Field of the Invention
The embodiments disclosed herein relate generally to speaker systems. For example, the speaker systems may be portable speaker systems that can receive wireless transmissions to broadcast sound, though other types of speaker systems may also be employed. Additional embodiments relate to accessories for speaker systems.
Description of the Related Art
There are currently on the market, a number of different speaker systems used primarily to broadcast music or other sound from cell phones, tablets, or other computer devices. Many of these speaker systems connect with the computer device through Bluetooth or another wireless standard. Many also offer wired connections in addition to, or instead of the wireless connection. Many of these speaker systems are portable and are considered easy to stow in a bag or backpack or to tote to the park, patio, pool, or beach, etc.
There exists a constant need for improvement in speaker systems. A speaker system can include a speaker core and a removable jacket. The speaker core can have a housing and a speaker positioned within the housing. The removable jacket can cover the speaker on an outside surface of the housing, the jacket extending along at least three sides of the housing. Among other features, the speaker core can be used with one of among a number of different jackets to form different speaker systems.
A speaker system can be configured for one-way sliding attachment between a jacket and a speaker core. In some embodiments, a notch and a protrusion can be used to ensure proper alignment of the jacket on the speaker core. For example, the notch and protrusion can be configured to provide one-way sliding attachment of the jacket and speaker core.
In some embodiments, a speaker system can comprise a speaker core and a removable jacket. The speaker core can include a housing having six sides: a top, bottom, front, back, left, and right; two speakers positioned within the housing, each speaker positioned on a different side of the housing; a button; and one of a notch and a protrusion on an outside surface. The removable jacket can cover at least one of the two speakers on an outside surface of the housing, the jacket configured to extend along at least three of the six sides of the housing. The jacket can comprise a button user interface to be positioned over the button when the jacket is positioned on the speaker core; and the other of the notch and the protrusion on an inside surface of the jacket configured to engage the respective notch or protrusion on the speaker core to help ensure proper alignment of the jacket on the speaker core. The system can be configured for one-way sliding attachment of the jacket onto the housing. The notch and protrusion can be positioned and configured such that 1) sliding the jacket onto the housing from a first side of the six sides of the housing allows the protrusion to engage the notch and the button user interface to be the positioned over the button; and 2) sliding the jacket onto the housing from a second side opposite the first side, the protrusion prevents the jacket from fully sliding onto the speaker core such that the notch and protrusion do not engage and the button user interface is not positioned over the button.
According to some embodiments, the speaker system can further comprise a locking mechanism comprising a second protrusion and a second notch, the second protrusion configured to fit within the second notch, wherein one of either the second notch or the second protrusion is on the housing and the other is on the jacket. The locking mechanism can comprise a deflection latch configured such that locking or unlocking the locking mechanism requires articulation of the deflection latch. In some embodiments, the jacket may further comprise a drainage hole and a drainage channel configured to direct fluid between the jacket and speaker core towards the drainage hole. The jacket may comprise at least two strap attachment points. The at least two strap attachment points may be the same as the drainage holes.
In some embodiments, the speaker core can further comprise at least one rubberized end cap covering at least one of the two speakers not covered by the jacket. The at least one rubberized end cap can be on the first side such that the jacket is configured to slide over the at least one rubberized end cap onto the housing.
In some embodiments, the first side is the front side of the speaker core housing, the speaker core comprising the notch positioned on the front side and the jacket comprising the protrusion. The jacket can comprise a two piece assembly, wherein the first piece is configured for sliding onto the front side of the speaker core and the second piece is configured for sliding onto the back side of the speaker core. A second jacket can be configured for one-way sliding attachment onto the housing from a second side.
According to some embodiments, a speaker system can comprise a speaker core and a removable jacket. The speaker core can include a housing and two speakers positioned within the housing. The removable jacket can extend along at least three sides of the housing covering the two speakers. A notch and a protrusion can be included, wherein one of either the notch or the protrusion is on the housing and the other is on the jacket. The system can be configured for one-way sliding attachment of the jacket onto the housing with the notch and protrusion positioned to 1) align the housing and jacket when the protrusion is engaged with the notch when the jacket is slid onto the jacket in a first direction and to 2) prevent the housing and jacket from complete attachment when the jacket is attempted to slide onto the speaker core from a direction other than first direction.
