JPWO2020185498A5 - - Google Patents

Description

A plurality of rollers 204 , screws 206 , tracks 208 and a plurality of guide members 210 are coupled to housing 202 . In the particular embodiment shown in FIGS. 3-5, screw 206 is coupled to housing 202 at hole 202c formed in housing 200. As shown in FIG. Screws 206 and tracks 208 extend along respective parallel axes CC and DD. Track 208 has a tip 208a (FIG. 5) fixedly coupled to housing 202 at hole 202b formed therein. A plurality of guide members 210 have tips 210a (FIG. 5) fixedly coupled to housing 202 at holes 202a formed in housing 200. As shown in FIG. Each guide member 210 may, but is not required, have rollers 210b between tips 210a configured to rotate about respective longitudinal axes EE and FF (FIG. 5).

Guide device 300 also includes an adjustment ring 320 that couples to neck 302 a of housing 302 . In the embodiment shown in the figures. 9A-12, adjustment ring 320 has a neck 322 with external threads 322a configured to mate with internal threads on the inner surface of neck 302a of housing 302. In FIGS. Adjustment ring 320 is coaxial with housing 302 along axis HH. Adjustment ring 320 defines an inner bore 305 (Fig. 12) that communicates with neck 302a. Neck 322 extends downward to an annular bearing surface 322b or rim on the bottom side of neck 322 . Annular bearing surface 322 b is configured to bear against cam surface 324 c of arm 324 .

Each arm 324 defines a hole 324d (FIGS. 11 and 12) that receives a pin 326 that pivotally connects arm 324 to housing 302. As shown in FIG. The hole 324 d is located midway between the upper end and the lower end of the arm 324 . Each arm 324 has an upper portion 324a between hole 324d and cam surface 324c and a lower portion 324b between hole 324d and roller 304. As shown in FIG. Upper portion 324a and lower portion 324b do not extend parallel to each other. Instead, in the embodiment shown in Figure 12, the lower portion 324b is angled inwardly toward the central axis HH. Thus, when a vertically directed force (such as by passing adjustment ring 320 through neck 302a) is applied from annular bearing surface 322b to cam surface 324c, the force leaves lower portion 324b (i.e., Arm 324 is torqued about its pivotal connection at the intermediate position of pin 326 which tends to spread apart (away from axis HH), thereby increasing the size of opening 301 .

When the annular bearing surface 322b is set at a particular axial position relative to the neck 302a, interference between the cam surface 324c and the annular bearing surface 322b results in a constant spacing between the openings 301 between the rollers 304. set. Interference prevents opening 301 from becoming smaller. Therefore, the initial installed size of the opening 301 can be considered the minimum size of the opening 301 . However, even after the adjustment ring 320 is set in place, interference between the cam surface 324c and the annular bearing surface 322b can cause the arm 324 to rotate about the intermediate position of the pin 326 and cause the rollers to rotate. It does not prevent the opening 301 between 304 from being enlarged beyond the minimum size originally installed. This expansion of the opening 301 between the plurality of rollers 304 is such that a certain expansion of filament material (e.g., twists or splices between cables) beyond the default minimum size of the opening 301 is directed into the opening 301 . can be effective in situations where In such a situation, as the spread portion of filament material passes the rollers 304, the lower portions of the arms 324 are urged radially outward to spread the rollers slightly further apart. , to allow the enlarged portion to pass through, thereby avoiding crushing the enlarged portion and possibly damaging or breaking the filament material.

