US2962924A - One piece self lubricating guide comb for lace machines - Google Patents
One piece self lubricating guide comb for lace machines Download PDFInfo
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- US2962924A US2962924A US786099A US78609959A US2962924A US 2962924 A US2962924 A US 2962924A US 786099 A US786099 A US 786099A US 78609959 A US78609959 A US 78609959A US 2962924 A US2962924 A US 2962924A
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- Prior art keywords
- blades
- comb
- carriages
- carriage
- lace
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04C—BRAIDING OR MANUFACTURE OF LACE, INCLUDING BOBBIN-NET OR CARBONISED LACE; BRAIDING MACHINES; BRAID; LACE
- D04C5/00—Twist or bobbin-net lace-making machines
- D04C5/16—Warp thread feeding or guiding devices
- D04C5/18—Guide bars; Guiding means therefor; Pattern input by control thereof
Definitions
- This invention relates to lace manufacturing apparatus of the Leavers Lace type and, more particularly, to an improved carriage guiding comb for such apparatus.
- the lace is produced by the relative movements and the inter-twisting of two distinct sets of threads known respectively as the bobbin threads and the warp and beam threads.
- the bobbin threads are wound on thin bobbins each comprising a pair of thin brass disks grooved on their inner surfaces and held together by a circular series of rivets serving as an initial winding surface for the bobbin threads.
- each bobbin holds from 125l30 yards of thread, such as nylon thread although silk, cotton or metallic threads are sometimes used.
- Each wound bobbin is mounted in a carriage comprising a thin steel sector shape plate having a hole rotatable mounting the bobbin which is retained therein by arcuate verge along the lower edge of the hole, the verge acting as a guide rail for the bobbin.
- the bobbin thread is drawn out through a radial hole at the upper end of the carriage and extending centrally thereof.
- a fine spring has a free end extending into the bobbin and acting as a brake when the thread is withdrawn.
- the lower edge of the carriage is arcuate about a pre-set radius and, below the bobbin hole, the carriage is somewhat thinner to form an arcuate guide blade operating in aligned grooves of a pair of arcuately spaced guide combs.
- the ends of each carriage have upwardly extending ribs for coaction with catch bars which irnpart to the carriages a rocking motion.
- the carriages In their swinging movement, the carriages pass between laterally spaced warp and beam threads drawn upwardly with the bobbin threads, these warp and beam threads being fed through holes in spaced substantially parallel steel bars reciprocable at right angles to the plane of swinging of the carriages.
- the warp and beam threads are disposed between the inner ends of the carriage guiding combs and, by selective longitudinal shifting of the steel bars each time the carriages have swung past the mid-point of their oscillations, a selected intertwisting of the bobbin threads with the warp and beam threads is elfected. Shifting of the steel bars is selectively effected by a Jacquard mechanism. Other elements, known as point bars, compress the twists formed during oscillation of the carriages.
- Each guide comb for the carriages comprises a number of thin arcuate metal blades held in closely spaced parallel relation by lead cast around stems extending from the lower edges of the blades, and includes brass bearing strips extending across the lower edges of the comb blades both inwardly and outwardly of the stems.
- the comb blades have arcuate edges formed about a radius equal to the radius of curvature of the carriage lower edges, and the spacing between the comb blades is only slightly greater than the thickness of the carriage blades.
- the inner ends of the pairs of combs are spaced apart a distance somewhat less than the arcuate length of the carriage blades so that the carriages are always guided positively in their swinging movement.-
- the comb blades guide the carriages, restraining the latter against lateral displacement.
- the carriages move as freely as possible during their swinging movement and, for this purpose, the combs, particularly the brass strips frictionally engaged by the carriage, as well as the comb blades, are lubricated with a solid lubricant such as graphite.
- a solid lubricant such as graphite.
- the formed lace is somewhat smeared with graphite, as it is not pos sible to maintain the warp and beam threads, for example, completely out of contact with carriage blades which have the graphite lubricant thereon. Consequently, extensive and prolonged cleaning operations are required for the finished product, which increases the cost of the lace.
- cleaning of the formed lace can be substantially or completely eliminated, the cost of the combs can be substantially reduced, and the labor and expense involved in installing and replacing combs be cut to a fraction of their present values by molding or casting the combs as integral units from a lightweight material having high impact strength, good wear resistance, and self lubricating characteristics.
- a suitable material is nylon or any other synthetic resinous material possessing equivalent properties.