In certain embodiments, a speaker system can comprise a speaker core and a removable jacket. The speaker core can include a housing and a speaker positioned within the housing. A removable jacket can cover the speaker on an outside surface of the housing, the jacket extending along at least three sides of the housing. A notch and a protrusion can be included, wherein one of either the notch or the protrusion is on the housing and the other is on the jacket. The system can be configured for one-way sliding attachment of the jacket onto the housing with the notch and protrusion positioned to 1) properly align the housing and jacket when the protrusion is engaged with the notch and to 2) prevent the housing and jacket from complete attachment when the protrusion and notch are incorrectly orientated such that the jacket and housing are not properly aligned.
In some embodiments, a speaker system can have a speaker core. The speaker core can comprise a housing; a speaker positioned within and connected to the housing; a battery positioned within the housing; a main printed circuit board (PCB) positioned within the housing; a secondary PCB positioned within the housing and comprising at least one of a button and an electrical connector connected to the housing; a wire connecting the secondary PCB to the main PCB; a frame positioned within the housing, the battery and main PCB connected to the frame and not connected to the housing; and a plurality of shock absorbers that connect the frame to the housing to thereby isolate the battery and main PCB from vibrations of the housing.
According to some embodiments, the frame may comprise four arms that extend outward from the frame and the plurality of shock absorbers comprise four shock absorbers, wherein each shock absorber is on one of the four arms and connects the arms to the housing. The frame can suspend the battery and main PCB within the housing such that the frame, battery and main PCB are not in contact with a bottom internal surface of the housing.
In some embodiments, the housing can comprise a main chamber and a secondary chamber. The secondary PCB can be positioned within the secondary chamber and the main PCB, the frame, and the speaker can be positioned within the main chamber. The secondary chamber can have an access door, thereby providing access to the at least one button or electrical connector. The access door can be tethered to the housing. The system may include a third PCB, wherein the housing further comprises a third chamber, the third PCB positioned within the third chamber. The second chamber can be walled off from the main chamber with the exception of a channel sized for the wire to pass between both chambers. The speaker system may also include a removable jacket covering the speaker on an outside surface of the housing, the jacket extending along at least three sides of the housing.
In some embodiments, a speaker system can comprise a speaker core comprising: a housing; a speaker positioned within and connected to the housing; a battery positioned within the housing; a main printed circuit board (PCB) positioned within the housing; a secondary PCB comprising at least one of a button and an electrical connector connected to the housing; a wire connecting the secondary PCB to the main PCB; a frame positioned within the housing, the battery and main PCB connected to the frame and not connected to the housing, the frame comprising: a plurality of arms that extend outward from the frame; and a plurality of shock absorbers, wherein each shock absorber is positioned on one of plurality of arms and connects the arms to the housing to thereby isolate the battery and main PCB from vibrations of the housing.
In some embodiments a speaker system can have a speaker core. The speaker core can comprise a waterproof housing having a main chamber and a secondary chamber, the secondary chamber being walled-off from the main chamber; a speaker positioned within the main chamber and connected to the housing; a battery positioned within the main chamber; a main printed circuit board (PCB) positioned within the main chamber; a secondary PCB positioned within the secondary chamber and comprising at least one of a button and an electrical connector connected to the housing; a wire connecting the secondary PCB to the main PCB and passing through a channel between the main chamber and the secondary chamber; a plurality of shock absorbers positioned between the battery and the main PCB and the housing to thereby isolate the battery and main PCB from vibrations of the housing.
In certain embodiments, a speaker core can utilize one of various unique construction methods described herein. For example, various waterproofing and vibration isolation systems are described. In addition, certain embodiments comprise any of the various accessories and/or accessory/strap mounting systems and methods disclosed herein.
These and other features, aspects and advantages are described below with reference to the drawings, which are intended to illustrate but not to limit the invention. In the drawings, like reference characters denote corresponding features consistently throughout similar embodiments.
Embodiments of the disclosed portable speaker systems 10 can provide convenience to a user as they can be moved around indoors or used outdoors. In some embodiments, portable speaker systems can be lightweight and can communicate with an audio device over a wired or wireless connection, such as Bluetooth, Wi-Fi, Wireless Speaker and Audio (WiSA), and the like. In addition, portable speakers can reproduce or playback audio efficiently with low energy consumption. For example, a portable speaker can be capable of continuous playback of 10 or more hours. The portable speaker system 10 may also be configurable with interchangeable jackets, skins, or enclosures 2.
