The present invention relates to the manufacture of bed mattresses and foundations (e.g., a box spring or similar structure providing a resilient, rigid or semi-rigid platform for placement of a mattress thereon), and more particularly to the manufacture of a quilted border loop sidewall panel for incorporation into such a bed component, as well as the bed component thus formed.
In the bedding marketplace today, a wide variety of mattresses are offered within a wide range of price points. In addition to offering various internal constructions designed to increase comfort level for individual sleepers, the level of finish of the mattress and associated bed components (e.g., foundation) has increased. A luxurious custom look and feel are sought-after characteristics for which consumers are often willing to pay a premium. To this end, costlier premium fabrics and quilting materials, and decorative components, e.g., tufting, may be used. Manufacturers, while wishing to satisfy the consumer demand for premium bedding products, also wish to contain production costs as much as possible. At one end of the spectrum, a mattress having a custom-stitched or knit outer casing may be deemed highly desirable but such a construction may be cost prohibitive for most consumers.
Seeking to strike an optimal balance between high-end look and feel on one hand and attractive pricing on the other, bedding mattress companies have focused their efforts largely on enhancement of the top sleeping surface of the mattress. This makes sense from the stand-point that the mattress's top surface is the primary surface that is visible to a consumer/sleeper (with bed coverings removed) and with which the consumer/sleeper comes into contact. As a result, while extravagance may be lavished upon the top surface of the mattress in order to provide a visual and tactile market differentiator—and be justifiable from a cost perspective—the same may not be the case for the bottom and border wall surfaces of the mattress.
For the wall surfaces, and often for the top surface of the mattress as well, a quilted material having a repeating quilt pattern stitched with a multi-needle quilting machines has provided an attractive solution. Such machines, e.g., the Mammut VMK multi-needle quilter, are programmable with a wide range of stock patterns provided by the manufacturer, Emil Stutznacker GmbH & Co. KG. Those patterns may also be modified and new patterns may be developed by a user, allowing attractive, distinctive quilting patterns to be efficiently implemented in a large-scale production run. Yet, as regards the quilting of the material that will form the border wall covering of the mattress, the full potential for these machines has not been realized.
To date, and insofar as the applicant is aware, the use of such machines for the production of mattress border loop sidewall panels has been confined to the quilting of material using a repeating pattern that repeats in periodic fashion along the entire length of the sidewall panel, and wrapping around the entire perimeter of the mattress of which it ultimately becomes a part. Typical patterns are set forth, e.g., in a book of “Standard Designs, VMK CNC 601,” supplied by the machine manufacturer, Emil Stutznacker GmbH & Co. KG. These patterns are for general use in programming its machines to carry out multi-needle quilting of material for various uses.
While highly efficient, the process can tend to produce a border loop wall of the mattress having limited distinctness and interest, revealing the nature of the mass production process used to make it. Particularly in today's marketplace, distinctness of design suggesting quality, craftsmanship, style and a high-end construction, can carry significant value. A process that would allow such a look and feel to be achieved while keeping manufacturing costs relatively low, with the efficiency realizable being close to that otherwise achievable in a mass production process, would represent a significant advance in the field.
Additional detail is now provided concerning known multi-needle quilting machines. This is followed by a discussion of known methods of using such machines in the production of the quilted border loop sidewall panel component of a mattress/foundation.
A known-type chain stitch multi-needle quilting machine is depicted in
As shown, the quilting material includes an upper layer 6, for example fabric, ticking or the like, which is pulled off a storage roll 5 and guided below an operator catwalk 7 around deflection rollers 8, 9, 10, 11 and 12 into the area where the stitching occurs, that is into the area between pressure foot 3 and the needle plate or quilting material support 13 of the quilting unit.
The upper layer 6 of the quilting material may consist of fabric material, e.g., woven, knit, or non-woven. In addition, the quilting material may comprise a further layer 15 of soft elastically compressible material, for example foam, dispensed from the storage roll 14. For the feed of this layer, guiding or deflection rolls 16, 17, 18 and 19 are provided.