Several embodiments of adjustable guide members for filamentary material have been described and illustrated herein. Although particular embodiments have been described, it is not intended that the invention be limited thereto, as this invention is as broad as the art will permit and it is intended that this specification be read as well. It has not been. Thus, while specific configurations for connecting the various elements have been disclosed, it will be appreciated that other suitable configurations may be used as well. It will therefore be appreciated by those skilled in the art that still other modifications may be made to the provided invention without departing from the spirit and scope of the invention as set forth in the claims.
[Configuration 1]
An adjustable guiding device for guiding filament material from a reciprocating traverse device onto a mandrel of a winder to form a coil, comprising:
The adjustable guide device comprises:
a housing having a neck defining an inlet opening configured to receive the filament material;
A plurality of adjustable guide members coupled to the housing, the plurality of adjustable guide members defining guide openings therebetween for passing the filament material from the entrance opening. and,
an adjuster configured to adjust the relative spacing between the plurality of adjustable guide members;
an adjustable guide.
[Configuration 2]
2. The adjustable guide of claim 1, wherein the inlet opening is vertically and axially aligned with the guide opening.
[Configuration 3]
2. The adjustable guide of claim 1, wherein the plurality of adjustable guide members are configured to move simultaneously toward or away from each other by manipulation of the adjuster.
[Configuration 4]
2. The adjustable guide device of claim 1, wherein the plurality of adjustable guide members comprise rollers.
[Configuration 5]
5. The adjustable guide of claim 4, wherein the rollers extend along parallel axes in the horizontal plane.
[Configuration 6]
6. The adjustable guide device of claim 5, wherein said plurality of adjustable guide members includes two rollers.
[Configuration 7]
The adjuster includes an adjustment screw extending through aligned threaded holes formed in the plurality of adjustable guide members, the adjustment screw extending along a threaded axis and extending along the plurality of adjustable guide members. 2. The adjustable guide of claim 1, wherein members are configured to translate toward or away from each other along the screw axis depending on the direction of rotation of the adjustment screw.
[Configuration 8]
further comprising a plurality of non-adjustable guide members extending along an axis perpendicular to the axes of the plurality of adjustable guide members, wherein the plurality of adjustable guide members comprises the plurality of non-adjustable guide members and the neck; 6. The adjustable guide device of claim 5, disposed vertically between and.
[Configuration 9]
The neck is configured for coupling to the reciprocating traversing device to permit reciprocating movement of the adjustable guide device as filament material is drawn through the guide opening onto the mandrel of the winder. 2. The adjustable guide device of claim 1, wherein:
[Configuration 10]
an adjustment ring having a neck threadably connected to the neck of the housing, the adjustment ring having an annular bearing surface on a bottom side of the neck;
The adjuster includes a pair of opposed arms pivotally connected to the housing at intermediate locations along the length of each arm, each arm having an upper portion and a lower portion, the upper portion extending to a cam surface configured to abut an annular bearing surface, said lower portion being pivotally connected to one of said plurality of adjustable guide members at or near a lower end of said arm; 2. The adjustable guide of claim 1, wherein threading the adjustment ring into or out of the neck changes the spacing between the plurality of adjustable guide members. Device.
[Configuration 11]
a plurality of biasing members, each biasing member coupled between the housing and the respective lower portion to bias the opposing arms and the plurality of adjustable guide members in opposing directions; 11. The adjustable guide of claim 10, further comprising a configured biasing member.
[Configuration 12]
12. The adjustable guide of claim 11, wherein said plurality of biasing members are springs.
[Configuration 13]
11. The adjustable guide of claim 10, wherein interference between the cam surface and the annular bearing surface impedes movement of the plurality of adjustable guide members toward each other.
[Configuration 14]
3. A method of installing an adjustable guiding device according to claim 1 for guiding filament material from a reciprocating traversing device over a mandrel of a winder to form a coil of filament material, comprising:
ensuring relative spacing between a plurality of adjustable guide members such that the guide openings are greater than the thickness of the filament material;
introducing the filament material through the guide opening;
placing the filament material in the guide opening and decreasing the relative spacing between the plurality of adjustable guide members until the plurality of adjustable guide members contact the filament material;
relative spacing between the plurality of adjustable guide members after the plurality of adjustable guide members contact the filament material until the filament material contacts only one of the plurality of adjustable guide members; and increasing
A method.
[Configuration 15]
8. A method of installing an adjustable guiding device according to claim 7 for guiding filament material from a reciprocating traversing device over a mandrel of a winder to form a coil of filament material, comprising:
ensuring relative spacing between a plurality of adjustable guide members such that the guide openings are greater than the thickness of the filament material;
introducing filament material through the guide opening;
Positioning the filament material in the guide opening and adjusting the adjustment screw to decrease the relative spacing between the plurality of adjustable guide members until the plurality of adjustable guide members contact the filament material. rotating about the screw axis in a first direction;
relative spacing between the plurality of adjustable guide members after the plurality of adjustable guide members contact the filament material until the filament material contacts only one of the plurality of adjustable guide members; rotating the adjustment screw about the screw axis in a second direction opposite the first direction to increase the
A method.
[Configuration 16]
12. A method of installing an adjustable guiding device according to claim 11 for guiding filament material from a reciprocating traversing device over a mandrel of a winder to form a coil of filament material, comprising:
ensuring relative spacing between a plurality of adjustable guide members such that the guide openings are greater than the thickness of the filament material;
introducing filament material through the guide opening;
Positioning the filament material in the guide opening and moving the adjustment ring to decrease the relative spacing between the plurality of adjustable guide members until the plurality of adjustable guide members contact the filament material. threading out of the neck;
relative spacing between the plurality of adjustable guide members after the plurality of adjustable guide members contact the filament material until the filament material contacts only one of the plurality of adjustable guide members; threading the adjustment ring into the neck to increase
A method.