Turning to
In this way, different speaker systems can be created based on the same speaker core. Though, in some embodiments, minor adjustments may be made to the speaker core to create different speaker systems. The assembly of the speaker system may be done by consumers, or may be primarily done in the manufacturing stage. The different speaker systems may be different primarily in appearance, though the speaker core may also respond differently electronically, or it may provide a different acoustic response, depending on the jacket that it is paired with. In addition, the jacket may impart different properties to the speaker system such as more or less strength, shock absorption, or ruggedness. One speaker system might be ideally suited for indoor use, while another system might be designed for outdoor use. Similarly, one speaker system might be designed for use at the beach, while another system might be designed to withstand large impacts. Of course, many of these features can also be combined in one system.
In a basic form, a speaker core 4 can include a housing 6 and one or more speakers 8 positioned within the housing 6 (
The speaker core 4 and jacket 2 (and therefore the speaker system 10) are illustrated as a generally elongate box having a trapezoidal cross-section. This form factor can resist tip over when the speaker system 10 is placed on surfaces, providing improved stability. The trapezoidal form factor also accommodates the natural shape of the hand when gripped from the top (narrower side of trapezoid in palm), providing enhanced ergonomics as compared to some other form factors (e.g., purely rectangular form factors). In other embodiments, speaker systems and speaker cores of any suitable shapes fall within the scope of the disclosure, such as rectangular box, square box, cylindrical, spherical, conical, toroidal, pyramidal, and the like. It will also be understood that the speaker system 10, jacket 2 and speaker core 4 can have different shapes. For example, a jacket may connect to a trapezoidal cross-section speaker core 4 and form a rectangular or triangular speaker system. Similarly, the core may be rectangular and the jacket can be trapezoidal to create a trapezoidal speaker system.
Jacket
The jacket 2 can be a removable jacket for covering the one or more speakers 8 on an outside surface of the housing 6. For example, the jacket 2 can include one or more of fabric and a protective grill. The fabric can be a mesh material with a plurality of small holes, as is common in the speaker art, but may also be other types of fabric. As can be seen in
As has been mentioned, the shape of the jacket may accommodate the natural shape of the hand when gripped from the top (narrower side of trapezoid in palm), providing enhanced ergonomics as compared to some other form factors. In addition, the jacket 2 may have rounded edges and corners to further better accommodate gripping by the hand.
The speaker system 10 may also include various features to align and/or secure the speaker core 4 and jacket 2 together in an assembled and properly aligned condition.
A speaker system 10 can include an alignment feature 16, 20, 24 (
The alignment feature can comprise a slot, hole, notch, groove or some other indentation 16A, 20A and a corresponding protrusion 16B to fit within the indentation. In
The functioning of the alignment feature may depend on how the jacket 2 connects to the speaker core 4. As shown in
The alignment feature may comprise a visual indicator 24A, 24B as shown in
A speaker system 10 can include a locking feature 18. The locking feature can provide one of many benefits. For example, the locking feature can lock the jacket and speaker core in position. The locking feature can also secure the assembled speaker system in a properly aligned condition. The speaker system 10 can include a locking feature in addition to, or instead of, an alignment feature.
The locking feature 18 can take one of many different forms. The locking feature can comprise a fastener and/or a latch. In the illustrated embodiment of
Deflection latch systems can be used to hold two parts together. Use of a deflection latch system can speed the assembly process, decrease production cost and reduce the number of parts. A deflection latch system may also be known as a snap latch, hook type deflection latch, or snap fit, among other names.
A deflection latch system is a mechanical joint system where part-to-part attachment is accomplished with locating and locking features (constraint features) that are homogenous with one or the other of the components being joined. Joining requires the (flexible) locking feature 18B-C to move aside for engagement with the mating part, followed by return of the locking feature toward its original position to accomplish the interference required to latch the components together. The mating part may be a locator feature, and may provide strength and stability in the attachment by being less flexible than the locking feature. Though, this is not always the case as two flexible locking features may also engage one another.
Thus, the deflection latch system can include a slot, hole, notch, groove or some other indentation 18A and a corresponding protrusion 18C to fit within the indentation. Either one of the protrusion 18C or the notch 18A can be on the deflection arm 18B.
Looking now to the deflection latch system as shown in
The protrusion 18C and notch 18A can have any number of different shapes. In a preferred embodiment, the shapes are generally corresponding, such as corresponding round shapes, but they can also be different such as a square protrusion and a circular hole or a pyramid protrusion and a square hole.
Looking now at
In this embodiment, the alignment and locking features are slightly different from that previously discussed. For example the alignment feature can have a different shape and position. As can be seen, the notch 1600A is on the speaker core and the protrusion 1600B on the jacket 200. The protrusion 1600B is shown as two small protrusions that stick up into the inside of the jacket to prevent the jacket from being connected to the speaker core in the wrong orientation.