The layer 15 is quilted in the quilting unit with the upper layer of inelastic material and another, lower, layer 21, and is taken off the quilting unit as finished quilting material 28 in the direction of arrow 29, whereby the feeding of layer 6, 15, and 21 is provided by the force acting on the finished quilting material 28. Within the quilting unit, the finished quilting material 28 passes a section with deflection or guiding rolls 25, 26 and 27 providing, among other things, a tightening of the quilting material 28 in the exit section of the quilting unit.
The lower layer 21 that is pulled off a storage roll 20 is fed into the quilting unit via deflection or guiding rolls 22, 23 and 24, whereby the lower layer 21 according to
A support 30 is arranged opposite the deflection roll 12 with the distance to the outer circumference of the deflection roll 12 and the support 30 being adjustable. That is, either the deflection roll 12 is movable relative to the support 30 or the support 30 is movable relative to the deflection roll 12, or both. This serves to allow adjustment of the chain stitch multi-needle machine to layers 6 and 15 of different thickness. For example, the layer 15 may be considerably thicker than the layer 6. It is necessary that the deflection roll 12 act on the layers 6 and 15 with a certain pressure in order to supply the necessary frictional forces.
As seen in
As depicted in
In the next step, the quilting material 28 is incremented forward in the direction of arrow 29 before needle 31 is moved again from its highest position to its deepest position. At this moment, the looper returns to its initial position with a thread triangle being formed of the thread loop of the needle thread and the looper thread in which the needle 31 enters. In this way a double chain stitch is formed consisting of a needle thread lying on the upper side of the quilting material and penetrating the quilting material and a looper thread lying on the lower side of the quilting material.
As will be described in further detail later, the single needles 31 of a needle row 2 are moveably fixed on a needle bar 34 so that the needle bar 34 can be equipped with needles 31 positioned according to the desired pattern 32. The same applies for the loopers that are also movably fixed on the looper shaft 33. With certain known equipment (e.g., the Mammut VMK Select and VM7), a mechanism is provided for selectively starting and stopping the stitching carried out by a given needle, e.g., by lifting the needle, so as to permit the formation of closed and discontinuous stitch pattern elements. In this regard, for example, see Stutznaker U.S. Pat. No. 8,250,997.
A digital optical encoder, or other type of measuring instrument, for measuring the linear feed of the web through the nip of the rollers, may be attached to the shaft of one of the feed rollers. The encoder may provide an output signal supplied as an input to the programmable controller 50 diagrammatically depicted in
A pertains to the programmable patterns, the controller 50 may be provided with a product database 52 and a pattern program database 54. The product database 52 may contain, for example, a record for each product that the machine may be programmed to produce. The product database 52 may also identify a file in the pattern program database 54, which contains the step-by-step positioning information to be sent by the controller 50 to the positioning drives. Such an arrangement, is known and generally described, e.g., in aforementioned Frazer et al. U.S. Pat. No. 6,026,756. Pattern programs may be selected, developed, stored and modified through use of a user interface 53.
As indicated, one known application of such multi-needle quilting equipment is in the production of panels of quilted material for use in forming the panels of a bed mattress or foundation. As a sub-category of that is a process for manufacturing an elongated strip of quilted material (sidewall panel) that will be used to form the perimeter wall of the mattress/foundation. Such a process, and an equipment configuration for carrying out such a process, as have been used by the applicant, are now described.
A machine used by the applicant is the Mammut VMK multi-needle quilting machine available from Emil Stutznacker GmbH & Co. KG. The Mammut VMK, as implemented with ancillary equipment configured for production of quilted mattress border loop sidewall panels, operates on basic principles as outlined above. Further details are provided below.
With reference to
Depicted in
Referring now to
Also visible in
In
Generally, preparatory to making a mattress, the length-wise edges of the rolled border loop sidewall panel material are closed by serging. Then, a suitable length of the quilted border loop material is cut from the roll in a length corresponding to a perimeter of the mattress to be formed (ordinarily of a rectangular shape), allowing several extra inches for the seam that will allow for attachment of the ends to form a closed loop. At this point, the border loop sidewall panel may then be sewn along its bottom edge to the edge of a rectangular bottom panel of material (which may or may not be quilted), that will serve as the bottom surface of the mattress. This stitching may be done with decorative cording to enhance the aesthetics. This forms an open-top rectangular fabric box within which the various internal components of the mattress may be assembled. Once the internal components (e.g., springs and/or foam layers) are assembled within the box, a second rectangular panel of material (typically, but not necessarily, quilted) may be similarly attached along its edge to the upper edge of the border loop sidewall panel, along its entire perimeter, in order to close the box structure and complete the mattress.
