be determined by varying the width of the sleeve films, wherein a wider sleeve film allows for a wider sleeve and vice versa. Thus, the design of the sleeves can be varied by modifying the width of the sleeve films, the position of the welds joining the films, and the cuts or perforations defining the outline of the sleeves. Thirdly, the garments can be manufactured in a roll-to-roll process, which advantageously allows for increased productivity and reduced waste, especially compared to processes requiring individual and manual handling of the garments.
In the present specification, the term “disposable” may refer to a garment intended to be thrown away after use. This may also be referred to as one-use or expendable and should generally be understood as a garment that is not intended to be re-used multiple times.
The term “upper body garment” generally refers to an item of clothing suitable for the upper part of the body, in particular the trunk and the arms. The garment may also be referred to as a gown or an apron, such as a sleeved apron (with long or short sleeves). Preferably, the garment is a protective garment, such as a medical garment providing a barrier between patient and professional.
By “film” may be understood a material in the form of a thin and flexible sheet, preferably stored and supplied on a roll. The film may for example be formed of plastic or paper, or another material worked in a manner analogous to plastic. Preferably, the film is formed of polyethylene or polylactic acid. The first sleeve film, the second sleeve film and the main film may be formed of the same material or of different materials.
The main film, or lower film in the assembly may generally be referred to as having a length extension in the longitudinal direction, i.e., the feeding direction during the manufacturing, and a width in a lateral direction, i.e., a direction orthogonal to the longitudinal direction. Similarly, the first and second sleeve films may have a length extension in the longitudinal direction and a width in the lateral direction. Preferably, each of the first and second sleeve films may have a width that is smaller than half the width of the main film. In other words, the first and second sleeve films may be separated by a distance when arranged on the main film, such that a centre region of the main film is not covered by any of the first and second sleeve films.
The layers of the assembly, i.e., the first/second sleeve film and the main film, may be selectively joined together in certain regions or along certain lines so as to form the sleeves of the garment. The joining may for example be achieved by applying pressure or heat. In some examples, the films may be joined by welding or gluing. Welding may be advantageous in that no additional components, such as e.g. glue, may be required. Instead, the joint may be formed by heating the material of the films to the point of melting.
By “punching” is generally meant the process of piercing a hole through the assembly. Thus, the punching may result in for example a perforation, i.e., a row of holes punched in the assembly so that a part can be torn off more easily, or a cut-out where a part of the assembly is removed in its entirety.
By “sleeve” is generally meant the part of the garment that wholly or partly covers a person's arm. Preferably, the sleeve is configured to wholly enclose or encircle a part of the arm, but not necessarily the entire length of the arm. By “front portion” is generally understood the part of the garment that is intended to wholly or partly cover the front of the wearer's body, i.e., to be arranged anterior to the body. However, the front portion may be suitable to be worn posterior to the body as well, depending on the desired use. The present aspect allows for garments to be produced, which may be open either in the back or in the front. By “neck opening” is generally referred to an opening intended to receive the head of the user during use.
According to an embodiment, the first and second sleeve films may be formed of the main film. The sleeve films may for example be cut out from the main film in a prior step and arranged on the upper surface of the main film to form the assembly.
Alternatively, the first and second sleeve films may be formed by folding the main film onto its upper surface. This may be achieved by folding a first longitudinal edge and a second longitudinal edge of the main film towards a centre of the main film, wherein the longitudinal edges are transversely opposed to each other. Forming the assembly by folding the edges of the main film is advantageous in that the number of components involved in the manufacturing process may be reduced. In other words, there is no need for handling the sleeve films as separate components. Instead, the sleeve films may be provided by adding a folding step to the process rather than adding separate films. A further advantage is that the fold line may serve as a joint between the sleeve films and the main film, thereby reducing the welding. With this, it may suffice to weld together the sleeve films and the main film along the underarm seam, i.e., the seam running from the armpit to the arm opening of the sleeve.
