Title of Invention

"AN APPARATUS FOR CONSTRUCTING STRING OF COIL SPRINGS AND A METHOD"

Abstract Kethods and apparatus are provided for forming strings of springs enclosed within pockets having flat overlapping sid* seams avoiding problems with false loft in mattress construction.
Full Text This is an improvement patent application over commonly owned, co-pending U.S. Patent Application Serial No. OS/478,915, to Albert R. St.Clair, filed June 7, 1995, entitled: "Method and Apparatus for Forming Strings of Pocketed Springs."
BACTOROUKD OF TH» IKVBKTIOM
1. yj«id of the Invention
The present invention relates to spring assemblies for mattresses, cushions and the like and, more particularly, to new and improved methods and apparatus for forming strings of springs enclosed within pockets having flat overlapping side seams which do not exhibit the disadvantageous condition encountered in prior art assemblies known as false loft. *• Description of Melated Art
Numerous techniques have evolved for constructing mattresses, cushions and the like. One such technique which has gained wide acceptance is known as Marshal 1 construction. In this construction, an innerspring assembly comprises the core of the mattress or cushion and is manufactured from a plurality of springs, each individually encapsulated in a pocket of suitable fabric. The pockets of springs are preferably joined together in a string of predetermined length and ere arranged in a closely packed array all with their longitudinal axes parallel one to another and with their ends defining a plane. In mattress construction, this array of pocketed springs is typically covered with a quilted foam and fabric pad thereby providing a sleeping surface.
String* of pocketed coil springs have been manufactured in different: ways. In an early nethod of manufacture, a suitable fabric was folded in half lengthwise and stitched transversely at regular intervals to define pockets into which springs were inserted. This method has largely been replaced in nore recent times by a method which uses heat sensitive fabric and ultrasonic welding techniques instead of stitching. An example of strings of pocketed coil springs manufactured by this latter nethod is disclosed in U.S. Patent No. 4,234,983, issued to stumpf and assigned to the common assignee herein. As disclosed in U.S. Patent Ho, 4,234,983, a string of pocketed coils is formed by ultrasonically welding the coils into discrete pockets by first folding a heat sensitive fabric in half lengthwise and applying welds transversely to the longitudinal axis of the fabric. Once the coil springs are inserted into the pockets, the pockets are welded closed along a seam running lengthwise of the coil string adjacent to one end of the springs. Apparatus for manufacturing the foregoing strings of coils is disclosed, for example, in U.S. Patent No. 4,439,977, also issued to Stumpf and assigned to the common assignee herein.
A disadvantage of strings of coil springs of the foregoing construction is that the seam running lengthwise of the coil string creates two flaps of excess fabric material at one end of the pocketed springs. Some excess material is necessary along the seam to provide for proper alignment of the string in manufacture and assure adequate strength of the associated welds. However, when the"string of coils is arranged to define an innerspring mattress or cushion core, the excess material projecting outwardly of the springs creates a false firmness which is known in the
art: as "false loft", beneath the outer surface pad of the mattress or cushion. This false loft condition can cause undesirable and objectionable body depressions to form when a user lies on a aattress or cushion.
Attempts have been made to eliminate false loft by constructing a string of coil springs having a flat overlap side seam Instead of a top seam. A machine for constructing such coil strings is disclosed, for example, in U.S. Patent No. 4,986,518, also issued to Stuapf and assigned to the common assignee herein. However, such a machine has a complicated elevator mechanism for spring insertion which has proven to be unreliable under manufacturing conditions.
Co-pending U.S. patent application Serial Ho. 08/478,915 by Albert R. St. Clair filed June 7, 1995, entitled "Method and Apparatus for Forming Strings of Pocketed Springs11 and commonly owned with the instant application, discloses a novel method and apparatus for forming strings of pocketed springs having flat overlapping side seams which eliminates false loft. In the St. Clair system, a web of heat sensitive fabric passes over a diamond-shaped folding plete and a first fold in the fabric is created defining a first flap. The fabric then passes over a series of rollers whereupon a hook member causes an edge of the fabric to reversely turn over the web and form a second fold. The second fold creates a second flap which overlaps the first flap. The resulting fabric tube next advances to a deflector station at which an arm member deflects the overlapping flap as to form an opening in the tube. A spring inserter then inserts a spring transversely into the open tube. The tube next advances to a second deflector station at which the second flap is deflected to its original overlapping
relation with the first flap thus closing the tube with the spring inserted in it. A veld is then formed between the overlapping flaps. Than, transverse velds are formed in the tube between adjacent spring coils thereby defining individual fabric pockets containing the springs.
An early form of apparatus for forming strings of pocketed coil springs is disclosed in Werner, U.S. Patent No. 2, 093,531. The apparatus therein disclosed comprises a coil insertion mechanism wherein an operator manually compresses a spring coil using a handle. Then a preformed tube of fabric having stitched pockets formed in it is brought to the apparatus whereupon the pockets are manually opened and flaps of the tube are separated and placed over tvo parallel spaced tongues. The compressed spring is inserted into the pocket by depressing a foot pedal and sliding the spring between the tongues whereupon the fabric tube can be extracted from the tongues and the flaps manually realigned to a closed condition.