As a specific example of a programmed pattern useable in the production of border loop sidewall panels for mattress production, reference is made to
The illustrated pattern length of 304 mm (Y) with 52 mm of side-to-side movement (X) is typical for a border loop pattern. These dimensions are indicated in the screen shot by the largest value given for the Y coordinate (304), and the difference between the largest and smallest values of the X coordinate (26 and −26), respectively, as seen in the list of program steps appearing in sub-window 112. The shape of the line segments are also specified using the programming software, e.g., straight, arc, circle, using the illustrated buttons 118. The type of segment is accessed through the buttons, while the parameters of the segment (e.g., length, direction, radius, endpoint) are entered as numerical values. This may be done from a separate parameters screen, along with the input of other details. For a trial run, the machine can be set to run the specified program pattern a single time. For a production run, the number of repeats of the specified program pattern may be set to continuous, whereby the program pattern will repeat over and over until stopped by an operator or due to an operating condition. In this manner, the program pattern may be repeated a sufficient number of times (and by each of the needles mounted on the operative needle bar(s)) to cover the length of one or more (typically many) border loop sidewall panels, both one after the other, and side-by-side. After stitching, the material will be slit lengthwise to form multiple individual strips of material. And ultimately, these strips will be cut into segments to form border loop sidewall panels in lengths suitable for one or more mattress sizes.
In the illustrated “Onion” stitch quilting example, the same stitch path/program would be executed by a second set of needles mounted on a second needle bar spaced in front of or behind (but ganged with) the first needle bar by one-half (½) of the length of the half-pattern shown in
Thus, with some patterns comprising repeating closed elements, like the illustrated Onion pattern, or, e.g., a diamond pattern (as generally depicted in
In other designs, such as a design consisting of parallel stitch lines forming parallel channels (rather than closed shapes), use of a single needle bar is all that would be required. In this case, multiple needles would be mounted along the single needle bar with spacings corresponding to the desired spacings of the channel-forming stitch lines (within each width of border loop sidewall panel). With the lines running straight continuously along their length, the lines may be set to have a minimum programmed pattern repeat length of one or a few stitches. The stitch length is a determined by the customer and the application. Typically, in a mattress sidewall application, the stitch length is 4-5 mm it but could go as low as 1 mm and as high as 10-12 mm) In an exemplary case where six stitches are provided per inch, the program pattern repeat length could be set to 3-4 inches. The pattern would be repeated over and over a large number of times to form the complete lines of stitching along the border loop sidewall panels.
More generally, as regards the known use of a computer numerically controlled (CNC) multi-needle quilting machine (e.g., the Mammut VMK) for the production of a quilted border loop sidewall panel to be used in a mattress (or foundation), the patterns implemented are repeating patterns that repeat in periodic fashion along the length of the border loop sidewall panel. The repeat lengths are relatively short in relation to the perimeter length of the mattress of which they will ultimately form a part, as well as each mattress side or end wall. As such, the starting and ending points of the pattern repeats of any border loop sidewall panel cut from a roll are unimportant; the same is true of the relative positioning of the repeating pattern elements in relation to particular regions or parts of the mattress. Otherwise stated, the overall appearance of the mattress border wall is essentially agnostic to where the pattern breaks at the starting and ending points of the sidewall panel (which are ultimately joined to each other to form the closed border loop). The overall appearance is also agnostic to where any particular element of the quilting pattern falls in relation to particular regions of the completed mattress, e.g., the sidewalls, end walls or corners of the mattress, or pattern elements on the top surface of the mattress. This inconsequentiality of sidewall panel cut and attachment positioning allows for some efficiency in the manufacture, incentivizing the use of such repeating or continuous (e.g., straight channel) patterns for the quilted border loop sidewall panels used in mattress manufacture.
