Not Applicable.
1. Field of the Invention
The present invention provides a detachable spring loaded headphone reel for storing and protecting headphone cables.
2. Background of the Invention
Handheld devices such as mobile phones, video players, audio players, etc., have become an important part of daily life. Mobile phones, especially smart phones, are the most frequently used consumer electronics. Mobile phones are provided with a headset or headphone or earphone (also referred to as earbuds) as a necessary and standard accessory to the user(s). The earphones, earbuds or headphones typically include left and right earpieces attached to one end of an electrical cable, the electrical cable having a plug or jack on the other end. The headphone cable is typically unitary at the plug end, and then splits into two separate wires each leading to a respective left or right earpiece or earbud. The headphones are usually used for call conversations and listening to music or other audio content that are stored or streamed in the mobile phones. The headphone is usually carried separately from the mobile phone itself. For instance, carrying headphones in a bag or in the user's pocket is often a hassle, as the headphone or earbud wires generally become tangled or intertwined or sometimes become damaged. The demand for the headphones and earbuds has created a desire for protective cases to protect the wires of the headphones and earbuds against unintended tangling, breakage or damage.
Various types of conventional protective cases or reels to protect the headphones are known in the prior art. U.S. Pat. No. 5,422,957 (Cummins) describes a cable take-up for earphones. The cable take-up includes a cylindrical case and a plug mechanically attached to the case and extending axially from the case. Within the case, a cable is wound onto a rotating spool biased by a spring to retract the cable. A ratchet prevents the cable from retracting. A release in the ratchet is accessible from outside of the case. The plastic has several wires embedded therein. One end of the cable is connected to earpieces and the other end of the cable is connected to the plug through a commutator. The commutator includes a first disk having resilient, conductive contacts attached to the plug and a second, rotating disk having concentric, conductive stripes attached to the cable and rubbing on the conductive contacts.
U.S. Pat. No. 8,774,446 describes a retractable storage system for a handheld electronic device. The claimed retractable storage system comprises a removable panel with one or more storage chambers for storing an accessory item, such as a wireless earbud, cabled earbud, headphone cable or e-cigarette, and a retractable mechanism to retrieve and dispense the stored accessory item through an accessory station. The removable panel can be replaced with another removable panel configured with different structure to store a different accessory item, such as a battery to charge a wireless earbud or e-cigarette.
U.S. Pat. No. 6,480,611 describes a headphone having a cord reel. In the cited document, a housing assembly comprises an electroacoustic transducer accommodated therein and an insertion hole defined therein. A winding mechanism is accommodated in the housing assembly for winding an input cord into the housing assembly. The winding mechanism includes a cord reel biased to wind the input cord there around and an engagement member pivotally mounted in the housing assembly. When an input plug secured to one end of the input cord is inserted into the insertion hole, the input plug rotates the engagement member in a first direction, which in turn allows the cord reel to wind the input cord there around. When the input plug is removed from the insertion hole, the engagement member rotates in a second direction counter to the first direction, allowing the input cord to be drawn out of the housing assembly and preventing the cord reel from winding the input cord there around.
US Patent application publication 20040125977 describes a headphone with an automatic reeling device for a jack wire. In the cited document, the automatic reeling device comprises of two earphones, a reeling device installed inside one of the two earphones and a jack wire. The reeling device has a stationary disk, a rotating disk with a wire reel rotatable abutting the stationary disk, a coil spring mounted between the stationary disk and the rotating disk and a push button to detachably engage the rotating disk to stop its movement, or to disengage from the rotating disk to permit its movement. The jack wire is wound around the wire reel on the rotating disk. By pressing the push button, the rotating disk is released, and the coil spring provides a restitution force to rotate the rotating disk and retract the jack wire into the earphone.
The referenced patent documents use a side catch design for winding or pulling the headphones of the user(s). The use of side catch design leads to tangle, misfire and creates frustration for the user(s) to reset the device when there is slip off. The use of the reels and protective cases of the prior art do not disclose the open-faced design for winding headphones disclosed herein.
Hence, there is need for a detachable spring loaded headphone reel that has an open faced design for pulling or winding the headphone cable without causing any tangle, misfire or slip off therein.