A disadvantage of the Werner apparatus is that it requires manual operation and is not at all adaptable to a high speed assembly process. Clearly, the fabric tube must be preformed to define pockets. The pockets mist be manually opened to insert the coil springs using the Werner tongues. There is no disclosure:, teaching or suggestion in Werner of hov a string of pocketed coil springs could be formed using a fully automated process starting with a veb of unfolded fabric and ending vith a completely formed string of pocketed coll springs having flat overlapping side saaas as is accomplished by the aforementioned St. Clalr process.
While the St. Clalr process and apparatus are markedly advantageous over the prior art for use in
high spaed pocketed coil spring production, it is desirable to provide improvements in such a process and apparatus. In particular, it is desirable to reduce the number of steps in the process of automatically • folding a veb of fabric into a tube, inserting coil springs in the fabric tube, forming flat overlapping side scans in the fabric and forming individual pockets around the springs.
Accordingly, it has been found to be
desirable to provide mattress or cushion constructions in which the innerspring assembly is enclosed within pockets having flat overlap side seams. In particular, it has been found to be desirable to provide such mattress or cushion constructions which do not exhibit false loft by virtue of excess pocketing material adjacent the ends of the coils. Furthermore, it has been found to be desirable to provide coil string assemblies for innerspring constructions which use less pocketing fabric material than has been required in previously known constructions.
Still further, it has been found to be desirable to provide apparatus for constructing pocketed coil strings which are housed within pockets having flat overlapping side seams. Such apparatus has been* found to be effective, efficient and reliable in use and is structured to be readily retrofitted with existing prior art equipment at an economical cost.
The present invention is an improvement over the invention disclosed in commonly owned, co-pending application Serial No. 08/478,915 by providing a method and apparatus for forming strings of pocketed coil springs wherein a web of fabric is folded to define a tube having a first flap and a second flap folded underneath the first flap. The flaps are than
separated at a coil insertion station without the need for one of the flaps to be deflected from the other flap to form an opening in the tube. After coil insertion, the second flap may be deflected to overlap the first flap or the opening may simply be closed with the second flap underlying the first flap. The flaps can thereafter be welded together to form a flat overlapping side seam. Thus, the first flap deflection station as disclosed in co-pending application Serial No. 08/478,915 by St. Clair is eliminated. The folding of the tube in the present invention is accomplished at fabric in-feed station as is used in the apparatus disclosed in the St. Clair application.
The present invention therefore, provides an apparatus for constructing strings of coil springs wherein each of the coil springs is enclosed within individual fabric pockets having flat overlapping side seams comprising:
a fabric in-feed mechanism having means for folding a flat web of fabric a first time to define a first flap and means for folding said web a second time to define a second flap underlying said first flap thereby defining a fabric tube having a flap side and a back side;
means for separating said first flap from said underlying second flap to form an opening between said flaps;
a coil spring inserter structured and dimensioned to insert a compressed coil spring through said opening into said fabric tube;
means for closing said opening with said second flap underlying said first flap on said fabric tube and with said compressed coil spring enclosed within said tube; and
means for interconnecting said closed first and second flaps.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWING
The foregoing and other novel features of the invention will become apparent upon a reading of the following detailed description taken in conjunction with the accompanying drawings wherein:
FIG. 1 is a perspective view of a prior art mattress partially broken away to show a conventional innerspring construction;
FIG. 2 is a fragmentary side view of the prior art innerspring shown in FIG 1.
FIG. 3 is a partial perspective view of a fabric in-feed station of an apparatus in accordance with the present invention;
FIG. 4 is another partial perspective view of the in-feed station of FIG. 3 showing fabric being folded therein according to the invention;
FIG. 5 is a schematic end view of a fabric tube constructed in accordance with the present invention;
FIG. 6 is a schematic view of a spring insertion station in accordance with the present invention illustrating a stage in the inventive process
wherein a spring, in an unconpressed state, is positioned prior to insertion into a fabric tube;
PIG. 7 is a schematic view of the spring insertion station of FIG. 6 showing the spring in a fully compressed state for insertion into a fabric flap;
FIG. 8 is a further schematic view of the spring insertion station of FIG. € with the apparatus aligned for insertion of the fully compressed spring into the fabric tube;
FIG. 9 is a schematic view of the spring insertion station of FIG. 7 showing the spring inserted into the fabric tube;
FIG. 10 is a schematic view of a deflector station of an apparatus in accordance with a first form of the present invention illustrating a stage in the process wherein the flaps of the fabric tube are realigned after spring insertion;
FIG. 11 is a schematic view illustrating apparatus for performing the next processing stage in accordance with the present Invention wherein the flaps on the fabric tube are positioned for processing after insertion of a spring therein;
FIG. 12 is a schematic view of a first welding station of an apparatus in accordance with the present Invention illustrating a stage in the inventive process wherein the flaps on the fabric tube are lap sealed;
FIG. 13 is a schematic view of a second welding station of an apparatus in accordance with the present invention illustrating a stage in the inventive process wherein discrete fabric pockets are formed with, coil springs encapsulated therein;
FIG. 14 is a schematic view of a drive station of an apparatus in accordance with the present
invention illustrating a mechanism for drawing the fabric tube through the apparatus for processing;
FIG. 15 is a schematic view of a final fora ing station of an apparatus in accordance with the present invention illustrating a mechanism for properly orienting the spring within a fabric pocket; and