For the locking feature, in the previously illustrated embodiment, the jacket 2 has a deflection arm 18B with a protrusion 18C and the speaker core 4 has a notch 18A to receive the protrusion. In the embodiment of
In some embodiments, a speaker system can comprise a removable jacket and a speaker core. The speaker core can comprise a housing having at least six sides and a speaker positioned within the housing. The removable jacket can cover the speaker on an outside surface of the housing, the jacket extending along at least three sides of the housing. The speaker system may further include a notch and a protrusion, wherein one of either the notch or the protrusion is on the housing and the other is on the jacket. The system can be configured for one-way sliding attachment of the jacket onto the housing with the notch and protrusion positioned to 1) properly align the housing and jacket when the protrusion is engaged with the notch and to 2) prevent the housing and jacket from complete attachment when the protrusion and notch are incorrectly orientated such that the jacket and housing are not properly aligned. In certain embodiments, the speaker system may further include a locking system comprising a second protrusion and a second notch. The second protrusion configured to fit within the second notch, wherein one of either the second notch or the second protrusion is on the housing and the other is on the jacket. In certain embodiments, the first notch and protrusion can serve as a locking system, as well as ensuring proper alignment.
Moving now to
The jacket may also have a secondary frame 26. The secondary frame may be used to secure the fabric to the jacket by sandwiching a portion of the fabric between the secondary frame and the grill 12. A portion of a tag 28 for branding may also be sandwiched between the secondary frame 26 and the grill 12. The jacket may also include one or more buttons or button user interfaces 30, such as for volume, source, play, pause, stop, previous, next, power, etc. The buttons 30 may extend through the fabric 14, grill 12, and/or secondary frame 26 to engage the speaker core 4. In some embodiments, the buttons 30 are user interfaces. In some embodiments, the buttons 30, or the user interfaces, are mechanical portions of buttons, and the electrical portions are on the speaker core 4. In some embodiments, the speaker core may also include additional mechanical portions of the buttons. In some embodiments, the speaker core includes all parts of the buttons and there are no buttons and no button parts on the jacket.
As has been mentioned, the jacket 2 may also include portions of an alignment and/or locking system. Alignment feature 16B is shown as a protrusion on a bottom of the jacket. In addition, locking features of a deflection arm 18B and a protrusion 18C are shown as part of the jacket 2. The jacket 2 can also include feet 32, such as rubberized feet.
The jacket 2 can provide many benefits to the speaker system. In addition to providing a particular outward appearance, the jacket 2 can offer protection to the speaker system. For example, the jacket can protect the one or more speaker 8 from damage by providing an outer protective covering. In addition, different jackets can be used to change aspects of the speaker system based on the same or a similar speaker core. The speaker core may respond differently electronically depending on the jacket that it is paired with.
The jacket 2 may impart different properties to the speaker system such as more or less strength, shock absorption, or ruggedness. The illustrated jacket 2 can provide everyday protection while being easy for use on the go. In addition, the grill 12 and/or secondary frame 26 may also provide shock and/or drop protection to the speaker core. For example, the grill 12 and/or secondary frame 26 may be an elastic material.
Looking now at
The jacket 2′ is similar in many respects to the previously described jacket 2. For example, as can best be seen with reference to
One of the main differences, besides the outside appearance, is that the jacket 2′ includes a base member 34. The base member 34 can attach to the secondary frame 26′ on the bottom and sides as seen in
In addition to providing a particular outward appearance, the base member 34 and/or secondary frame 26′ may also provide shock and drop protection to the speaker system. In some embodiments, at least one of the base member 34 and secondary frame 26′ are made of an elastic material such as a rubberized plastic. The base member 34 and secondary frame 26′ can also attach to form a tight seal to prevent water or debris from entering the jacket 2′ along the bottom or sides of the system. Thus, if the system were to be placed on grass or sand, the sealed base member 34 and secondary frame 26′ can prevent debris from entering through the connection points.
At the same time, the jacket can also provide one or more drainage hole 36 (
The illustrated jacket 2′ can be ideally suited for active outdoor use. The jacket 2′ can be used at the beach, pool, or park, while also protecting against impacts.
The jacket of
The jacket can also have holes 35 on the top of the jacket. The holes 35 can be used to attach a strap or handle 37 to the jacket. An arc line 37 schematically represents a handle or strap 37 in
Turning now to
The jacket 2″ can be assembled onto the speaker core 4 in multiple pieces. Thus, instead of sliding the jacket on from the side, a first piece 12A (
The jacket 2″ may use an alignment feature on the speaker core 4 such as one or more of the notches 20A (
Referring now to
In some embodiments, the jacket 2″ can include one or more bar 44. The bar 44 can be used to hold the speaker system, among other uses. For example, a separate clip, hook, bungee, tether, and/or carabineer can engage the bar to facilitate attaching the speaker system to another object.
