Patent Grant
8408924
The present specification relates to power adapters.
Power adapters are commonly used to power a variety of electrical devices. For example, radios, phones, notebook computers, and other devices frequently receive power from a power adapter that connects to an electrical outlet. Although power adapters provide users the ability to use their electrical devices and recharge batteries, many power adapters are awkward to use.
A removable plug can be coupled to a power adapter in multiple orientations. A user can select the orientation of the plug relative to the power adapter housing so that the power adapter assembly fits in the space constraints of a particular electrical outlet. For example, the electrical prongs can extend from one side when connecting to a wall outlet, and the electrical prongs can extend from a different side to connect to a socket of a power strip.
In one general aspect, an electrical adapter assembly includes: a housing defining a cutout, the housing including first electrical contacts and second electrical contacts disposed within the cutout; and a plug including a body having a first portion extending from an edge of a second portion, the first portion extending generally orthogonal to the second portion, electrical prongs extending from the first portion, and electrical contacts coupled to the electrical prongs, the body of the plug being receivable in the cutout in at least two orientations, and in each of the at least two orientations, one or more of the electrical contacts of the plug engage at least one of the first electrical contacts or at least one of the second electrical contacts.
Implementations may optionally include one or more of the following features. For example, the electrical prongs extend outward from the housing when the body of the plug is received in the cutout. The at least two orientations include a first orientation and a second orientation, in the first orientation, the electrical contacts of the plug establish an electrical connection with the first electrical contacts and the second portion of the body of the plug is disposed over the second electrical contacts, and in the second orientation, the electrical contacts of the plug establish an electrical connection with the second electrical contacts and the second portion of the body of the plug is disposed over the first electrical contacts. The housing has a first side oriented orthogonal to a second side, and in the first orientation, the electrical prongs extend in a direction orthogonal to the first side of the housing, and in the second orientation, the electrical prongs extend in a direction orthogonal to the second side of the housing. The body of the plug includes a third portion extending generally orthogonal to the first portion and the second portion, the housing further includes third electrical contacts disposed within the cutout, and the body of the plug is receivable in the cutout in at least three orientations, and in each of the at least three orientations, one or more of the electrical contacts of the plug engage at least one of the first electrical contacts, at least one of the second electrical contacts, or at least one of the third electrical contacts.
Implementations may also optionally include one or more of the following features. For example, the at least three orientations include a first orientation, a second orientation, and a third orientation, and (i) in the first orientation, the electrical contacts of the plug establish an electrical connection with the first electrical contacts, the second portion of the body is disposed over the second electrical contacts, and the third portion of the body is disposed over the third electrical contacts, (ii) in the second orientation, the electrical contacts of the plug establish an electrical connection with the second electrical contacts, the second portion of the body is disposed over the third electrical contacts, and the third portion of the body is disposed over the first electrical contacts, and (iii) in the third orientation, the electrical contacts of the plug establish an electrical connection with the third electrical contacts, the second portion of the body is disposed over the first electrical contacts, and the third portion of the body is disposed over the second electrical contacts.
In another general aspect, a power adapter includes: a housing defining a cutout, the housing having a first surface disposed within the cutout and a second surface disposed within the cutout, the first surface being generally orthogonal to the second surface; first electrical contacts disposed at the first surface; second electrical contacts disposed at the second surface, and the housing is configured to receive a body of a plug in the cutout in at least two orientations such that in each of the at least two orientations, an electrically conductive connection is established with the plug and at least one of the first electrical contacts or at least one of the second electrical contacts.
Implementations may optionally include one or more of the following features. For example, the power adapter includes adapter circuitry located in the housing, and the adapter circuitry is configured to receive electrical input from both the first electrical contacts and the second electrical contacts. The first electrical contacts and the second electrical contacts are electrically connected such that voltages applied to the first electrical contacts are transmitted to the second electrical contacts, and voltages applied to the second electrical contacts are transmitted to the first electrical contacts. The first electrical contacts protrude from the first surface and the second electrical contacts protrude from the second surface. The cutout is defined in a corner of the housing. The housing includes a cube-shaped portion disposed in the cutout, the cube-shaped portion including the first surface, the second surface, and a third surface oriented orthogonal to the first surface and the second surface. The housing has a third surface disposed within the cutout, the third surface being generally orthogonal to the first surface and the second surface, the power adapter further includes third electrical contacts disposed at the third surface, the housing is configured to receive a body of a plug in the cutout in at least three orientations such that in each of the at least three orientations, an electrically conductive connection is established between the plug and at least one of the first electrical contacts, at least one of the second electrical contacts, or at least one of the third electrical contacts.
