The present invention relates to a method and an apparatus for manufacturing a cover layer, which is made from a fleece material or a nonwoven fabric, for an innerspring unit comprising a plurality of pocketed or encased springs as well as a corresponding innerspring unit.
Innerspring units are typically used in innerspring mattresses. Conventional innerspring configurations include innerspring units in which coil springs are encased in welded pockets of a fabric material. Individual strings of such pocketed springs are connected by adhesive to one another so as to form an array of a plurality of pocketed springs arranged in rows and columns.
Such innerspring units may be manufactured by innerspring unit assembly machines which make innerspring units from endless strings of pocketed springs.
Conventional innerspring units also include cover layer at their top and bottom surfaces, which are made from a fleece material and are glued to the innerspring unit. However, the cover layers typically have an influence on the characteristics of the respective innerspring unit as the cover layers physically connect the individual springs at the top and bottom ends of the corresponding pockets of the innerspring unit so that the response of each spring is dependent on the surrounding or adjacent springs.
Therefore, it is an object of the present invention to provide a manufacturing method and a manufacturing apparatus, which allow to manufacture a cover layer for an innerspring unit having a design such that the response of at least most of the individual springs of the innerspring unit is independent from the adjacent springs once the cover layer has been attached to the innerspring unit. In particular, it is an object of the present invention to provide a manufacturing method and a manufacturing apparatus for the manufacture of a cover layer for an innerspring unit, which allow to produce the cover layer with a reduced amount of fleece material in a fully automated process, thereby reducing the manufacturing cost as well. Finally, it is also an object of the invention to provide an improved innerspring unit having the aforesaid characteristics.
According to an embodiment of the invention, a method of manufacturing a cover layer made from a fleece material for an innerspring unit is provided, which comprises supplying at least two longitudinal fleece webs, which extend substantially parallel in a longitudinal direction and are spaced from one another; and repeatedly attaching a transverse fleece web, which extends between the longitudinal fleece webs in a direction substantially perpendicular to the longitudinal direction, to the longitudinal fleece webs, the transverse fleece webs attached to the longitudinal fleece webs forming together with the longitudinal fleece webs a frame-like structure serving as the cover layer.
The longitudinal fleece webs may be supplied as endless longitudinal fleece webs, and by repeatedly cutting the longitudinal fleece webs a frame-like structure may be obtained, which is formed by two segments of the two longitudinal fleece webs and two successive transverse fleece webs attached to the two segments of the longitudinal fleece webs.
The step of attaching the transverse fleece web may comprise welding the transverse fleece web to each of the longitudinal fleece webs.
According to a further embodiment of the invention, the step of repeatedly attaching a transverse fleece web to the longitudinal fleece webs is carried out while the longitudinal fleece webs are conveyed in the longitudinal direction by a respective conveying device. Furthermore, the step of repeatedly attaching a transverse fleece web may comprises holding the transverse fleece web with a holding device and positioning the transverse fleece web with the holding device at the longitudinal fleece webs, attaching the transverse fleece web adjacent to a first transverse edge of the transverse fleece web to the longitudinal fleece webs, releasing the holding device so that the transverse fleece web attached to the longitudinal fleece webs is conveyed together with the longitudinal fleece webs, cutting the transverse fleece web to a desired width in the longitudinal direction to obtain a second transverse edge of the transverse fleece web, and attaching the transverse fleece web adjacent to the second transverse edge to the longitudinal fleece webs.
The method may further comprise supplying a fleece material from a storage device and repeatedly cutting the fleece material to obtain the transverse fleece web.
The method may be performed as a fully automated process in an innerspring unit assembly machine and may in particular be part of a method for manufacturing an innerspring unit comprising a plurality of pocketed springs, in which the cover layer is attached to a surface of a body comprising a plurality of pocketed springs.
According to an embodiment, the manufacturing of the cover layer may be carried out at a first automated station of an innerspring unit assembly machine, while the attaching of the cover layer to the body comprising the plurality of pocketed springs may be carried out at a second automated station of the innerspring unit assembly machine. The first and second automated stations may be located apart from each other, and a conveying device may be provided for conveying the cover layer by conveying the longitudinal fleece webs from the first station to the second station.
The innerspring unit may be manufactured by manufacturing a first cover layer and a second cover layer and attaching the first cover layer to a top surface of the body comprising the plurality of pocketed springs and the second cover layer to a bottom surface of the body comprising the plurality of pocketed springs.