A speaker system may also include an accessory mounting plate 40.
The accessory mounting plate 40 can include a base 48 and a receiving area 50. The receiving area 50 can be configured to receive an accessory. The receiving area 50 can comprise a slot, or opening configured to receive a portion of an accessory. Thus, the receiving area 50 can have surrounding wall 52. In some embodiments, the receiving area 50 can also include a lip or flange or other surface 54 that may extend from the wall 52. The receiving area 50 as illustrated has a raised wall 52 with an inwardly protruding lip or flange 54. An accessory can be received into the receiving area 50 and then can be locked in place. This can be done in many ways, such as by trapping a portion of the accessory between the base 48 and the lip 54 and/or expanding a member against the wall 52. Other attachment mechanisms or systems can also be employed.
Screws 38 can be used to attach the accessory mounting plate 40 to the jacket and/or speaker core. The accessory mounting plate 40 can attach directly to the speaker core without the use of a jacket. As can be seen in
In
The jacket can also have holes 35 on the top of the jacket. The holes 35 can be used to attach a strap or handle to the jacket. In addition, it can be seen that the jacket includes additional buttons similar to the jacket of
Looking now at
In some embodiments, the jacket 200 can further include a space 45 cut out of the secondary frame 2600 to allow the loop 43 to not interfere with the speaker core. In this way, the loop 43 does not add any additional thickness to the jacket 200. In addition, sliding attachment of the jacket to the speaker core is not affected. In addition, the jacket can include a retention member 47 that can be used to help the loop 43 stay in place within the jacket. The retention member 47 can be an arm positioned within and/or extending to the space 45. The loop 43 can be positioned on or above the retention member 47 when not in use. This can help maintain the loop 43 out of the way when assembling the speaker system without making use of the loops externally. In
When desired to use one or more loops 43, a user can pull one or more out from engagement with the retention member 47 and then out of the jacket. This is preferably done when the speaker core and jacket are separated. The user can then advance the jacket onto the core with them loops out. A strap, handle, or other accessory can be attached to the loop(s) when desired. In some embodiments, a jacket 200 includes one loop 43 or multiple loops 43. The loops 43 can be fabric or other flexible material. In some embodiments, the loop is made of nylon.
Speaker Core
Referring now to
The speaker core 4 can provide the primary electronics and controls of the speaker system 10, as well as also including the speaker(s) 8. The speaker core 4 can include a housing 6 and one or more speakers 8 positioned within the housing 6. The speaker core 4 may connect via wires or wirelessly to one or more of a television, CD or Blue Ray player, router, repeater, stereo receiver, amplifier, cell phone, tablet, laptop, desktop computer, or storage drive, among other devices. For example, the speaker core 4 may stream music or other sound from a computer device such as a cell phone or tablet via wireless Bluetooth or other wireless standard.
Looking at
In addition to using a separate jacket 2, the housing 6 may further include end caps 56 to cover speakers 8 on the ends of the speaker core 4 as best seen in
As can be seen in
In addition, by having the primary speakers 8A opposite each other in the speaker core, the speaker core can alleviate the common problem of “walking” experienced by many small portable Bluetooth speaker systems. In these other systems, when the volume is increased, the vibration of the speakers can cause the speaker system to rattle and “walk.” The primary speakers 8A balance each other out. In addition, the illustrated arrangement of a tweeter 8B and a passive low range speaker 8C on the front and a mirror image on the back also acts to counter balance the system to prevent walking.
Speaker pairs can be placed symmetrically or substantially symmetrically on the sides of the housing 6. In some embodiments, the speaker system 10 does not produce substantially any vibration or produces low vibration even while playing back audio at high sound intensity (e.g., high volume). This can be achieved due to using a small number of speakers, and arranging the speakers in the enclosure as described above. Placing speakers of similar type in opposing orientations, such as on opposing sides facing in different directions, can limit or reduce overall vibration of the speaker system 10 because forces generated by opposing speakers are generally equal and opposite and tend to cancel. For example, substantially no vibration or low vibration can be achieved by symmetrical or substantially symmetrical arrangement of various pairs of speakers, such as primary speaker pairs, low frequency speaker pairs, tweeter pairs, etc. Reducing vibration can prevent undesired movement of the speaker system 10 due to vibration, improve user experience, etc.