In another general aspect, a member having a first portion extending from an edge of a second portion, the first portion extending generally along a first plane and the second portion extending along a second plane generally orthogonal to the first plane, the first portion having a first side and a second side opposite the first side; electrical prongs coupled to the first side of the first portion; and electrical contacts coupled to the electrical prongs.
Implementations may optionally include one or more of the following features. For example, the first portion defines one or more first recesses, and the second portion defines one or more second recesses having approximately the same dimensions as the first recesses, and the electrical contacts are disposed in the first recesses or the second recesses. The second portion has a first side and a second side opposite the first side, the second side of the first portion and the second side of the second portion generally forming a right angle, and the first recesses are defined in the second side of the first portion and the second recesses are defined in the second side of the second portion. The body defines an edge where the second side of the first portion meets the second side of the second portion, and the first recesses and the second recesses are defined with symmetry across the edge. The plug includes a moveable cover configured to cover the electrical contacts when the electrical plug is not coupled to a power adapter, and configured to not cover the electrical contacts when the electrical plug is coupled to a power adapter.
Implementations may also optionally include one or more of the following features. The member has a third portion extending from an edge of the first portion and a second edge of the second portion, the third portion extending along a third plane generally orthogonal to the first plane and the second plane. The third portion has a first side and a second side opposite the first side; the first portion defines one or more first recesses, and the second portion defines one or more second recesses having approximately the same dimensions as the first recesses, and the third portion defines one or more third recesses having approximately the same dimensions as the first recesses; the electrical contacts are disposed in the first recesses, the second recesses, or the third recesses; and the first recesses, the second recesses, and the third recesses are defined with symmetry across one or more edges, the edges being defined between any two of the second side of the first portion, the second side of the second portion, and the second side of the second portion.
Advantageous implementations can include one or more of the following features. An electrical plug can be coupled to a power adapter in at least two orientations. The plug can be coupled to the electrical adapter so that electrical prongs of the plug extend from different sides of the power adapter in different orientations.
The details of one or more implementations are set forth in the accompanying drawings and the description below. Other features and advantages will become apparent from the description, the drawings, and the claims.
Like reference numbers and designations in the various drawings indicate like elements.
A power adapter receives a removable plug in at least two orientations. The various orientations of the plug permit a user to change the orientation of the plug relative to the power adapter. For example, in one orientation, the electrical prongs extend from a first side of the power adapter. In another orientation, the electrical prongs extend from a second side of the power adapter. A user can move the electrical plug from one orientation to another to permit the power adapter to make best use of the space around an electrical outlet. If the power adapter does not fit at an electrical outlet in one orientation, the user can reposition the electrical plug to another orientation to allow the power adapter to be plugged into the outlet.
The power adapter 10 includes adapter circuitry (not shown), which can be located within a housing 12. The adapter circuitry can, for example, convert an alternating current (AC) input voltage to a direct current (DC) output voltage. An output cable 11 can be coupled to the power adapter 10 to provide DC power to an electrical device, such as a cellular phone, laptop computer, or media playing device.
The housing 12 includes generally flat sides 14, 16, 18 oriented generally perpendicular to each other such that the housing 12 has a block-like shape. The housing 12 can have a length, L, longer than the height, H, which is longer than the depth, D. Because the dimensions of the housing 12 can be unequal, different orientations of the housing 12 relative to a power outlet can have different clearance requirements. For example, when the first side 14 is parallel to an outlet, the length, L, of the power adapter 10 will extend perpendicular to the outlet. By contrast, when the second side 16 is parallel to the power adapter 10, the depth, D, will extend perpendicular to the outlet. As a result, different orientations of the power adapter 10 relative to an outlet have different space requirements.