In some instances, handles may be tacked onto the border loop sidewall panel at selected positions along the sidewall panel (typically corresponding to the sides of the mattress). This is done after the quilt-stitching, and without regard to the positioning/repeat of the stitch patterning. Then, in the mattress manufacture, indicia are used to properly align the border loop sidewall panel to provide for placement of the handles at the desired locations along the mattress sides. Such placement does not provide, however, any predetermined placement of the quilt stitch pattern elements of the border loop sidewall panel along the mattress walls, or placement of the handles in relation to the stitch pattern elements.
Summary of Selected Inventive Aspects
In view of the foregoing, it is an object of the invention to provide a means for achieving, in a bed mattress or foundation, a higher level of distinctness of design suggesting quality, craftsmanship, style and a high-end construction, while maintaining manufacturing costs relatively low.
This and other objects may be achieved in accordance with the invention which, in a first aspect, is embodied in a method of making a quilted border loop sidewall panel of material for a bed mattress or foundation, wherein plural layers of material are fed from one or more rolls through a programmable multi-needle quilting machine in registry with each other and are pressed and stitched together to form a quilted material. The plural layers of material are also controllably moveable laterally with respect to a material feed direction and at least one needle bar-mounted needle of the machine. This allows, during stitching, stitch pattern elements to be formed which extend in both the material feed direction and laterally thereto.
The method includes the step of executing on a controller of the multi-needle quilting machine a program to stitch one or more lines of stitching following a programmed stitch pattern. The stitch pattern has a repeat length set equal to or greater than a length of a side or end of said mattress or foundation. The stitch pattern includes a “prime pattern” comprising plural of the stitch pattern elements arranged to provide aperiodic pattern element variation along its length, which length is also equal to or greater than the length of the side or end of the mattress or foundation.
Stitching of the plural layers of material is carried out on the multi-needle quilting machine in accordance with the programming, in order to form a quilted material comprising the prime pattern.
The method also includes the step of cutting the quilted material into segments of predetermined length corresponding to a perimeter length of said mattress or foundation and comprising the prime pattern, to thus form the quilted border loop sidewall panel of material with the pattern elements arranged at predetermined positions therealong.
The quilted border loop sidewall panel is configured to form part of the mattress or foundation with predetermined registry of the pattern elements with selected other portions of the mattress or foundation. In this way, a desired, reproducible aesthetic effect may be achieved with the aperiodic pattern variation appearing along the side or end of the mattress or foundation.
In a related aspect, the invention is embodied in a quilted border loop sidewall panel for a bed mattress or foundation, made by the method as aforesaid.
In a further related aspect, the invention is embodied in a method of making a bed mattress or foundation comprising: providing a quilted border loop sidewall panel made according to the method as aforesaid; and incorporating the quilted border loop sidewall panel as a border wall of the mattress or foundation. In yet another aspect, the invention is embodied in a bed mattress or foundation made by this method.
In still another aspect, the invention is embodied in a method of making multiple quilted border loop sidewall panels of material for bed mattresses or foundations in different sizes. Therein, plural layers of material are fed from one or more rolls through a programmable multi-needle quilting machine in registry with each other and are pressed and stitched together to form a quilted material. The plural layers of material are controllably moveable laterally with respect to a material feed direction and at least one needle bar-mounted needle of the machine in order to form, during stitching, stitch pattern elements which extend in both the material feed direction and laterally thereto.
The method includes the step of executing on a controller of the multi-needle quilting machine a first program to stitch one or more lines of stitching following a first programmed stitch pattern. The first programmed stitch pattern has a repeat length set equal to or greater than a length of a side or end of a first mattress or foundation of a first size, and the first programmed stitch pattern includes a first prime pattern comprising plural of the stitch pattern elements arranged to provide aperiodic pattern element variation along its length, which length is equal to or greater than the length of the side or end of the first mattress or foundation.
Stitching of the plural layers of material on the multi-needle quilting machine is carried out in accordance with the first program, in order to form a quilted material comprising the prime pattern.