Turning now to
In some embodiments, all of the major components of the speaker core are mounted or suspended by the elastic material 82 and are therefore isolated from each other. For example, all of the speakers and the battery can be mounted or suspended by the elastic material 82 within the speaker core.
In addition to the elastic material 82 providing acoustic benefits, it can also seal the housing to be waterproof. Other seals can also be used to ensure that the speaker core 4 is water proof. For example, a seal 84 can be placed around the buttons that allows mechanical inputs to be transferred through the seal. Also any connects, such as the microUSB connector and the audio connector can be waterproofed to not allow water into the speaker core.
Additionally, an atmospheric valve 60 as best seen in
As has been mentioned, some of the jackets can include drainage holes and or channels to allow for fluid or debris to be drained from between the jacket and speaker core. The speaker core itself can also include self-draining features. For example, waterproofing of the speaker core and the having a shape with slightly angled sides can also facilitate usage of the system in wet environments. In the embodiments shown herein all of the surfaces are designed such that no water should get trapped in any cavities. For example, in some embodiments the side walls of the housing can be about 3, 5, 8, 10, 12, and 15 degrees from vertical. The angled sides can allow for self-draining while preventing pooling, even at the speakers. In addition, the large holes at the bottoms of the end caps 56 can also facilitate drainage.
In the illustrated embodiment, the speaker driver 8B is a tweeter having a diameter D of about 1.1 inches (approximately 28 mm). In various embodiments, the diameter D of the speaker driver 8B is at least about 0.5 inches, at least about 0.75 inches, or at least about 1 inch. In some embodiments, the diameter of the speaker driver 8B can be smaller than 0.5 inches or greater than about 1.1 inches. The depth of the speaker driver 8B can be selected to correspond to the depth of the speaker core 4. For example, the depth of the speaker driver 8B can be less than about 1.7 inches. As another example, the depth of the speaker driver 8B can be less than about 4 inches.
In the illustrated embodiment, the speaker driver 8C is a passive radiator for generating relatively low frequency output and having a length L′ of about 2.1 inches (approximately 54 mm) and a height H′ of about 1.7 inches (approximately 43 mm). In various embodiments, the speaker driver 8C can have a length L′ of greater than about 1.0 inches, greater than about 1.5 inches, or greater than about 1.75 inches long, and a height H′ of greater than about 0.75 inches, greater than about 1.0 inches, or greater than about 1.5 inches. In some embodiments, the length L′ of the speaker driver 8C can be smaller than about 1.0 inches or greater than about 2.1 inches and the height H′ can be smaller than about 0.75 inches or greater than about 1.7 inches. In certain embodiments, for example, the speaker driver 8C can be about 4.0 inches long (approximately 101.2 mm) and about 2.4 inches high (approximately 61.2 mm). The depth of the speaker driver 8C can be selected to correspond to the depth of the speaker core 4. For example, the depth of the speaker driver 8C can be less than about 1.7 inches. As another example, the depth of the speaker driver 8C can be less than about 4 inches.
The speaker system 10 can be portable. In some embodiments, the length L of the speaker system 10 can be about 6.5 inches (approximately 165.2 mm). The depth or width W of the speaker system 10 can be about 1.7 inches (approximately 43.5 mm), and the height H of the speaker system 10 can be about 2.3 inches (about 58.8 mm). In certain embodiments, the speaker system 10 is less than about 12 inches long, less than about 4 inches wide, and less than about 5 inches tall. In some embodiments, the speaker system 10 can be longer or shorter than about 6.5 inches, wider or thinner than about 1.7 inches, and taller or shorter than about 2.3 inches. For example, the speaker system 10 can be about 11.2 inches long (approximately 284 mm), about 3.4 inches wide (approximately 85.7 mm), and about 3.9 inches tall (about 98.6 mm). In certain embodiments, the speaker system 10 is less than about 24 inches long, less than about 8 inches wide, and less than about 10 inches tall.
While maintaining portability, the speaker system 10 can also generate audio output having a desired fidelity and loudness in part by being large enough to support a speaker driver architecture capable of providing such fidelity and loudness. For instance, the speaker system 10 can be large enough to support an arrangement of speaker drivers such as is shown and described. Moreover, the speaker core 4 can be large enough such that the housing 6 defines an interior cavity having a sufficient volume to provide a desired acoustic affect. Along these lines, certain embodiments of the speaker system 10 are at least about 1 inch wide, at least about 4 inches long, and at least about 1.5 inches tall. In further embodiments, the speaker system 10 is at least about 0.75 inches wide, at least about 3.5 inches long, and at least about 1.0 inch tall. In yet additional embodiments, the speaker system 10 is at least about 1.5 inches wide, at least about 5 inches long, and at least about 2 inches tall.