According to a further embodiment of the invention, the cover layer of the fleece material is manufactured as the frame-like structure comprising a closed edge area where fleece material of the longitudinal fleece webs or fleece material of the transverse fleece webs is present and a middle area surrounded by the edge area, where no fleece material is present.
By omitting fleece material in the middle of the cover layer and in the middle of the corresponding innerspring unit, the response of the individual pocketed springs at least in the middle area of the innerspring unit is independent of the adjacent or surrounding pocketed springs. In addition, fleece material can be saved, thereby reducing the manufacturing cost of the cover layer and of the innerspring unit.
According to alternative embodiments of the invention, the frame-like structure may be provided for only one of the two cover layers, while the respective other cover layer may include the fleece material over its entire area. In addition, the frame-like structure may comprise one or more additional transverse fleece connections between the longitudinal fleece webs.
According to another embodiment of the invention, the longitudinal fleece webs and the transverse fleece webs are attached to each other to form a semi-finished fleece product which is then transported to the core or the body of the innerspring unit, where it can be positioned above or underneath the body of the innerspring unit and attached thereto.
In order to allow a fully automated implementation of the method, according to a further embodiment, the longitudinal fleece webs are used to transport the semi-finished fleece product to the station where it can be attached or glued to the body of the innerspring unit. Preferably, the transverse webs are attached to the longitudinal webs as close as possible to the place where the semi-finished fleece product is attached to the body of the innerspring unit, so as to reduce the risk that, during the transport of the semi-finished fleece product, wrinkles are formed in the fleece webs or the fleece webs are deflected out of the conveying direction. This risk is also minimized by the use of the longitudinal fleece webs as conveyor means for the transverse webs.
According to a further embodiment, an apparatus for manufacturing a cover layer of a fleece material for an innerspring unit is provided, which comprises a supply device for supplying at least two longitudinal fleece webs such that they extend substantially parallel in a longitudinal direction and are spaced from one another, and an attachment device for repeatedly attaching a transverse fleece web, which extends between the longitudinal fleece webs in a direction substantially perpendicular to the longitudinal direction, to the longitudinal fleece webs. The transverse fleece webs attached to the longitudinal fleece webs form together with the longitudinal fleece webs a frame-like structure serving as the cover layer.
The supply device may be configured to supply the longitudinal fleece webs as endless longitudinal fleece webs, and the apparatus may further comprise a cutting device for repeatedly cutting the longitudinal fleece webs to repeatedly obtain a frame-like structure formed by two segments of the two longitudinal fleece webs and two successive transverse fleece webs attached to the two segments of the longitudinal fleece webs.
According to a further embodiment, the attachment device may comprise a welding device for welding the transverse fleece web to each of the longitudinal fleece webs.
In addition, the attachment device may comprise a holding device for holding the transverse fleece web and positioning the transverse fleece web with the holding device at the longitudinal fleece webs, an attachment unit for attaching the transverse fleece web in an area adjacent to a first transverse edge of the transverse fleece web to the longitudinal fleece webs, a control unit for releasing the holding device so that the transverse fleece web attached to the longitudinal fleece webs is conveyed together with the longitudinal fleece webs, and a cutting device for cutting the transverse fleece web to a desired width in the longitudinal direction to obtain a second transverse edge of the transverse fleece web. The attachment unit may also be configured to attach the transverse fleece web in an area adjacent to the second transverse edge to the longitudinal fleece webs.
According to another embodiment, a conveyor device may be provided for conveying the longitudinal fleece webs in the longitudinal direction, and the attachment device may be configured to repeatedly attach a transverse fleece web to the longitudinal fleece webs while the longitudinal fleece webs are conveyed by the respective conveying device.
The apparatus may also comprise a storage device for supplying a fleece material, and a cutting device may be provided for repeatedly cutting the fleece material to obtain the transverse fleece webs or segments.
According to an embodiment, a control unit is provided to control the apparatus to manufacture the cover layer in a fully automated process, so that the control unit correspondingly controls and coordinates the functionalities of the individual components of the apparatus which may be part of an innerspring unit assembly machine.
According to a further embodiment, an innerspring unit is provided, which comprises a body or core comprising a plurality of pocketed springs, and at least one cover layer of a fleece material attached to a surface of the body comprising the plurality of springs, wherein the cover layer of the fleece material is manufactured as a frame-like structure comprising a closed edge area where the fleece material is present and a middle area surrounded by the edge area where no fleece material is present.
A first cover layer may be attached to a top surface of the body comprising the plurality of springs, while a second cover layer may be attached to a bottom surface of the body comprising the plurality of springs.