The method further includes executing on the controller of the multi-needle quilting machine a second program to stitch one or more lines of stitching following a second programmed stitch pattern. The second programmed stitch pattern has a repeat length set equal to or greater than a length of a side or end of a second mattress or foundation having a size different from the first size. The second programmed stitch pattern includes a second prime pattern comprising plural of the stitch pattern elements arranged to provide aperiodic pattern element variation along its length, which length is equal to or greater than the length of the side or end of the second mattress or foundation. The second prime pattern emulates the first prime pattern, while being scaled to the mattress or foundation of the second size.
Further in the method, the quilted material is cut into segments of predetermined lengths corresponding to the perimeter lengths of the mattress or foundation of the first size and the second side and comprising, respectively, the first and second prime patterns. In this manner, formed is a first quilted border loop sidewall panel of material of a first length with the pattern elements arranged at predetermined positions therealong, and a second quilted border loop sidewall panel of material of a second length with the pattern elements arranged at predetermined positions therealong.
The first and second quilted border loop sidewall panels are configured to form part of a mattress or foundation of the first and second sizes, respectively, with predetermined registry of the pattern elements with selected other portions of the respective mattress or foundation, to thus form a desired, reproducible aesthetic effect with the aperiodic pattern variation appearing along the side or end of the respective mattress or foundation.
The above and other objects, features, aspects and advantages of the present invention will be readily apparent and fully understood from the following detailed description of preferred embodiments, taken in connection with the appended drawings.
With reference to
Generally speaking, border loop quilt patterns in accordance with the invention may be configured to visually accentuate particular mattress parts, e.g., the sidewalls or corners thereof. As an example, in the embodiment shown in
As seen in
Collectively speaking, in each of the example embodiments of
In the embodiment of
Referring now to
Further, it will be appreciated from
A mattress 150′ representing a variation on the embodiments of
As is evident from these views, each illustrated stitch pattern has a repeat length corresponding to (approximately equal to) the length around the perimeter of the mattress, i.e., perimeter length. Further, the stitch pattern is a “prime pattern” comprising plural stitch pattern elements arranged to provide aperiodic pattern element variation along the repeat length. And as with the first embodiment, as shown in
As is evident from these views, each illustrated stitch pattern has a repeat length corresponding to (approximately equal to) the length around the perimeter of the mattress, i.e., perimeter length. Further, the stitch pattern is a “prime pattern” comprising plural stitch pattern elements arranged to provide aperiodic pattern element variation along the repeat length. And as with the first embodiment, as shown in
Some further explanation and examples will make the “prime pattern” concept clearer. Referring to the embodiments of
But in none of these cases does the pattern as a whole consist of identical periodically repeating elements. As most evident from
In other embodiments, the program pattern length and/or “prime pattern” length, while being much longer than what is conventional, may be something short of the entire length of the border loop/mattress perimeter. For example, the prime pattern may be one-half of the length of the perimeter of the mattress. This is the case in an embodiment representing another variation on the embodiment of
On the other hand, decorative or aesthetic patterning at the “head” end of the bed might be deemed unimportant, since it won't be visible on installation due to the presence of a wall or headboard. Accordingly, it could be decided to include some differentiated distinctive patterning at the foot end and the sides, but not at the head end. This is the case with each of the illustrative embodiments of
In accordance with an aspect of the invention, the prime pattern length (and the corresponding programmed pattern repeat of the quilting machine) preferably will be at least equal to or greater than an entire length of an end wall or a sidewall of the mattress, to thus allow formation of a desired distinctive aesthetic effect through registry of pattern elements with particular corresponding parts of the mattress. An illustrative “prime pattern” 162 having a length equal to the length of a sidewall of the mattress is depicted in
Such a border loop sidewall panel could be stitched with the programmed pattern repeat length set equal to the prime pattern length, in which case the pattern would be carried out a total of four times to complete the border loop sidewall panel. Alternatively, the programmed pattern repeat could be set equal to 2× or 4× the prime pattern length (with the prime pattern being repeated within the programmed pattern repeat length), in which cases completion of the border loop sidewall panel would be accomplished after running the programmed pattern a total of two times or one time, respectively.