In the illustrated embodiment, the speaker driver 8A is a full range driver or woofer having a diameter D′ of about 1.5 inches (approximately 39 mm). In various embodiments, the diameter D′ of the speaker driver 8A can be at least about 0.5 inches, at least about 0.75 inches, or at least about 1.0 inch. In some embodiments, the diameter D′ of speaker driver 8A can be smaller than 0.5 inches or greater than about 1.5 inches. In certain embodiments, for example, the diameter D′ of the speaker driver 8A can be about 2.4 inches (approximately 60 mm). The depth of the speaker driver 8A can be selected to correspond to the depth of the speaker core 4. For example, the depth of the speaker driver 8A can be less than about 1.7 inches. As another example, the depth of the speaker driver 8A can be less than about 4 inches.
In the embodiment of
Looking now to
The main chamber 81 can house the majority of the electronics, batteries, speakers, etc. The side chamber(s) can house certain electronic connectors, buttons, or other components. Wires can extend between two or more of the chambers. The chamber(s) may include access doors, such as door 71. The access door can also include a seal to help seal the chamber.
In addition,
Looking at
The battery 93 and main PCB 85 can be further isolated from the housing through the use of shock absorbers 99. A frame 95 can be used to attach the battery 93 and the main PCB 85. Shock absorbers 99 can connect the frame to the housing 600. The shock absorbers 99 can be rubber stoppers connected to a frame. This can allow the frame and connected parts to be suspended by the shock absorbers not directly contacting any other part of the housing except through the shock absorbers.
The frame 95 can surround the battery 93 and the main PCB 85 can be mounted to the frame 95. The frame 95 can have four arms 97 with rubberized ends 99 which can connect to the housing 600. The four arms 97 can be connected to the front and back sides of the housing. The arms 97 can be connected to points of the housing 600 surrounding the passive speakers. The arms 97 can be not connected to the top or bottom of the housing. The arms 97 can further not be connected to the sides of the housing. Other connection positions or orientations can also be used.
Where an electrical connector is directly connected to the housing and to the main PCB board, the main PCB board, even if otherwise isolated and shock mounted, can still be subject to the vibrations of the housing through the direct mount of the electrical connector. As discussed above, the illustrated system can beneficially isolate certain components from the vibrations of the housing. In addition, the use of separate chambers and separate PCB boards and/or components in the separate internal chambers can also beneficially allow for certain parts of the housing to be treated differently, such as for waterproofing.
Accessories
As has been mentioned, a speaker system may include an accessory mounting plate 40. It will be understood that the accessory mounting plate and the accessories described below can be used for different types of speaker systems and different types of devices, including but not limited to cameras, GPS, cell phones, tablets, and bicycle computers.
Still referring to
Turning now to
The mounting body can include a pair of mount flanges 120, 122 that can be advanced into the receiving area 50 of the accessory mounting plate 40. The mount flanges 120, 12 can be positioned between the base 48 and the lip 54 to lock the mount 110 in place in the accessory mounting plate 40 (see
As best seen in
In some embodiments, the mounting body 112 may include one or more feet 116 (two shown). The feet 116 can provide additional grip to secure the system in place.
In some embodiments, the mount 110 can also include a strap 114. The strap 114 can pass through the mounting body 112 and be used to attach the system to a pole, post, fence, chair, tree, backpack, bicycle, or another desired object. The strap 114 can include Velcro or other connecting system to connect the ends of the strap. The strap 114 can pass through one or more slots in the mounting body 112.
In some embodiments the mounting body 112 can be a two-piece body 112A-B. The mounting body may controllably rotate or pivot. The mounting body 112 can be seen in rotated positions in
The illustrated mount 110′ is similar to the mount 110 and can provide many of the features described above. For example, the mount 110′ is shown having a two-piece mounting body 112A-B that can allow for rotation. In addition, the mount 110′ includes a spring loaded clip 128 on a bottom of the mounting body 112′. The clip 128 can be also used to attach the mount 110′ to another object. A strap may also be passed through the clip for additional attachment options.
Additional features shown on the mount 110′ include a loop 130 and a threaded hole 132. The loop 130 can be a full loop, a hook, a carabineer, etc. The threaded hole 132 can be used as part of a tripod mount.