According to a further embodiment, the innerspring unit may be manufactured by the method and the apparatus according to the aforesaid embodiments.
In the following, embodiments of the invention will be described in detail with reference to the accompanying drawings.
The innerspring unit 20 shown in
Although not shown in
The innerspring unit assembly machine 30 shown in
The fleece webs provided by the storage and supply device 31 are supplied to an apparatus 32 for the manufacturing of a fleece cover layer, for example the fleece cover layer 23 shown in
The cover layer thus manufactured by the manufacturing apparatus 32 is supplied to a station 34 which in addition receives pocketed springs from a pocketed spring storage and supply device 33. In particular, the pocketed spring storage and supply device 33 may provide an endless row of pocketed springs to the station 34 where the endless row of pocketed springs is cut into individual strings of pocketed springs which are then assembled to an innerspring unit, e.g., an innerspring unit 20 of the type shown in
The innerspring unit thus assembled and manufactured by the station 34 is output at 35 as the final product of the innerspring unit assembly machine 30.
The innerspring unit assembly machine 30 manufactures the innerspring unit in a fully automated process. The operation of each of the stations 31 to 35 of the innerspring unit assembly machine 30 is computer-controlled and coordinated by one or more control units.
The fleece cover layer manufacturing apparatus 32 has a section for the manufacturing of a top fleece cover layer and a separate section for the manufacturing of a bottom fleece cover layer. The structure and the functionality of both manufacturing sections are substantially similar, so that in the following only the configuration of the lower section for the manufacturing of the lower fleece cover layer will be described, which however likewise applies to the configuration of the upper section for the manufacturing of the upper fleece cover layer.
As indicated in
As also indicated in
As will be discussed in the following in more detail, the attachment device shown in
The operation of the attachment device shown in
In
In the embodiment shown in
When the transverse fleece web 27 has reached a desired position with respect to the longitudinal fleece webs 24, 25, which corresponds to a desired width of the transverse fleece web 27 in the conveying direction of the transverse webs 24, 25, the cutting device 5 is operated to cut the transverse fleece web 27 to the desired width.
In the state shown in
The transverse fleece web segments 26, 27 shown in
The manufacturing method performed by the manufacturing apparatus 32 shown in
The operation and functionality of the attachment device of the manufacturing apparatus 32 will now also be illustrated with respect to
When the front edge of the transverse fleece web 27 reaches the position WH of the welding unit 4, the welding unit 4 is operated to weld the front edge of the transverse fleece web 27 to both longitudinal fleece webs 24, 25, as shown in
Thereafter, as explained above, the holding device 1-3 is opened to release the transverse fleece web 27, so that the transverse fleece web 27 can be conveyed along with the longitudinal fleece webs 24, 25 due to the attachment of its front edge to the longitudinal fleece webs 24, 25. In other words, the transverse fleece web 27 is drawn at its front edge by the longitudinal fleece webs 24, 25 in the conveying direction.
When the transverse fleece web 27 has reached a predetermined position with respect to the cutting device 5, which corresponds to a desired width of the transverse fleece web 27 in the longitudinal direction of the longitudinal fleece webs 24, 25 (which corresponds to the longitudinal direction of the corresponding cover layer 23, see
Before cutting the transverse fleece web, the holding device 1-3 is activated again to clamp the transverse fleece web at a position which—in the running direction of the longitudinal fleece webs 24, 25—is after the position C of the cutting unit 5 and to avoid that the front edge of the remaining transverse fleece web material gets lost.
At this stage of the process, the free rear end of the transverse fleece web segment 27 is not yet attached to the longitudinal fleece webs 24, 25.
However, as shown in
The entire process may then be repeated with the next transverse fleece web segment 28, as shown in
The position WH of the welding device 4 may be variable, so that the width of the welding unit 4 may be adjustable to process different fleece widths. Furthermore, the position C of the cutting device 5 may be variable so as to be able to cut transverse web segments having a variable width in the longitudinal direction of the longitudinal fleece webs 24, 25.
The transverse fleece web segments 26, 27 shown in
As shown in
As shown in
This application is a Divisional of U.S. patent application Ser. No. 16/620,013 filed Dec. 6, 2019 (pending), which is a U.S. National phase of International Patent Application Serial No. PCT/EP2017/063836 filed Jun. 7, 2017 (expired), the disclosures of which are incorporated by reference herein.
Number | Date | Country | |
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Parent | 16620013 | Dec 2019 | US |
Child | 17689297 | US |