FIG. 16 is a schematic view illustrating apparatus for performing a processing stage in accordance with a second form of the present invention wherein the flaps of the fabric tube are not re¬oriented as in FIGS. 10-15;
FIG. 17 is a schematic view of a first welding station of an apparatus in accordance with the second form of the present invention wherein the flaps on the fabric tube are sealed;
FIG. 18 is a schematic view of a second welding station of an apparatus in accordance with the second fora of the present invention illustrating a stage in the inventive process wherein discrete fabric pockets are formed with coil springs encapsulated therein;
FIG. 19 is a schematic view of a drive station of an apparatus in accordance with the second form of the invention illustrating a mechanism for drawing the fabric tube through the apparatus for processing;
FZG. 2O is a schematic view of a final forming station of an apparatus in accordance with the second form of the present invention Illustrating a mechanism for properly orienting the spring within the fabric pocket; and
FIG. 21 is a fragmentary side view of a string of pocketed coils constructed in accordance with the principles of the present invention.
DITAILgP DIfiCKlPTIOM
Referring now to the drawings, and initially to FIG. 1, a mattress assembly of a type we 11-Known in the art is designated generally by reference numeral 10 and includes an innerspring core assembly 12 of the so-called Marshall construction. The core 12 includes a string 14 of coils 16 within fabric pockets 18 arranged in a closely packed array having a generally rectangular shape in plan. For purposes of the present disclosure, the term coils may be used interchangeably with springs or coil springs. The coils 16 are all oriented with their longitudinal axes parallel to each other and with their ends all lying in a common plane. A suitable cover 19 is provided for the innerspring core 12 and is typically made of a quilted foam and/or fabric material defining a sleeping surface.
Referring now to FIG. 2, a portion of the prior art string 14 of coils 16 enclosed within fabric pockets 18 is illustrated in side view and comprises a weJb of fabric 20 which is essentially folded in half lengthwise. The fabric is preferably heat sensitive and is formed into a series of spaced pockets by transverse welds 22. The welds 22 define webs 24 connecting the pockets to form a string 14 which can be of any preselected length. Because the fabric 20 is folded in half, a seam 26 is welded across the upper edge of the string 14, as viewed in FIG. 2, in order to close the pocket. This forms a pair of flaps 28, only one of which can be seen, running lengthwise of the string 14 above the plane defined by the upper ends of the coils 16. The flaps 28 are necessary to space the velds of the seam 26 inwardly of the edges of the fabric 20 and thereby assure adequate strength of- the seam 26, as well as to provide for proper alignment of the string 14 in manufacture.
Turning now to FIGS. 3 and 4, a portion of an apparatus for constructing strings of pocketed coil springs 16 in accordance with the invention is designated generally by the reference numeral 30. As described hereinafter, the apparatus will be discussed in terms of its progressive sequences of operation, in the so-called apparatus direction, beginning with the portion 3O which is a pocket material in-feed station.
At the in-feed station 30, a web of heat sensitive fabric 32 is fed into the apparatus across a diamond-shaped folding plate 34. Preferably, the fabric 32 is of a non-woven polypropylene composition, for example, of a type sold under the trade name DUOM. A guide bar 35 extends over the top of the fabric 32 in spaced relation to the folding plate 34 to assure that the fabric 32 will lay flat on the plate 34. Adjustable guide bars 36 are positioned along opposite edges of the fabric web 32 to properly align the fabric 32 for folding. The fabric 32 travels over edges 38 of the folding plate 34 which converge to a point 40. Beneath the plate 34 and extending from a frame member 42 are a pair of closely spaced parallel guide bars 44. The guide bars 44 are aligned with the point 40 of the folding plate 34 and may have a mounting structure which includes spring tensioning means (not shown) to urge them into closely spaced relation. The fabric 32 passes between the guide bars 44 and a first fold 46 in the fabric 32 is created defining a first flap which will be consistently designated hereinafter as flap A.
The v«b of fabric 32 next passes around an idler roller 48 which extends from and is journalled for rotation on the frame 42. As best seen in FIG. 4, the fabric 32 then passes around a second roller- SO. This roller SO is journalled on a frame member (not shown) which is disposed opposite to and spaced from
frame 42. The roller 50 extends only a portion of the width of the folded fabric 32 creating a loose edge 52 of fabric 32 which passes around free end 54 of the second roller SO. A smoothly rounded hook raeaber 56 extends from the frame 42 in proximity with the end 54 of the roller 50 and engages the loose edge 52 of fabric 32 causing the edge 52 to reversely turn over the web 32 and form a second fold 58. The second fold 58 creates a second flap which will be designated consistently hereinafter as flap B. In accordance with the invention, the hook member 56 engages the edge 52 of the fabric 32 such that flap B is tucked under flap A. The web 32 which has now been twice folded then passes over a third roller 60 which is journalled for rotation on the frame 42 and the web 32 exits the fabric in-feed station 30 in an essentially horizontal orientation.
The configuration of the fabric 32 in accordance with the invention after it leaves the in-feed station 30 is shown schematically in FIG. 5. The fabric 32 is formed into a fabric tube 33, preferably having an essentially flat tubular shape with flap A folded over a back portion 62 at first fold 46 and flap B folded over back portion 62 at second fold 58. In a preferred form, flap A is approximately six inches in width while flap B is approximately three inches in width. Also, flap A preferably overlaps flap B by approximately one-half inch. It can be appreciated that the width of flap A can be predetermined by the adjustable lateral alignment of the fabric web 32 with respect to the point 40 of the folding plate 34. Moreover, the width of flap B can be predetermined by the suitable positioning of the second roller 50 and associated hook member 56.