Turning now to
The mount 110″ can be used to attach the system to a pole or bar, such as on a bicycle. Thus, the mount 110″ can be a bicycle mount, but may be used for other purposes. The mount 110″ is shown with an adjustable screw tightening bar clamp 134. The bar clamp 134 is shown with two pieces that are pinned with respect to one another and a screw that controls the relationship between them. An elastic material can be positioned within the bar clamp 134 to provide grip and protect from scratching, among other benefits.
The mount 110″ is also shown with a lever lock 136 instead of the button lock system described previously. It will be understood that a button lock system could be used on the mount 110″ and a lever lock 136 could be used on systems similar to those described above.
In the lever lock 136, a lever arm 138 controls the relationship between the mount flanges used to engage the accessory mounting plate 40. Rotating the lever 138 can engage or disengage the flanges 54 on the accessory mounting plate 40.
In some embodiments, such as that shown, a separate lock 140 can be used to secure the lever in place and prevent premature disengagement. The illustrated lock 140 includes a button on a secondary lever that can lock the lever arm in position. Pressing down on the button 142 can release the lever 138 and allow it to more from the position shown in
The secondary lever can also have a ramp 144 that eases closing the lever. The ramp 144 can allow the lever 138 to push the button down as the lever is advanced from the open to the closed positions. Once in the closed position, the lever 138 will have passed the ramp such that the button can pop back up, locking the lever 138 in place.
The lever arm can also be spring biased to the open position. This can make connection easier for a user as the lever arm is maintained in the correct open position prior to connection to the accessory mounting plate 40.
The mount 110″ can also include a safety feature 146 to ensure proper connection to the accessory mounting plate 40. The safety feature 146 as shown, includes a spring biased pin 148 and a locking protrusion 150 that can engage the lever arm 138. The top of the pin 148, in a raised and then lowered position, can be seen respectively, in
The pin 148 is configured to engage the base 48 of the accessory mounting plate 40. Only when the pin is fully engaged and pressed downward, will the pin release the lever arm for rotation. This safety feature 146 can help ensure that when the lever arm 138 is in the connected position, the mount 110″ truly is connected to the accessory mounting plate 40. This can help prevent the user from believing that the mount 110″ is connected when it is not, potentially dropping one of the mount 100″ or the accessory mounting plate 40 including any device attached to the accessory mounting plate 40, such as a speaker system.
Although this invention has been disclosed in the context of certain preferred embodiments and examples, it will be understood by those skilled in the art that the present invention extends beyond the specifically disclosed embodiments to other alternative embodiments and/or uses of the invention and obvious modifications and equivalents thereof. In addition, while a number of variations of the invention have been shown and described in detail, other modifications, which are within the scope of this invention, will be readily apparent to those of skill in the art based upon this disclosure. It is also contemplated that various combinations or sub-combinations of the specific features and aspects of the embodiments may be made and still fall within the scope of the invention. Accordingly, it should be understood that various features and aspects of the disclosed embodiments can be combined with or substituted for one another in order to form varying modes of the disclosed invention. Thus, it is intended that the scope of the present invention herein disclosed should not be limited by the particular disclosed embodiments described above, but should be determined only by a fair reading of the claims that follow.
Similarly, this method of disclosure, is not to be interpreted as reflecting an intention that any claim require more features than are expressly recited in that claim. Rather, as the following claims reflect, inventive aspects lie in a combination of fewer than all features of any single foregoing disclosed embodiment. Thus, the claims following the Detailed Description are hereby expressly incorporated into this Detailed Description, with each claim standing on its own as a separate embodiment.
This application claims priority to U.S. Provisional App. No. 61/923,554 filed Jan. 3, 2014 which is hereby incorporated herein by reference in its entirety and is to be considered a part of this specification. Any and all applications for which a foreign or domestic priority claim is identified in the Application Data Sheet as filed with the present application are hereby incorporated by reference under 37 CFR 1.57. This application is also related to U.S. Provisional App. No. 61/923,670 filed Jan. 4, 2014 and the corresponding U.S. application Ser. No. 14/586,701 filed Dec. 30, 2014, entitled “CONFIGURABLE PORTABLE SOUND SYSTEMS WITH INTERCHANGEABLE ENCLOSURES” which are incorporated by reference in their entirety. This application is also related to U.S. Provisional App. No. 61/923,575 filed Jan. 3, 2014 and the corresponding U.S. application Ser. Nos. 14/588,800 and 14/588,778, both filed Jan. 2, 2015, entitled “AUDIO ARCHITECTURE FOR A PORTABLE SPEAKER SYSTEM” and “PORTABLE STEREO SOUND SYSTEM”, respectively, which are incorporated by reference in their entirety.
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