The present invention overcomes the drawbacks in the prior art and provides a detachable spring loaded headphone reel. In a preferred embodiment, the headphone reel comprises a base plate, a spindle, at-least two cover plates, a lever and a spring. The base plate with a wall includes a ring with an opening, at-least two flanges, a release arch, release slot, a pivot nub and an anchor bay. The ring is moulded inside the wall and the pivot nub is fitted at the center of the ring. The two flanges are the first flange and the second flange, wherein the two flanges are extended from the wall and placed at the either side of the wall, wherein the release arch is designed and attached to the first flange. The spindle comprises a disc with an upper end and a lower end, wherein the upper end includes a plurality of curved slots. The curved slots engage the head-phone cable during the winding operation. The curved slots are designed to create a guide for inserting the headphone cable into the device. The lower end of the disc includes a ratchet gear comprising a plurality of cog teeth oriented about the outer diameter of the gear. The lower end having the cog teeth is positioned inside the ring and thereby creating a gap between the base plate and the cog teeth to achieve better stabilization during rotational and translational movement therein, wherein the ratchet gear is fitted with a spring catch.
In the preferred embodiment, the two cover plates with a top portion and a bottom portion. The two cover plates are the first cover plate and the second cover plate, wherein the first cover plate and the second cover plate include a primary side and a secondary side. The bottom portion of the secondary side of first cover plate and the bottom portion of the secondary side of the second cover plate are extended with at-least one flange. The flanges of the two cover plates and the flanges of the base plate are conjoined together to achieve better stabilization between the two cover plates and base plate during winding or pulling operations of the headphone cable. The primary side of the first cover plate and the primary side of the second cover plate provide an appropriate horizontal stabilizing force to the lip shaped surfaced at the top of curved slots. The bottom portion of the first cover plate and the second cover plate provide a lateral stabilizing force to the dial shelf of the spindle during its operation.
The spring includes an internal bend and an external bend. The external bend is placed inside the spring catch at rear end of the spindle and internal bend is placed within the pivot nub of the base plate. The spring provides enforcing mechanism during the rotation of the spindle in clockwise and counter clockwise direction. The spindle rotation allows the head-phone cable to wrap and store around the dial. The lever includes a first end and a second end. The first end is at placed at the anchor bay and the second end is allowed to protrude towards the release slot of the base plate. The second end of the lever is engaged or pressed when the user(s) wants to wind the head-phone cable around the dial of the spindle. The second end of the lever operates to develop spring action by rotating or winding the spindle in counter-clockwise direction.
In the preferred embodiment of the invention, the primary side of the first cover plate and the second cover plate is saddle shaped, wherein the primary side of the first cover plate and the second cover plate is pressed to prevent the headphone cable from coming out of the dial and the dial shelf of the spindle.
In the preferred embodiment of the invention, the first cover plate and the second cover plate are further designed with one or more slips for storing the ear buds of the headphone after the winding operation of the headphone cable by the user(s).
In the preferred embodiment of the invention, the headphone reel is further designed to accommodate the larger cables and cords by providing the storage space therein.
In another preferred embodiment, the method includes the step of winding a spindle in counter-clockwise direction to develop tensioning effect in a spring. After winding the spindle, the headphone cable is placed into the curved slots of the spindle by the user(s). After placing the headphone cable in the curved slot, a lever is pressed to release the tensioning effect in the spring which in-turn rotates the spindle in clockwise direction. After pressing the lever, the headphone cable is wrapped and stored around the dial during the rotation of the spindle in clockwise direction. The headphone cable is pulled from the dial as and when required by the user(s). Finally, the spindle is allowed to rotate and rest at the predetermined position under the tensioning effect, once the headphone cable is pulled out.
The headphone reel is designed to create an open-faced mechanism for winding the headphone cable, which is very intuitive in its operation. The headphone reel may be further designed to accommodate larger cables and cords by providing more storage space therein. The invented headphone reel protects the headphone cable against tangle, misfire and slip off.
The present invention provides a detachable spring loaded headphone reel, which is simple, easy to use and cost effective. The invention may be used to place the headphone wire, cable or cord in a position to make it tangle free.