A process for making the inventive border loop sidewall panels is now further described. As in the conventional production process discussed in the Background section, plural layers of material are fed from one or more rolls through a programmable multi-needle quilting machine in registry with each other and are pressed and stitched together to form a quilted material. The plural layers of material are also controllably moveable laterally with respect to a material feed direction and at least one needle bar-mounted needle of the machine. This allows, during stitching, stitch pattern elements to be formed which extend in both the material feed direction and laterally thereto.
Suitable apparatus for carrying out the inventive processes may include known equipment arranged in a production line for the production of quilted border loop sidewall panels from rolls of material, as shown in
The method includes the step of executing on a controller of the multi-needle quilting machine a program to stitch one or more lines of stitching following a programmed stitch pattern. Diverging from the known process, in accordance with the invention, a program is written which specifies a stitch pattern that has a repeat length set equal to or greater than a length of a side or end of the mattress or foundation. The stitch pattern includes a “prime pattern” comprising plural of the stitch pattern elements arranged to provide aperiodic pattern element variation along its length. This length, like the repeat length, is equal to or greater than a length of the side or end of the mattress or foundation.
Stitching of the plural layers of material is carried out on the multi-needle quilting machine in accordance with the programming, in order to form a quilted material comprising the prime pattern.
As in the known method, following the stitching, the quilted material is slit lengthwise in order to form multiple strips of material 96 (three of seven strips labelled in
The quilted border loop sidewall panels thus produced are configured to form part of a mattress or foundation with predetermined registry of the pattern elements with selected other portions of the mattress or foundation. In this way, a desired, reproducible aesthetic effect may be achieved with the aperiodic pattern variation appearing along the side or end of the mattress or foundation.
Exemplary programming of a programmable multi-needle quilting machine in accordance with the invention is now described, with reference to
In contrast to the typical short programmed pattern repeats of the prior art (e.g., 300 mm), the illustrated programmed pattern has a length of 7366 mm (Y), with 51 mm of side-to-side movement (X). These dimensions are indicated in the screen shot by the largest value given for the Y coordinate (7366), and the difference between the largest and smallest values of the X coordinate (51 and 0), respectively, as seen in the list of program steps appearing in sub-window 212. The shape of the line segments are also specified using the programming software, e.g., straight, arc, circle, using the illustrated buttons 218. The type of segment may be accessed through the buttons, while the parameters of the segment (e.g., length, direction, radius, endpoint) may be entered as numerical values. This may be done from a separate parameters screen, along with the input of other details. For a trial run, the machine can be set to run the specified program pattern a single time. For a production run, the number of repeats of the specified program pattern may be set to continuous, whereby the program pattern will repeat over and over until stopped by an operator or due to an operating condition. In this manner, the programmed pattern may be repeated a sufficient number of times (and by each of the needles mounted on the operative needle bar(s)) to cover the length of one or more (typically many) border loop sidewall panels, both one after the other, and side-by-side. After stitching, the material will be slit lengthwise to form multiple individual strips of material, such as in the manner (and with the equipment) described in the Background section.
These strips are thereafter cut into segments corresponding to the length of the border loop sidewall panels under production, for one or more mattress sizes, which in this example also corresponds to the length of the programmed pattern repeat, as well as the length of the prime pattern presented therein. This cutting could be carried out manually by an operator or automatically by a cutting station operating under program control of the quilting machine during a production run. Alternatively, an entire roll of material could be run first, and that could be subsequently cut into segments corresponding to the border loop sidewall panels. In contrast to the conventional approach, this would involve identifying the established start and end points of each border loop sidewall panel as the cut points.
In the above example setting forth a program for quilt-stitching border loop sidewall panels for a Queen-size bed, the programmed pattern repeat was set on the high side, at 7366 mm, for testing purposes. With a 4″ seam allowance, the programmed pattern repeat lengths could be as follows:
Material, fill, pattern, and mattress design may warrant that adjustments be made to achieve the correct fit and appearance.