- the self lubricating characteristics of the material eliminate the necessity for use of a solid lubricant such as graphite, and the brass strips are eliminated as the carriage blades are supported on the surfaces between the comb blades when the bobbins are full. These arcuate surfaces provide a length of bearing surface much greater than that provided by the brass strips.
- the comb formed as an integral member of one-piece construction, the depth of the comb blades can be reduced and the whole member very substantially lightened in weight without loss of rigidity of the comb blades.
- the reduced blade depth permits enlargement of the bobbin holes in the carriages, thus allowing use of larger, higher capacity bobbins in turn, this reducing the frequency of bobbin replacement.
- the reduced weight also results in less manual labor being required for comb replacement, as well as a reduction in material cost in making the comb.
- Fig. 1 is an elevation view of a carriage and bobbin together with the associated guide combs, and illustrates the guide combs presently used;
- Fig. 2 is a similar view illustrating the improved guide combs embodying the present invention
- Fig. 2A is a side elevation view of the guide comb embodying the invention.
- dFig. 3 is an end elevation view thereof from the outer s1 e;
- Fig. 4 is a bottom plan view thereof.
- Fig. 5 is an enlarged sectional view of the end of one of the comb blades.
- Leavers Lace machine As the operation of a Leavers Lace machine, insofar as the bobbins, carriages, and guide combs are concerned, has already been generally described above, it will not be repeated hereinafter except insofar as necessary for an understanding of the invention.
- Leavers Lace published in January 1949' by American Lace Manufacturers Association, Inc., of Buffalo, Rhode Island.
- a carriage is illustrated as containing a loaded bobbin from which a bobbin thread 16 extends upwardly and centrally of the carriage to suspend the latter for pendulous oscillation from left to right when the bobbins are only partly full.
- the blade 11 of carriage 10 has lateral guiding relation in the spaces between the blades of a pair of arcuately spaced guide combs 20 having lugs 21 by means of which the combs are mounted on the comb support bars of the Leavers Lace machine.
- the lower edges of carriage blades 11 frict'ionally engage relatively narrow brass strips 24 extending across the under surfaces of comb blades 22 on each side of stems 23.
- both the carriage blade 11 and the comb blades 22 have substantial and substantially equal radial depths.
- combs 20 are relatively massive and heavy structures comprises the blades 22 having stems 23 set into a casting of lead or the like.
- the substantial radial width of blade 11 restricts the size of the bobbin opening 12 and thus the size of bobbin useable in the carriage.
- the comb 30 of the invention is molded as a single piece from nlyon or other synthetic resinous material having good impact strength and wear resistance, and self-lubricating characteristics.
- Comb 30 includes a body 31 formed with an apertured mounting lug 32, and is molded with grooves forming closely spaced parallel arcuate guide blades 35.
- Guide blades 35 have arcuate upper edges 36 and arcuate lower or inner edges 37 formed about radii equal to the radius of curvature of the lower edges of the carriage blades 11, and it will be noted that the radial depth of these comb blades 35 is very substantially less than that of the blades 22 of the present comb as shown in Fig. 1.
- the inner edges of blades 35 that is, the edges at the inner ends of the combs as mounted in the machine, are tapered as shown at 38 in Fig. 5.
- the arcuate length of blades 35 is also substantially shorter than that of blades 22 of Fig. 1.
- body 31 has recesses 33 and 34 therein, strengthening ribs separating the recesses of each pair from each other. In effect, the comb portions not carrying any weight are reduced in area and volume.
- the comb 34 may have the standard 2" width of present combs, or may have a different width to accommodate a particular installation.
- the number of blades 35 per inch of width corresponds to the desired gauge of the lace machine, there being 19 blades to the inch for a 9 /2 gauge machine.
- the concave surface between adjacent blades self-lubricated acts as a supporting guide for the carriage blades 11 when bobbins 15 are filled, being tapered at its inner end as indicated at 39. This not only eliminates the need for the narrow brass bearing strips 24 but also provides a carriage blade bearing surface having a length very substantially in excess of that provided by such brass strips.
- comb 35 The most important characteristic of comb 35 is its self-lubricating property, as this eliminates the use of a solid lubricant such as graphite, as well as eliminating the necessity for the brass bearing strips 24. Consequently, the cleaning operations on the lace are substantially eliminated insofar as lubricant removal is concerned.
- Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of self-lubricating material, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves defining guide blades for the blades of the carriages.
- Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of a synthetic resin having self-lubricating characteristics, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves having inner edges parallel to said concave edge and defining guide blades for the blades of the carriages; the arcuate surfaces of the grooves providing elongated bearing surfaces for the carriage blades.
- Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of a synthetic resin having self-lubricating characteristics, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves having inner edges parallel to said' concave edge and defining guide blades for the blades of the carriages; the arcuate surfaces of the grooves providing elongated bearing surfaces for the carriage blades; the radial extent of said guide blades being substantially less than that of the blades of the associated carriages.
- Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of a synthetic resin having self-lubricating characteristics, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves having inner edges parallel to said concave edge and defining guide blades for the blades of the carriages; the arcuate surfaces of the grooves providing elongated bearing surfaces for the carriage blades; the radial extent of said guide blades being substantially less than that of the blades of the associated carriages, and the length of the guide blades being substantially less than that of the metal blades of the relatively massive metal combs normally used in such machine.
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Braiding, Manufacturing Of Bobbin-Net Or Lace, And Manufacturing Of Nets By Knotting (AREA)
Description
Dec. 6, 1960 K. W. BAHLO ONE PIECE SELF LUBRICATING GUIDE COMB FOR LACE MACHINES Filed Jan. 12, 1959 FIG.1
INVENTOR. Klaus W. Bahlo 2,962,924 ONE PECE SELF LUBRICATING GUIDE COMB FOR LACE MACHINES Klaus W. Bahlo, Bridgeport, Conn., assignor to The American Fabrics Company, Bridgeport, Conn., a corporation Filed Jan. 12, 1959, Ser. No. 786,099 Claims. (CI. 87-27) This invention relates to lace manufacturing apparatus of the Leavers Lace type and, more particularly, to an improved carriage guiding comb for such apparatus.
In the manufacture of lace on the Leavers type of machine, the lace is produced by the relative movements and the inter-twisting of two distinct sets of threads known respectively as the bobbin threads and the warp and beam threads. The bobbin threads are wound on thin bobbins each comprising a pair of thin brass disks grooved on their inner surfaces and held together by a circular series of rivets serving as an initial winding surface for the bobbin threads. At present, each bobbin holds from 125l30 yards of thread, such as nylon thread although silk, cotton or metallic threads are sometimes used.
Each wound bobbin is mounted in a carriage comprising a thin steel sector shape plate having a hole rotatable mounting the bobbin which is retained therein by arcuate verge along the lower edge of the hole, the verge acting as a guide rail for the bobbin. The bobbin thread is drawn out through a radial hole at the upper end of the carriage and extending centrally thereof. A fine spring has a free end extending into the bobbin and acting as a brake when the thread is withdrawn.
The lower edge of the carriage is arcuate about a pre-set radius and, below the bobbin hole, the carriage is somewhat thinner to form an arcuate guide blade operating in aligned grooves of a pair of arcuately spaced guide combs. The ends of each carriage have upwardly extending ribs for coaction with catch bars which irnpart to the carriages a rocking motion.
In their swinging movement, the carriages pass between laterally spaced warp and beam threads drawn upwardly with the bobbin threads, these warp and beam threads being fed through holes in spaced substantially parallel steel bars reciprocable at right angles to the plane of swinging of the carriages. The warp and beam threads are disposed between the inner ends of the carriage guiding combs and, by selective longitudinal shifting of the steel bars each time the carriages have swung past the mid-point of their oscillations, a selected intertwisting of the bobbin threads with the warp and beam threads is elfected. Shifting of the steel bars is selectively effected by a Jacquard mechanism. Other elements, known as point bars, compress the twists formed during oscillation of the carriages.
Each guide comb for the carriages comprises a number of thin arcuate metal blades held in closely spaced parallel relation by lead cast around stems extending from the lower edges of the blades, and includes brass bearing strips extending across the lower edges of the comb blades both inwardly and outwardly of the stems. The comb blades have arcuate edges formed about a radius equal to the radius of curvature of the carriage lower edges, and the spacing between the comb blades is only slightly greater than the thickness of the carriage blades. The inner ends of the pairs of combs are spaced apart a distance somewhat less than the arcuate length of the carriage blades so that the carriages are always guided positively in their swinging movement.- The comb blades guide the carriages, restraining the latter against lateral displacement.
2,962,924 Patented Dec. 6, 1960 When the bobbins are full, with the yarn thereon wound to a large diameter, the carriages ride on and frictionally engage the brass strips. As the yarn is unwound from the bobbins, the tension conditions change particularly with nylon yarn, and the carriages are lifted out of engagement with the brass strips. At such time, the carriages swing like pendulums, being suspended by the drawn yarn.