Hence, the method may comprise welding the first/second sleeve film to the main film to form the underarm seam, whereas the first/second sleeve film is already joined to the main film along shoulder to arm seam. The sleeve opening and the front portion of the garment may then be defined by perforating or cutting the assembly.
Should the first/second sleeve films not be formed by folding the main film but provided as separate films arranged on the main film, the films may also be joined together along an upper arm seam, i.e., the shoulder to sleeve opening seam.
According to an embodiment, the first one and the second one of the garments may be arranged adjacent to each other in the longitudinal direction. Preferably, the opening of the sleeve of a first one of the garments is arranged next to the front portion of a second one of the garments such that both the arm opening and the front portion can be defined by a single, common cut or perforated line. With this arrangement the waste may be reduced.
The inventive concept allows for a continuous, on-the-fly production of garments that are arranged in an alternating pattern in the assembly. With every second garment having the sleeves formed from the first sleeve film and the intermediate garments having the sleeves formed from the second sleeve film, an alternating, compact and relatively surface-effective layout can be obtained, allowing for reduced waste of material.
According to an embodiment, the remaining material between consecutive garments may be cut out and removed from the assembly. The remaining assembly may thus comprise only garments arranged side by side in an alternating manner, wherein the sleeve opening of a first garment is attached to the side of the body of a neighbouring garment. Removing the remaining material between the garments may reduce the waste at the user's end and allow for the array of garments to be rolled up and stored in a roll having a reduced weight.
Alternatively, the garments may be separated from each. This allows for the garments to be arranged in a stack rather than on a roll.
In an embodiment, the assembly comprising a plurality of garments may be re-reeled into a roll. Optionally, the assembly may be folded along the longitudinal direction prior to being formed into a roll. The resulting product may thus be protective gowns on roll, which facilitates handling and transport and allows for an improved user experience.
It is noted that embodiments of the invention relate to all possible combination of features recited in the claims. Further, it will be appreciated that the various embodiments described for the manufacturing method according to the first aspect are all combinable with embodiments of the product and system as defined in the second and third aspects.
These and other aspects will now be described in more detail with reference to the appended drawing showing embodiments, in which:
All the figures are schematic, not necessarily to scale, and generally only show parts which are necessary in order to elucidate the embodiments, wherein other parts may be omitted or merely suggested. Like reference numerals refer to like elements throughout the description.
The present aspects will now be described more fully hereinafter with reference to the accompanying drawing, in which currently preferred embodiment are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for thoroughness and completeness, and to fully convey the scope of the present aspects to the skilled person.
A main film 100 and a first and second sleeve film 110, 120 according to an embodiment will be described with reference to
The main film 100 may comprise two transversely opposing edge portions 101, 102, or longitudinal portions 101, 102, that have a length extension in the longitudinal direction F and are separated by a centre line C extending along the longitudinal direction F. Further, the main film 100 has an upper surface and an opposing lower surface, facing away from the upper surface.
As indicated in the present figure, a first sleeve film 110 and, preferably, a second sleeve film 120 may be arranged on the upper surface of the main film 100. The sleeve films 110, 120 may have a similar configuration as the main film 100, with the difference that the sleeve films 110, 120 may have a width that is smaller than the width of the main film 100 (as seen in a direction orthogonal to the longitudinal direction F). In the present example, each of the sleeve films 110, 120 may have a width that is less than half the width of the main film 100 such that they, when arranged side by side on the main film 100, do not cover the full width of the main film 100. The first sleeve film 110 may be arranged on or above the first edge portion 110 and the second sleeve film 120 may be arranged on or above the second edge portion 120. As shown in
The sleeve films 110, 120 may be formed of the same type of material as the main film 100, i.e. for example polyethylene or polylactic acid. In in the present example, the sleeve films 110, 120 are formed from the main film 100 by folding the longitudinal edges of the main film 100 onto the upper surface of the main film 100. Thus, the longitudinal edges indicated in
In case the sleeve films 110, 120 are formed by a folded portion of the main film 100, it may suffice to join the sleeve films 110, 120 to the main film 100 along a portion of the outline 13, 23 defining the underarm seam. Due to the folding, the sleeve film 110, 120 is already joined to the main film 100 along the shoulder to arm seam. However, should the sleeve film 110, 120 be provided as a separate item, i.e., not be formed from a folded part of the main film 100, it may be necessary to weld the sleeve film 110, 120 to the main film 100 along the shoulder to arm seam as well.