Notably, generally speaking, the programmed pattern length need not equal the actual repeat length of a given pattern (whether or not a “prime pattern”). This is because a programmed pattern may consist of a sub-pattern (which may be a “prime pattern”) that is repeated multiple times within the programmed pattern length. For example, as mentioned in the Background section, a stitch pattern consisting of a straight line may have a programmed pattern length equal to the length of a single stitch, and that may be repeated over and over. Alternatively, the programmed pattern could be specified as a line of relatively long length, such that the relatively long line is stitched for each repeat of the pattern. The result is the same either way—a long straight line. In the latter case, a program pattern consists solely of stitch pattern elements (straight line segments) which repeat identically within the programmed repeat.
In contrast, in accordance with the invention, to at least some degree, the programmed pattern comprises a pattern that varies aperiodically over its length such that itis not capable of replication by mere repeat of a sub-part of the pattern; this pattern includes pattern elements that do not repeat identically and periodically within a given length (which may be equal to or less than the programmed repeat length). Such a pattern may be considered a “prime pattern,” as previously described. And in accordance with an aspect of the invention, that prime pattern may have a length approximately equal to the perimeter length of the mattress (or foundation) into which the border loop sidewall panel will be incorporated. It is at least equal to the length of a side or end of the mattress (or foundation).
In a conventional process, a single production run of short pattern repeat border loop sidewall panel material may be used to form a roll of material that can be cut to different lengths for use in making like mattresses in different standard sizes, without regard to the start and end points of the pattern repeat. On the other hand, in accordance with an aspect of the invention, a production run of long pattern repeat “prime pattern” border loop sidewall panel material may include a switch-over from running a pattern program for one prime pattern and size of border loop sidewall panel to a second, and optionally further, pattern programs for producing one or more different sizes of border loop sidewall panels of like prime-patterning.
For example, a production run that would ordinarily produce 50 yard rolls of border loop sidewall panel material of short pattern repeat undifferentiated along the length of material may be adapted to form, consecutively, two or more of the different inventive border loop sidewall panels of
In such a process, the production line could provide for the cutting of the strips of material into the border loop sidewall panels of different lengths in correspondence to the switch-overs of the program pattern. This could be carried out manually by an operator or automatically by a cutting station operating under program control of the quilting machine during a production run. Alternatively, an entire roll of material could be run first, and that could be subsequently cut into segments corresponding to the border loop sidewall panels provided in different lengths (for different size mattresses).
In such a process, plural layers of material are fed from one or more rolls through a programmable multi-needle quilting machine in registry with each other and are pressed and stitched together to form a quilted material. The plural layers of material are controllably moveable laterally with respect to a material feed direction and at least one needle bar-mounted needle of the machine in order to form, during stitching, stitch pattern elements which extend in both the material feed direction and laterally thereto.
The method includes the step of executing on a controller of the multi-needle quilting machine a first program to stitch one or more lines of stitching following a first programmed stitch pattern. The first programmed stitch pattern has a repeat length set equal to or greater than a length of a side or end of a first mattress or foundation of a first size, and the first programmed stitch pattern includes a first prime pattern comprising plural of the stitch pattern elements arranged to provide aperiodic pattern element variation along its length. As with the repeat length, the prime pattern length is equal to or greater than the length of the side or end of the first mattress or foundation.
Stitching of the plural layers of material on the multi-needle quilting machine is carried out in accordance with the first program, in order to form a quilted material comprising the prime pattern.
The method further includes executing on the controller of the multi-needle quilting machine a second program to stitch one or more lines of stitching following a second programmed stitch pattern. The second programmed stitch pattern has a repeat length set equal to or greater than a length of a side or end of a second said mattress or foundation having a size different from the first size. The second programmed stitch pattern includes a second prime pattern comprising plural of the stitch pattern elements arranged to provide aperiodic pattern element variation along its length. As with the repeat length, the prime pattern length is equal to or greater than the length of the length of the side or end of the second mattress or foundation of the second size. The second prime pattern emulates the first prime pattern, while being scaled to the mattress or foundation of the second size.