The fabric tuba 33 as thus constructed advances to a coil insertion station shown in FIG. 6 and designated generally by the reference numeral 70. A coil inserter assenbly Is designated as 72 and includes an upper plate 74 and a lover plate 76 arranged parallel to one another and spaced from one another by approximately three-eighths of an inch. Upper plate 74 has a circular opening 78 which is dimensioned to permit a coil spring 16 to pass through it and be supported on the lower plate 76 with the longitudinal axis of the spring 16 oriented vertically. It is to be noted that the spring 16 is transported to the inserter 72 in a fully extended state by any suitable transport means (not shown) and is positioned under a compressor SO which is in vertical alignment with the opening 78 in the upper plate 74. The conditioA of the fabric tube 33 at this point is such that flap B is positioned to pass underneath the lower plate 76 of the inserter 72 while flap A passes under a support plate 82 and has edge portion 84 supported on the upper plate 74 of the inserter 72. The edge portion 84 of flap A is pressed firmly to the plate 74 by a tensioned roller 86.
In FIG. 7, the spring 16 is shown in a compressed state upon activation of the compressor 80. PIG. 8 shova the next step of the coil insertion process wherein the fabric tube 33 is advanced in a manner such that edge portion 84 of flap A moves into registry with an air cylinder 88. Coil insertion is completed in the schematic view of FIG. 9 which shows ram 90 of the air cylinder 88 activated to hold the edge portion 84 of flap A firmly to the upper inserter plate 74 while a reciprocating air operated inserter bar 92 moves the compressed coil 16 horizontally from the compressor 80 to a position beneath flap A.
Once coil insertion ia completed, the fabric tube 33 in accordance with the first torn of the invention advances with the compressed coil 16 under support plate 82 to a deflector station designated generally as 94 in FIG. 10. At this station 94, a deflector ara 96 has a free end portion 98 which engages and lifts flap B to a realigned overlapped condition with respect to flap A.
FIG. 11 illustrates apparatus 100 for performing the next step in the process of the first fora of this invention wherein the fabric tube 33 is received by an anvil 1O2. The anvil 102 nay be supported by plate 82 and includes a first upper arm 104 over which flap B passes. Flap B is pressed firmly into contact with arm 104 by a second tensloned roller 106. In this step of the process, flap A passes under the first anvil am 1O4 and over the top of a second lower arm 1O8 which is suspended in a cantilevered manner from first: arm 104. The anvil 102 is designed so that lover arm 108 also projects horizontally in the apparatus direction from beneath upper arm 104.
Turning now to FIG. 12, a first welding station is designated generally by the reference numeral 110 and includes an ultrasonic welding horn 112. At this station 110, the fabric tube 33 has passed the upper arm 104 of the anvil 102 whereupon flap B returns to overlapped engagement with flap A, the two flaps being supported by lower arm 108 of the anvil 102. The welding horn 112 is next activated to place one or more spot welds on the lap between flap A and flap B, whereby a lap seal is formed.
In FZG. 13, a second welding station is designated by the reference numeral 114 and includes a second welding horn 116 which is oriented transversely to the fabric tube 33. In a manner well-Known in the
art, this second welding horn 116 is designed to fora a linear series of spaced welds between the upper and lower sides of the fabric tube 33 intermediate successive coils 16 thereby forming a string 14 of discrete fabric pockets 18 with individual spring coils 16 encapsulated within each pocket.
PIG. 14 illustrates schematically a drive station 120 of the apparatus which comprises a pair of parallel closely spaced rollers 122 and 124. The rollers 122 and 124 are so tensioned together that they serve to draw the fabric tube 33 through the apparatus from the in-feed station 30 through all subsequent processing stations of the apparatus. A suitable recess 126 is formed in one of the rollers 122 or 124 so that the coil springs 16 can pass freely between the rollers 122 and 124.
A final forming station in accordance with the first fora of the invention is shown schematically in FIG. 15 and designated generally by the reference mineral 130. At this station 130 a rotating beater assembly 132 is provided with resilient arms 134 for striking the fabric tube 33 in the area of the pocketed coil springs 16. This striking action of the beater 132 causes the coil springs 16 to rotate ninety degrees within their pockets and to expand from their