It is important that the carriages move as freely as possible during their swinging movement and, for this purpose, the combs, particularly the brass strips frictionally engaged by the carriage, as well as the comb blades, are lubricated with a solid lubricant such as graphite. During the machine operation, the formed lace is somewhat smeared with graphite, as it is not pos sible to maintain the warp and beam threads, for example, completely out of contact with carriage blades which have the graphite lubricant thereon. Consequently, extensive and prolonged cleaning operations are required for the finished product, which increases the cost of the lace.
The casting of lead or other relatively heavy metal around the comb blade stems is necessary to assure maintenance of the proper spacing of these blades. Additionally, the comb blades have a substantial radial extent to assure their stability, and the lubricated brass strips are necessary to support the carriages when the bobbins are full. All of these factors not only increase the cost of the guide combs but makes their installations and replacement in the machine diflicult and expensive. Such replacement is necessary whenever a comb needs repair.
In accordance with the present invention, it has been found that cleaning of the formed lace can be substantially or completely eliminated, the cost of the combs can be substantially reduced, and the labor and expense involved in installing and replacing combs be cut to a fraction of their present values by molding or casting the combs as integral units from a lightweight material having high impact strength, good wear resistance, and self lubricating characteristics. A suitable material is nylon or any other synthetic resinous material possessing equivalent properties.
The self lubricating characteristics of the material eliminate the necessity for use of a solid lubricant such as graphite, and the brass strips are eliminated as the carriage blades are supported on the surfaces between the comb blades when the bobbins are full. These arcuate surfaces provide a length of bearing surface much greater than that provided by the brass strips. With the comb formed as an integral member of one-piece construction, the depth of the comb blades can be reduced and the whole member very substantially lightened in weight without loss of rigidity of the comb blades. The reduced blade depth permits enlargement of the bobbin holes in the carriages, thus allowing use of larger, higher capacity bobbins in turn, this reducing the frequency of bobbin replacement. The reduced weight also results in less manual labor being required for comb replacement, as well as a reduction in material cost in making the comb.
For an understanding of the invention principles, reference is made to the following description of a typical embodiment thereof as illustrated in the accompanying drawing. In the drawing:
Fig. 1 is an elevation view of a carriage and bobbin together with the associated guide combs, and illustrates the guide combs presently used;
Fig. 2 is a similar view illustrating the improved guide combs embodying the present invention;
Fig. 2A is a side elevation view of the guide comb embodying the invention;
dFig. 3 is an end elevation view thereof from the outer s1 e;
Fig. 4 is a bottom plan view thereof; and
Fig. 5 is an enlarged sectional view of the end of one of the comb blades.
As the operation of a Leavers Lace machine, insofar as the bobbins, carriages, and guide combs are concerned, has already been generally described above, it will not be repeated hereinafter except insofar as necessary for an understanding of the invention. For a detailed description of such a machine and its operation, reference is made to the publication Leavers Lace published in January 1949' by American Lace Manufacturers Association, Inc., of Providence, Rhode Island.
Referring to Fig. l, a carriage is illustrated as containing a loaded bobbin from which a bobbin thread 16 extends upwardly and centrally of the carriage to suspend the latter for pendulous oscillation from left to right when the bobbins are only partly full. In such oscillation, the blade 11 of carriage 10 has lateral guiding relation in the spaces between the blades of a pair of arcuately spaced guide combs 20 having lugs 21 by means of which the combs are mounted on the comb support bars of the Leavers Lace machine. When the bobbins 15 are full, the lower edges of carriage blades 11 frict'ionally engage relatively narrow brass strips 24 extending across the under surfaces of comb blades 22 on each side of stems 23.
It will be noted from Fig. 1 that both the carriage blade 11 and the comb blades 22 have substantial and substantially equal radial depths. Also combs 20 are relatively massive and heavy structures comprises the blades 22 having stems 23 set into a casting of lead or the like. For a given mass of carriage 10, the substantial radial width of blade 11 restricts the size of the bobbin opening 12 and thus the size of bobbin useable in the carriage.
Referring to Figs. 2, 3 and 4, the comb 30 of the invention is molded as a single piece from nlyon or other synthetic resinous material having good impact strength and wear resistance, and self-lubricating characteristics. Comb 30 includes a body 31 formed with an apertured mounting lug 32, and is molded with grooves forming closely spaced parallel arcuate guide blades 35.
To decrease even further the weight of comb 30, body 31 has recesses 33 and 34 therein, strengthening ribs separating the recesses of each pair from each other. In effect, the comb portions not carrying any weight are reduced in area and volume.