According to the embodiment illustrated in
The neck openings 14, 24 may be formed by cutting out a corresponding portion of the assembly. It is appreciated that the neck opening 14, 24 in an alternative example may be defined by perforating the assembly along an outline of the neck opening 14, 24 so as to allow for the material of the neck opening 14, 24 to be removed at a later stage, for example by a user.
The sleeve films 110, 120 may be arranged on the upper surface of the main film 100 by means of a downstream assembling mechanism 220. The assembling mechanism 220 may for example comprise a guiding means for aligning the first sleeve film 110 with the first transversely opposing edge 101 of the main film 100 and the second sleeve film 120 with the second transversely opposing edge 102 of the main 100. The resulting assembly may be similar to the structure shown in
The system 200 may further comprise a welding tool 230 configured to provide the welds 13, 23 defining the sleeves 11, 21 of the garments 10, 20. The welding tool 230 may for example comprise a rotating cylinder selectively applying heat to regions of the passing assembly, the regions extending along an outline of the sleeves 11, 12 corresponding to e.g. the underarm seam and the shoulder to arm seam.
The assembly may also pass through a cutting tool 240 for cutting out the neck openings 14, 24. The cutting tool 240 may for example comprise a rotating cylinder configured to punch out portions of the assembly that define the neck openings 14, 24. Additionally, the cutting tool 240 may be further configured to cut out also the regions of the assembly arranged between two neighbouring garments 10, 20. Thus, the result as the assembly passes through the cutting tool 240 may be a plurality of garments 10, 20 that are joined to each other at the interface between the arm openings and the lower parts of the front portions 12, 22.
A punching tool 250 may be added to the system 200 so as to provide a perforated outline defining the arm openings 18, 28 of the sleeves 11, 21. The punching tool 250 may be similarly configured as the cutting tool 240, and hence comprise a rotating cylinder for cutting through the assembly as it passes by.
It should be noted that the above cutting tool 240 and punching tool 250 may be provided as two structurally distinct devices along the processing line, or as an integrated tool capable of defining both the neck openings 14, 24 as well as the outline of the garments 10, 20. Thus, the cutting tool 240 and the punching tool 250 may refer to a single tool, such as a punching tool, for cutting out the neck openings 14, 24 as well as the remaining portions between the garments 10, 20. Further, such a tool may also be configured to either perforate the assembly along the arm opening 18, 28 or to cut through the assembly so as to separate the garments 10, 20 from each other.
The resulting product may then be fed to a finishing mechanism 260 at which it for example may be folded along the centre line and re-reeled into an output roll.
A difference to the embodiment discussed above in connection with
The person skilled in the art realises that the present invention by no means is limited to the preferred embodiments described above. For example, the welding and punching may be performed in different order, in which the outline of the garments for example is defined by perforating or punching the assembly prior to the welding of the seams, or in a same processing step. Further, the outline may in addition to welding of the sleeves be defined by perforations only, by cutting only, or a combination of both. Additionally, variations to the disclosed embodiments can be understood and effected by those skilled in the art in practising the claimed invention, from a study of the drawings, the disclosure, and the appended claims. In the claims, the word “comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage. Any reference signs in the claims should not be construed as limiting the scope.
| Number | Date | Country | Kind |
|---|---|---|---|
| 20200137.6 | Oct 2020 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2021/076907 | 9/30/2021 | WO |