ressed state to an extended state, thereby filling
the pocket 18.
In a second form of the invention, a fabric tub* 33 as in the first fora of the invention, FIG. s, aay be initially formed as illustrated in FIG. 4 wherein hook 56 guides loose edge 52 of the fabric 32 to fora a flap B which is underlapping flap A. Moreover, this tube 33 may be advanced through the sane coil insertion processes illustrated in FIGS. 6-9. However, after coil insertion, the tube 33 ia advanced
directly to station 140, as illustrated in FIG. 16, wherein the tube 33 is received by a modified anvil 142 without any deflection
of flap B. Thifi anvil 142 has a generally S-shaped configuration with a leg portion 144 extending over and supported on plate 82 such that the anvil 142 is cantilevered from plate 82. The
S-shaped configuration provides an arm portion 146 for supporting flap B of the tube 33a and an aim portion 148 for supporting flap A of the tube 33a. Flap A is firnly pressed into contact with arm portion 148 by a tensloned roller 150. In the next station 160, as illustrated in FIG. 17, the arm portion 146 of the anvil 142 rejoins the flaps A and B in overlapping relation and supports the overlap for welding by welding horn 112. As in the first forms of the invention, the tube 33 next advances to a second welding station 162, as shown in FIG. 18, wherein transverse welds are formed across the tube 33 to create fabric pockets. The tube 33 next moves through drive station 164 (FIG. 19) and finally to beater station 166 (FIG. 20). It can be appreciated particularly from FIG. 20 that the tube 33 in this second fora of the invention will be finally assembled with flap B underlapping flap A and, therefor*, flap B could be snagged by the spring 16 as the beater 132 strikes the tube 33 to rotate the spring 16 within its respective pocket. While snagging may be a problem were the beater to rotate counterclockwise as viewed in FIG. 20, in practice, by rotating the beater clockwise, the bottom of the spring 16 will move along the lower surface 62 of the tube 33 as the spring 16 is re¬oriented. Thereby, the spring 16 remains clear of leading edge 168 of the flap B and snagging of the flap B does not occur.
It can now be appreciated that the apparatus of the present Invention is highly efficient and effective for constructing strings of pocketed coil springs which have a seal formed along a side thereof instead of having a seal adjacent to the ends of the springs. A string of fabric pocketed coils 17O constructed with the present apparatus is illustrated in side view in FIG. 21. As seen therein, a flat overlap side sean 172 eliminates the two upper flaps 28 of the prior art string 14 shown in FIG. 2. Thus, the coil string 170 is highly desirable for use in a nattress innerspring assembly in that it eliminates objectionable false loft. It can also be appreciated that because the side seam 172 may overlap by only about one-half inch or so, savings in fabric 32 can be achieved over the prior art constructions which have two excess flaps 28. Further, the apparatus of the present invention may be readily configured froa existing known equipment with the addition and/or replacement of a few parts and subassemblies. Accordingly, the invention lends itself to highly economical retrofitting of equipment currently in use. Although the string 170 is shown with welds 174 disposed along the upper side of the seam 172 in FIG. 29, it can be appreciated that if this string 170 were constructed according to the above-described first for* of the invention, the corresponding string 170 constructed according to the second form of the invention will simply differ only in that the welds 174 will be on the opposite side of the seam 172 as the string 17O leaves the apparatus. Further, it can be appreciated that while discrete spot welds 174 have been illustrated as formed in the fabric 32 along the 172, linear welds may readily be used along the
sean 172 if nor* positive closing of the sean 172 is decned desirable.
While the present invention has been described in connection with preferred embodinents thereof, it will be understood by those skilled in the art that nany changes and modifications nay be made without departing from the true spirit and scope of the invention. Accordingly, it is intended by the appended claims to cover all such changes and modifications which come within the true spirit and scope of the invention.