In another embodiment, there is disclosed a detachable spring loaded headphone reel for storing and protecting a headphone cable comprising: (a) a base member, oriented in a first plane, having an outside surface, an inside surface, an outer peripheral edge defining base left, right, front and back edges, a peripheral retaining wall extending upwardly from the inside surface along the outer peripheral edge, and a pawl lever release slot through a portion of the retaining wall proximate the left front peripheral edge; (b) a base midpoint centrally located in the inside surface of the base; (c) an axis of rotation emanating from the base midpoint substantially perpendicularly to the base first plane; (d) a cylindrical spring mounting pivot nub for securing a first, internal end of a coilable spring, the pivot nub being attached to the base inside surface and coaxially aligned with the axis of rotation; (e) a semi-circular ring wall attached to the base and centered about the axis of rotation, the ring wall having a semi-circumference defined at a first radial distance from the axis of rotation, the ring wall semi-circumference further defining an opening in the ring wall facing the left edge of the base; (f) a convex shaped camming surface extending inwardly from the left edge of the base along the base inside surface, the camming surface generally facing the ring wall opening, but ending at a distance from the ring wall to form a pawl lever gap between the camming surface and the ring wall, the pawl lever gap having a first end at the pawl lever release slot, and an opposite end defining a pawl anchor bay space between the camming surface, the ring wall and the back right edge of the retaining wall; (g) a pawl lever located within the pawl lever retaining space, the lever further comprising an enlarged first end capable of securely fitting within the pawl anchor bay, a second end extending out of the front retaining wall of the base through the pawl release slot, and a central pawl section between the first and second ends, the central pawl section further comprising a pointed member extending inwardly through the ring wall opening and capable of engaging with or disengaging from a ratchet gear, the pawl lever second end capable of urging the pawl lever to move from a first position where the pawl pointed member is engaged with a ratchet gear, to a second position where the pawl pointed member is disengaged from a ratchet gear, the camming action urging the lever towards the first, engaged position; (h) a coilable spring having a first internal end and a second external end, the spring being coaxially mounted about the axis of rotation, the first internal spring end being attached to the pivot nub; (i) opposed flange members extending upwardly from the left and right outer peripheral edges of the base to a desired flange height; (j) a spindle, rotatable about the axis between the opposed flange members, the spindle comprising: (1) a central disc section having upper and lower surfaces and an outer circumferential edge located at a second radial distance from the axis greater than the ring wall radial distance; (2) a generally cylindrical dial oriented about the axis and extending upwardly from the disc upper surface, the dial having an outer circumferential surface disposed a distance inwardly from the disc outer circumferential edge, the outer dial surface having a lower end connected to the disk and an upper end, the dial further comprising a circumferential shoulder extending radially inwardly from the outer dial surface upper end to an inner shoulder circumferential intersection, the dial further comprising an additional raised section, extending upwardly from the inner shoulder intersection and defining a raised section outer circumferential surface; (3) two adjacent slots extending into and across the raised dial section, the slots capable of receiving a headphone cable; (4) a hollow cylindrical ratchet gear member having inner and outer surfaces extending downwardly from the lower disc surface, the ratchet gear defining a circumference disposed at radial a distance from the axis that is less than the ring wall radius, the ratchet gear further comprising a plurality of teeth disposed about the outer surface of the ratchet gear member, the teeth capable of locking with the pawl point member when a rotational force about the axis is applied in a first direction to the spindle, the teeth not locking with the pawl point with a rotational force about the axis is applied in a second direction, opposite the first direction, to the spindle, the ratchet gear member inner surface further comprising a spring catch extending therefrom forming a spring catch groove for receiving the spring second external end; and (k) opposed cover plates having outer and inner ends, the outer ends being attached to the flanges, the cover plates extending radially inwardly to a distance proximate the outer circumferential surface of the dial raised section, the cover plates having upper and lower surfaces, the lower surfaces proximate the inner ends being spaced apart from the dial should to form a spindle retaining area gap, the cover plate inner ends being generally convex in shape.
Other objects and advantages of the embodiments herein will become readily apparent from the following detailed description taken in conjunction with the accompanying drawings. In the drawings, like reference numerals refer to like elements.
Reference will now be made in detail to the description of the present subject matter, one or more examples of which are shown in figures. Each embodiment is provided to explain the subject matter and not a limitation. These embodiments are described in sufficient detail to enable a person skilled in the art to practice the invention, and it is to be understood that other embodiments may be utilized and that logical, physical, and other changes may be made within the scope of the embodiments. The following detailed description is, therefore, not be taken as limiting the scope of the invention, but instead the invention is to be defined by the appended claims.