The comb 34) may have the standard 2" width of present combs, or may have a different width to accommodate a particular installation. The number of blades 35 per inch of width corresponds to the desired gauge of the lace machine, there being 19 blades to the inch for a 9 /2 gauge machine.
In the comb 35, the concave surface between adjacent blades self-lubricated acts as a supporting guide for the carriage blades 11 when bobbins 15 are filled, being tapered at its inner end as indicated at 39. This not only eliminates the need for the narrow brass bearing strips 24 but also provides a carriage blade bearing surface having a length very substantially in excess of that provided by such brass strips.
The most important characteristic of comb 35 is its self-lubricating property, as this eliminates the use of a solid lubricant such as graphite, as well as eliminating the necessity for the brass bearing strips 24. Consequently, the cleaning operations on the lace are substantially eliminated insofar as lubricant removal is concerned.
While a specific embodiment of the invention has been shown and described in detail to illustrate the application of the invention principles, it will be understood that the invention may be embodied otherwise without departing from such principles.
What is claimed is:
1. Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of self-lubricating material, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves defining guide blades for the blades of the carriages.
2. Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of a synthetic resin having self-lubricating characteristics, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves having inner edges parallel to said concave edge and defining guide blades for the blades of the carriages; the arcuate surfaces of the grooves providing elongated bearing surfaces for the carriage blades.
3. Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of a synthetic resin having self-lubricating characteristics, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves having inner edges parallel to said' concave edge and defining guide blades for the blades of the carriages; the arcuate surfaces of the grooves providing elongated bearing surfaces for the carriage blades; the radial extent of said guide blades being substantially less than that of the blades of the associated carriages.
4. Guiding means for the pendulously oscillatable carriages of Leavers Lace machines comprising an integral comb member consisting of a single piece of a synthetic resin having self-lubricating characteristics, said member having an arcuately elongated concave edge facing the carriages and said concave edge being formed with a plurality of spaced, parallel grooves having inner edges parallel to said concave edge and defining guide blades for the blades of the carriages; the arcuate surfaces of the grooves providing elongated bearing surfaces for the carriage blades; the radial extent of said guide blades being substantially less than that of the blades of the associated carriages, and the length of the guide blades being substantially less than that of the metal blades of the relatively massive metal combs normally used in such machine.
5. A carriage guiding comb member as claimed in claim 4, in which said synthetic resin is nylon.
References Cited in the file of this patent UNITED STATES PATENTS 1,449,831 Stroud Mar. 2 7, 1923 2,409,565 Holdsworth Oct. 15, 1946 FOREIGN PATENTS 190,196 Austria June 11, 1957 OTHER REFERENCES Product Engineering, July 1950, article entitled Nylon in Bearings and Gears; page 103 relied upon.
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Application Number | Priority Date | Filing Date | Title |
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US786099A US2962924A (en) | 1959-01-12 | 1959-01-12 | One piece self lubricating guide comb for lace machines |
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Application Number | Priority Date | Filing Date | Title |
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US786099A US2962924A (en) | 1959-01-12 | 1959-01-12 | One piece self lubricating guide comb for lace machines |
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US2962924A true US2962924A (en) | 1960-12-06 |
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US786099A Expired - Lifetime US2962924A (en) | 1959-01-12 | 1959-01-12 | One piece self lubricating guide comb for lace machines |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20120000091A1 (en) * | 2010-07-01 | 2012-01-05 | Boa Technology, Inc. | Lace guide |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1449831A (en) * | 1922-04-15 | 1923-03-27 | Moses | Safety-brake-operating mechanism |
US2409565A (en) * | 1943-07-24 | 1946-10-15 | Holdsworth Willie | Gill bar or faller for gill-drawing machines |
AT190196B (en) * | 1955-07-08 | 1957-06-11 | Tuellgardinen Und Spitzen Werk | Contactor bearings for bobbinet machines |
-
1959
- 1959-01-12 US US786099A patent/US2962924A/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1449831A (en) * | 1922-04-15 | 1923-03-27 | Moses | Safety-brake-operating mechanism |
US2409565A (en) * | 1943-07-24 | 1946-10-15 | Holdsworth Willie | Gill bar or faller for gill-drawing machines |
AT190196B (en) * | 1955-07-08 | 1957-06-11 | Tuellgardinen Und Spitzen Werk | Contactor bearings for bobbinet machines |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20120000091A1 (en) * | 2010-07-01 | 2012-01-05 | Boa Technology, Inc. | Lace guide |
US9149089B2 (en) * | 2010-07-01 | 2015-10-06 | Boa Technology, Inc. | Lace guide |
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