We claim:
1. Apparatus for constructing strings of coil springs wherein each of the
coil springs is enclosed within individual fabric pockets having flat
overlapping side seams comprising:
a fabric in-feed mechanism having means for folding a flat web of fabric a first time to define a first flap and means for folding said web a second time to define a second flap underlying said first flap thereby defining a fabric tube having a flap side and a back side;
means for separating said first flap from said underlying second flap to form an opening between said flaps;
a coil spring inserter structured and dimensioned to insert a compressed coil spring through said opening into said fabric tube;
means for closing said opening with said second flap underlying said first flap on said fabric tube and with said compressed coil spring enclosed within said tube; and
means for interconnecting said closed first and second flaps.
2. The apparatus as claimed in claim 1 wherein said closing means
comprises a deflector arm for engaging said underlying second flap and
redeflecting it into overlapping relationship with said first flap.
3. The apparatus as claimed in claim 1 wherein said fabric in-feed
mechanism comprises a diamond-shaped plate for creating a first fold in said
fabric web.
4. The apparatus as claimed in claim 3 wherein said fabric in-feed
mechanism comprises a hook member structured and dimensioned to create a
second fold in said fabric web.
5. The apparatus as claimed in claim 4 wherein said first fold creates a first
flap, said second fold creates a second flap and said hook member is
configured to lap said second flap underneath said first flap.
6. The apparatus as claimed in claim 4 wherein said hook member
reversely turns an edge of said web to create said second fold.
7. The apparatus as claimed in claim 1 comprising means for forming
transverse seams between the pocketed coil springs creating discrete,
individual pockets to accommodate said coils.
8. The apparatus as claimed in claim 7 wherein said means for forming
transverse seams between the pocketed coil springs comprises a welding
device.
9. The apparatus as claimed in claim 1 comprising a beater assembly for
striking the pocketed compressed coils to rotate them in the fabric pockets and
to cause the coils to expand longitudinally from said compressed state.
10. The apparatus as claimed in claim 1 wherein said coil spring is
compressed along an axis oriented at right angles to the longitudinal axis of
said fabric tube, and said coil spring is inserted transversely to the
longitudinal axis of said fabric tube.
11. The apparatus as claimed in claim 1 wherein said coil spring inserter
comprises a pair of parallel spaced plates.
12. The apparatus as claimed in claim 11 wherein a first one of said plates
comprises an opening which is structured and dimensioned to enable said
spring to be compressed through said opening in said plate.
13. The apparatus as claimed in claim 11 comprising a reciprocating bar
disposed between said plates for pushing said compressed coil out of said coil
spring inserter and into said fabric tube.
14. The apparatus as claimed in claim 1 wherein said means for
interconnecting said first and second flaps comprises a welding device.
15. The apparatus as claimed in claim 14 wherein said welding device is an
ultrasonic welder and said fabric is heat sensitive.
16. A method of forming a string of coil springs as claimed in claim 1
wherein each of the coil springs is enclosed within an individual fabric pocket
having flat overlapping side seams, the method comprising the steps of:
folding an elongated web of fabric a first time to create a longitudinally extending first flap;
folding said web of fabric a second time to create a second longitudinally extending flap which underlines said first flap laterally, thereby defining a fabric tube having a flap side and a back side with said first flap on said flap side laterally overlapping said second flap on said flap side.
conveying said fabric tube longitudinally across a spring inserter in a manner such that said spring inserter separates said overlapping flaps thereby forming a laterally extending opening in said tube;
inserting a compressed coil spring into the opening in said tube
conveying said fabric tube to an anvil and thereby closing the opening in said tube with said first flap laterally overlapping said second flap; and
interconnecting said laterally overlapping first and second flaps to form a lap seal therebetween.
17. The method as claimed in claim 16 comprising the step of forming
transverse seams between the coil springs creating discrete, individual
pockets to accommodate said springs.
18. The method as claimed in claim 17 wherein said first flap is created by
passing said web of fabric over edges of a diamond-shaped folding plate.
19. The method as claimed in claim 17 wherein said second flap is created
by reversely turning an edge of said web around a hook member.
20. The method as claimed in claim 17 wherein said coil spring is
compressed along an axis oriented at right angles to the longitudinal axis of
said fabric tube and said coil spring is inserted transversely to the longitudinal
axis of said fabric tube.
21. The method as claimed in claim 17 comprising the further step of
rotating said compressed coil spring within said pocket to allow said coil
spring to expand within said pocket.
22. The method as claimed in claim 17 wherein said closing step
comprising redeflecting said second flap from below said first flap to
reoverlapping relating with said first flap.
23. Apparatus for constructing string of coil spring substantially as herein
described with reference to and as illustrated by the accompanying drawings.
24. The method of forming a string of coil spring substantially as herein described with reference to and as illustrated by the accompanying drawings.