The present invention provides a detachable spring loaded headphone reel for storing and protecting the headphone cable against tangle, misfire and slip off. The headphone reel comprises a base plate, a spindle, at-least two cover plates, a lever and a spring. The spring provides enforcing mechanism during the rotation of the spindle in clockwise and counter clockwise direction. The spindle rotation allows the head-phone cable to wrap and store around the dial for a sufficient number of revolutions to coil up the cable. In one embodiment, the spindle rotation is capable of between about 5 to 7 complete revolutions. The ear buds of the headphone may be placed in the slips of the cover plates once the headphone cable is stored in the dial of the spindle.
In a preferred embodiment, the headphone reel (100) comprises a base plate (101), a spindle (108), at least two cover plates (112), a pawl-type lever (116) and a spring (119). The base plate (101) includes a wall (102). The base (101) further includes a ring wall (103) with an opening (103a), two flanges (104a and 104b), a release arch (105), release slot (106), a pivot nub (120) centered on axis (10) on the base underside (101b) for securing one end (119a) of spring (119) to the base (101), and an anchor bay (107). The two flanges are the first flange (104a) and the second flange (104b). The two flanges (104a and 104b) are extended from the wall (102) and placed on opposed sides of the wall (102). The release arch (105) is attached to the first flange (104a).
In a preferred embodiment, the headphone reel (100) comprises a base plate (101) having outer surface (101a) and inner surface (101b). The reel device (100) further comprises a spring wound spindle (108), rotatable about an axis (10), further including a ratchet gear (111) capable of engaging with a pawl lever (116), at least two cover plates (112), and a tensioning spring (119).
In a preferred embodiment, the spindle (108) comprises a disc (109) with an upper end (109a), a lower end (109b) and an outer circumferential edge (1090. The upper end (109a) further comprises a generally cylindrical dial (110) disposed a distance inwardly about the axis (10) from the outer circumferential edge (1090 and extending upwardly a distance from the disc upper end (109a) surface. The dial (110) further comprises outer circumferential surfaces (110d) for receiving the spooled headphone cable (20a).
The dial (110) further comprises a dial shelf or shoulder (110c) at its top outer circumference leaving the remaining upper portion of the dial to form lip shaped surfaces (110e) that extend upwardly. As will be seen in connection with the other figures, the plate covers (112) attach to the base flanges (104a, 104b) and have as one function, the creation of a semi-enclosed internal space (30) to permit housing of the coiled or spooled cable (20a). Another function of the cover plates is to provide an upper boundary to retain the spindle, such that, as the spindle moves about the axis (30), the spindle will have some room to move upward, but the covers (112a, 112b) will retain the spool (108) within the reel device (100) via interaction with the dial shoulder or shelf (110c). The opposed plate covers do not extend around the entire circumference of the spindle (108) so as to permit top loading of the cable (20a) into the slots. Once the cable is loaded into the slots, the headphone cable (20a) is wound around the dial and stored within semi-enclosed space (30).
The lower end of the disc (109) includes a ratchet gear (111) comprising a plurality of cog or ratchet teeth (111a) disposed about the circumference of the gear (111), the gear (111) being attached to the underside (109b) of the spindle (108), and extending downwardly, the gear also being disposed inwardly from the disc outer circumferential edge (109f) to permit the ratchet gear outer circumference to fit within the ratchet gear receiving area (103b) within the ring wall (103). The lower end (109b) having the cog teeth (111a) is positioned inside the ring (103) thereby creating a gap between the base plate ring wall (103) and the cog teeth (111a) to achieve better stabilization during rotational and translational movement therein. The ratchet gear (111) is a generally hollow cylindrical shape extending downwardly from the spindle underside (109b), the gear teeth (111a) being located on the outer surface of the cylinder. The inner surface (109g) of the gear cylinder forms the housing area (109e) for the spring 119. The inner gear cylinder surface (109g) further comprises a spring catch (109c) extending therefrom forming a spring catch groove (109d) for receiving one end (119b) of the spring (119). The other end (119a) of the spring attaches within the pivot nub slot (120a) of the pivot nub (120) located at the axial (10) midpoint on the base underside (101b).