Claims (15)

An adjustable guiding device for guiding filament material from a reciprocating traverse device onto a mandrel of a winder to form a coil, comprising:
The adjustable guide device comprises:
a housing having a neck defining an inlet opening configured to receive the filament material;
A plurality of adjustable guide members coupled to the housing, the plurality of adjustable guide members defining guide openings therebetween for passing the filament material from the entrance opening. and,
an adjuster configured to adjust the relative spacing between the plurality of adjustable guide members;
with
The adjustable guide device, wherein the inlet opening is vertically and axially aligned with the guide opening. 2. The adjustable guide of claim 1, wherein the plurality of adjustable guide members are configured to move simultaneously toward or away from each other by manipulation of the adjuster. 2. The adjustable guide device of claim 1, wherein the plurality of adjustable guide members comprise rollers. 4. The adjustable guide of claim 3, wherein the rollers extend along parallel axes in the horizontal plane. 5. The adjustable guide device of claim 4, wherein the plurality of adjustable guide members includes two rollers. The adjuster includes an adjustment screw extending through aligned threaded holes formed in the plurality of adjustable guide members, the adjustment screw extending along a threaded axis and extending along the plurality of adjustable guide members. 2. The adjustable guide of claim 1, wherein members are configured to translate toward or away from each other along the screw axis depending on the direction of rotation of the adjustment screw. further comprising a plurality of non-adjustable guide members extending along an axis perpendicular to the axes of the plurality of adjustable guide members, wherein the plurality of adjustable guide members comprises the plurality of non-adjustable guide members and the neck; 5. An adjustable guide device according to claim 4, arranged vertically between the The neck is configured for coupling to the reciprocating traversing device to permit reciprocating movement of the adjustable guide device as filament material is drawn through the guide opening onto the mandrel of the winder. 2. The adjustable guide device of claim 1, wherein: an adjustment ring having a neck threadably connected to the neck of the housing, the adjustment ring having an annular bearing surface on a bottom side of the neck;
The adjuster includes a pair of opposed arms pivotally connected to the housing at intermediate locations along the length of each arm, each arm having an upper portion and a lower portion, the upper portion extending to a cam surface configured to abut an annular bearing surface, said lower portion being pivotally connected to one of said plurality of adjustable guide members at or near a lower end of said arm; 2. The adjustable guide of claim 1, wherein threading the adjustment ring into or out of the neck changes the spacing between the plurality of adjustable guide members. Device. a plurality of biasing members, each biasing member coupled between the housing and the respective lower portion to bias the opposing arms and the plurality of adjustable guide members in opposing directions; 10. The adjustable guide of claim 9, further comprising a configured biasing member. 11. The adjustable guide of claim 10 , wherein said plurality of biasing members are springs. 10. The adjustable guide of claim 9, wherein interference between the cam surface and the annular bearing surface impedes movement of the plurality of adjustable guide members toward each other. 3. A method of setting up an adjustable guide system according to claim 1 for guiding filament material from a reciprocating traversing device over a mandrel of a winder to form a coil of filament material, comprising:
ensuring relative spacing between a plurality of adjustable guide members such that the guide openings are greater than the thickness of the filament material;
introducing the filament material through the guide opening;
placing the filament material in the guide opening and decreasing the relative spacing between the plurality of adjustable guide members until the plurality of adjustable guide members contact the filament material;
relative spacing between the plurality of adjustable guide members after the plurality of adjustable guide members contact the filament material until the filament material contacts only one of the plurality of adjustable guide members; and increasing
A method. 7. A method of setting up an adjustable guide system according to claim 6 for guiding filament material from a reciprocating traversing device over a mandrel of a winder to form a coil of filament material, comprising:
ensuring relative spacing between a plurality of adjustable guide members such that the guide openings are greater than the thickness of the filament material;
introducing filament material through the guide opening;
Positioning the filament material in the guide opening and adjusting the adjustment screw to decrease the relative spacing between the plurality of adjustable guide members until the plurality of adjustable guide members contact the filament material. rotating about the screw axis in a first direction;
relative spacing between the plurality of adjustable guide members after the plurality of adjustable guide members contact the filament material until the filament material contacts only one of the plurality of adjustable guide members; rotating the adjustment screw about the screw axis in a second direction opposite the first direction to increase the
A method. 11. A method of setting up an adjustable guide system according to claim 10 for guiding filament material from a reciprocating traversing device over a mandrel of a winder to form a coil of filament material, comprising:
ensuring relative spacing between a plurality of adjustable guide members such that the guide openings are greater than the thickness of the filament material;
introducing filament material through the guide opening;
Positioning the filament material in the guide opening and moving the adjustment ring to decrease the relative spacing between the plurality of adjustable guide members until the plurality of adjustable guide members contact the filament material. threading out of the neck;
relative spacing between the plurality of adjustable guide members after the plurality of adjustable guide members contact the filament material until the filament material contacts only one of the plurality of adjustable guide members; threading the adjustment ring into the neck to increase
A method.