Further in the method, the quilted material is cut into segments of predetermined lengths corresponding to the perimeter lengths of the mattress or foundation of the first size and the second size and comprising, respectively, the first and second prime patterns. In this manner, formed is a first quilted border loop sidewall panel of material of a first length with the pattern elements arranged at predetermined positions therealong, and a second quilted border loop sidewall panel of material of a second length with the pattern elements arranged at predetermined positions therealong.
The first and second quilted border loop sidewall panels are configured to form part of a mattress or foundation of the first and second sizes, respectively, with predetermined registry of the pattern elements with selected other portions of the respective mattress or foundation, to thus form a desired, reproducible aesthetic effect with said aperiodic pattern variation appearing along the side or end of the respective mattress or foundation.
Whereas in the prior art process, rolls of border loop sidewall panel material having a short repeat quilt pattern are typically shipped to a mattress manufacturer customer, and cut from the rolls as needed without any concern for where the cuts occur in relation to the undifferentiated pattern repeats, this is generally not the case in accordance with the inventive process. Rather, in accordance with an aspect of the invention, the border sidewall panels are to be cut from the slit, continuous strips of quilted material produced, at particular points corresponding to the end of one border loop sidewall panel and the start of another (which points will correspond to the start and end of each programmed pattern repeat, where the length of that repeat corresponds to the length of each border loop sidewall panel). These sidewall panels may be precut as part of the production line where the quilt-stitching is carried out, and then shipped to the customer in this form (e.g., as border loop sidewall panels individually folded-up or rolled). This can be seen as beneficial to the customer, since it would otherwise have to identify and cut the material from the roll at the appropriate points in order to form the individual border loop sidewall panels.
Generally, and as in the known process, after the quilt-stitching and preparatory to making a mattress, the length-wise edges of the rolled border loop sidewall panel material are closed by serging. With the inventive process, this may be done prior to cutting the roll of material into the individual border loop sidewall panels. Once this cutting has taken place, the ends of the sidewall panels (where typically several inches of extra length will have been provided for a seam) may be stitched together to form a closed loop.
A method of incorporating the quilted border loop sidewall panels of the invention into a mattress is now described. The closed border loop sidewall panel may be sewn along its bottom edge to the edge of a rectangular bottom panel of material (which may or may not be quilted, and which may comprise a layer of fire retardant fabric), that will serve as the bottom surface of the mattress. This stitching may be done with decorative cording to enhance the aesthetics. As in the known process, this forms an open-top rectangular fabric box within which the various internal components of the mattress may be assembled. Differing from the known process, however, the closed border loop sidewall panel is purposely positioned at the time of its attachment so as to provide for registration of the stitch pattern elements therealong in relation to other parts of the mattress, e.g., corners and sidewalls, or in predetermined locations for registration with quilt pattern elements that will be provided on the top surface of the mattress.
Since the position of the pattern elements along the length of the border loop sidewall panel (and with respect to the seam attaching the ends to form a closed loop) is already predetermined—in contrast to the short undifferentiated pattern repeats of the prior art—the desired positioning of the pattern elements can be accomplished using the stitched seam as a marker for alignment with a predetermined point along the perimeter of the bottom panel of material, e.g., at the center of the head-end of the mattress where the seam will be least visible. Such alignment of the seam may be provided by the provision of indicia on the bottom panel of material, such as a mark, tack stitch, notch or the like. The center of the bottom panels may be indicated with a notch or a mark that is applied along the edge of the material when the panel is cut. Further in accordance with the known process, once the internal components (e.g., springs and/or foam layers) are assembled within the box, a second rectangular panel of material (typically quilted, and complimenting the border loop sidewall panel pattern) may be attached along its edge to the upper edge of the border loop sidewall panel, along its entire perimeter, in order to close the box structure and complete the mattress.
As persons skilled in the art will appreciate, similar processes may be used to incorporate a border loop sidewall panel as taught herein into a bed foundation instead of a mattress.
The present invention has been described in terms of preferred and exemplary embodiments thereof. Numerous other embodiments, modifications and variations within the scope and spirit of the appended claims will occur to persons of ordinary skill in the art from a review of this disclosure.