The two cover plates (112) include top portions (112a and 112b) and bottom portions (118a, 118b). The cover plates (112) comprise primary sides (114a and 114b) and secondary sides (113a and 113b). The bottom portion (118a) of the secondary side (113a) and the bottom portion (118b) of the secondary side (113b) of the cover plates (112) are extended with flanges (115a and 115b). The flanges (115a and 115b) of the two cover plates (112) and the flanges (104a and 104b) of the base plate (101) are conjoined together to achieve better stabilization between the two cover plates (112) and base plate (101) during winding or pulling operation of the headphone cable (20a).
The primary sides (114a, 114b) of the cover plates (112) provide an appropriate horizontal stabilizing force to the lip shaped surfaces (110e) at the top of slots (110a and 110b). The bottom portions (118a, 118b) of the cover plates (112) provide lateral stabilizing force and retaining force to the dial shelf or shoulder (110c) of the spindle (108) in spindle retaining area (118c) during its operation by retaining the upward movement of the dial shelf (110c) within the spindle retention gap (118d). The cover plates (112) serve to prevent the headphone cable (20a) from slipping off of the dial (110) of the spindle (108).
Referring to
In a preferred embodiment, the pawl lever (116) includes a first pivot end (116a) and a second end (116b) that a user can press, e.g., with the user's thumb or finger. The second end (116b) may comprise a smooth surface, or a surface comprising surface features, such as ridges or grooves (as shown) or other gripping material. The pawl first end (116a) is at placed at the anchor bay (107) and the pawl second end (116b) is allowed to protrude towards the release slot (106) of the base plate (101). The second end (116b) of the pawl lever (116) is engaged or pressed when the user(s) desires to wind the head-phone cable around the dial (110d) of the spindle (108). The pawl lever (116) also comprises a pawl engagement point (116c) for engaging with or disengaging from the ratchet gear (111) and a flex point (116d) to permit the inward and outward movement of the engagement point (116d).
Referring now to
As thus constructed, cable (20a) is subjected to a continuous tension by spring (119). A ratchet and pawl mechanism in permits cable (20a) to be withdrawn to a desired length and go slack. Ratchet gear (111) is fixably attached to spindle (108). The periphery of gear (111) is serrated or toothed for engaging a pawl as illustrated in
The ratchet and pawl mechanism, coupled with the action of spring provides a one-way restriction on the motion of cable (20a), enabling cable (20a) to be withdrawn from base (101) but preventing cable (20a) from being retracted into base except upon manual disengagement of the pawl engagement point from the ratchet gear by pressing on the pawl engagement end (116b). Other mechanisms for controlling cable (20a) could be used instead, such as a cam or friction brake engaging cable (20a).
As depicted in
The headphone reel (100) of the present disclosure is designed to create an open-faced mechanism for top loading of the cable onto the winding spool (spindle) for ease in winding the headphone cable, which is very intuitive in its operation. The headphone reel may be further designed to accommodate larger cables and cords by providing more storage space therein. The headphone reel (100) of the present disclosure protects the headphone cable against tangle, misfire and slip off.
The present disclosure provides a spring loaded headphone reel (100), which permits removable attachment and detachment of the headphone cable from the reel, and is simple, easy to use and cost effective. The headphone reel (100) may be used to place the headphone wire, cable or cord in a position such that it is tangle free.
It is to be understood, however, that even though several characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify and/or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the spirit and scope of the appended claims.
All references referred to herein are incorporated herein by reference. While the apparatus, systems and methods of this invention have been described in terms of preferred or illustrative embodiments, it will be apparent to those of skill in the art that variations may be applied to the process and system described herein without departing from the concept and scope of the invention. All such similar substitutes and modifications apparent to those skilled in the art are deemed to be within the scope and concept of the invention. Those skilled in the art will recognize that the method and apparatus of the present invention has many applications, and that the present invention is not limited to the representative examples disclosed herein. Moreover, the scope of the present invention covers conventionally known variations and modifications to the system components described herein, as would be known by those skilled in the art.
This application claims the benefit of the filing date of and priority to: U.S. Provisional Application Ser. No. 62/160,213 entitled “Detachable Spring Loaded Headphone Reel” and filed May 12, 2015, Confirmation No. 1084; said provisional application is incorporated by reference herein in its entirety for all purposes.
Number | Date | Country | |
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62160213 | May 2015 | US |