Documents:

2545-del-1997-abstract.pdf

2545-del-1997-assignment.pdf

2545-del-1997-claims.pdf

2545-del-1997-correspondence-others.pdf

2545-del-1997-correspondence-po.pdf

2545-del-1997-description (complete).pdf

2545-del-1997-drawings.pdf

2545-del-1997-form-1.pdf

2545-del-1997-form-13.pdf

2545-del-1997-form-19.pdf

2545-del-1997-form-2.pdf

2545-del-1997-form-4.pdf

2545-del-1997-form-6.pdf

2545-del-1997-gpa.pdf

2545-del-1997-pa.pdf

2545-del-1997-petition-138.pdf

2545-del-1997-petition-others.pdf


Patent Number 230870
Indian Patent Application Number 2545/DEL/1997
PG Journal Number 13/2009
Publication Date 27-Mar-2009
Grant Date 28-Feb-2009
Date of Filing 08-Sep-1997
Name of Patentee DREAMWELL LTD.
Applicant Address 2325-B RENAISSANCE DRIVE, LAS VEGAS NV89119, USA.
Inventors:
# Inventor's Name Inventor's Address
1 BERNARD WALTER KUCHEL 2470 BERMUDA ROAD, STONE MOUNTAIN, GEORGIA 30087, UNITED STATES OF AMERICA
2 MICHAEL MAUDLIN 340 MAINSTREET, HIRAM, GEORGIA 30141, UNITED STATES O AMERICA
PCT International Classification Number B68G 7/00
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 08/711,484 1996-09-10 U.S.A.