The housing 12 defines a cutout 20 in which to receive the plug 30. The cutout 20 is defined at an edge 22 of the housing 12 where the two perpendicular sides 14, 16 meet. The cutout 20 extends through a portion of both of the sides 14, 16, and is generally symmetrical about the edge 22.
The shape and size of the cutout 20 are selected to approximate the shape and size of a body 32 of the plug 30. For example, the depth of the cutout D1 is approximately equal to the width, W, of a first portion 34 and a second portion 36 of the body 32 of the plug 30. In each of the sides 14, 16, the cutout 20 has a shape that generally matches the shape of the first portion 34 and the second portion 36 of the body 32 of the plug 30 (e.g., generally rectangular or square), permitting the body 32 to be received in the cutout 20 (see
Within the cutout 20, the housing 12 includes a first surface 24 disposed generally parallel to the first side 14 and a second surface 26 oriented generally parallel to the second side 16. The first surface 24 and the second surface 26 are generally flat to engage a generally flat first inner surface 38 and a generally flat second inner surface 40 (
At the first surface 24, the power adapter 10 includes first electrical contacts 25a, 25b. At the second surface 26, the power adapter 10 includes second electrical contacts 27a, 27b. The first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b can each include multiple contacts, for example, one contact for a phase (e.g., active or live AC) connection, and another contact for a return (e.g., neutral) connection. Additional contacts can be included, for example, to permit a connection to ground or to permit other electrical connections. The first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b protrude from their respective surfaces 24, 26. When the plug 30 is detached from the power adapter 10, the power adapter 10 is not connected to AC power and contact with the exposed first electrical contacts 25a, 25b and second electrical contacts 27a, 27b is not dangerous. In some implementations, the first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b can be flush with or can be recessed into the surfaces 24, 26.
The first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b are coupled to the adapter circuitry, and are configured to receive AC power. The first electrical contacts 25a, 25b and second electrical contacts 27a, 27b can both be connected to the adapter circuitry such that electrical power applied to either the first electrical contacts 25a, 25b or the second electrical contacts 27a, 27b is transmitted to the adapter circuitry.
The first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b are electrically connected to each other so that power applied to the first electrical contacts 25a, 25b also connects power to the second electrical contacts 27a, 27b, and vice versa. Thus an electrical connection to either the first electrical contacts 25a, 25b or the second electrical contacts 27a, 27b will supply power to the adapter circuitry. Alternatively, in some implementations, the first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b can be electrically isolated from each other and still be coupled to the adapter circuitry.
The electrical plug 30 includes the body 32, electrical prongs 54a, 54b, and electrical contacts 56a, 56b. The body 52 includes the first portion 34 that extends from an edge 42 of the second portion 36. The first portion 34 extends generally perpendicular to the second portion 36, such that the body 32 has a generally L-shaped cross-section. The outer surface 35 of the first portion 34 and the outer surface 37 of the second portion 36 are generally square, corresponding to the size of the cutout 20. The width, W, of the first portion 34 and the second portion 36 is generally the same as the depth, D1, of the cutout 20, so that the outer surfaces 35, 37 are flush with the sides 14, 16 of the housing 12 when the body 32 is received in the cutout 20.
The electrical prongs 54 extend from the outer surface 35 of the first portion 34 of the body 32. The electrical prongs 54 can extend generally perpendicular to the surface 35. The electrical prongs 54 can include, for example, two or more prongs for insertion into an AC power outlet.
Referring to
The electrical contacts 56a, 56b are disposed in recesses 58a, 58b in the first inner surface 38 of the first portion 34. The recesses 58a, 58b admit the first electrical contacts 25a, 25b or the second electrical contacts 27a, 27b, depending on the orientation of the plug 30 relative to the power adapter 10. The second portion 36 defines recesses 60 that admit the first electrical contacts 25a, 25b or the second electrical contacts 27a, 27b (again depending on the orientation of the plug 30 relative to the power adapter 10), but the recesses 60 do not include electrical contacts. The recesses 60 can be defined symmetrically relative to the recesses 58a, 58b across an inner edge 62 located between the first inner surface 38 and the second inner surface 40. For example, the recesses 60 can have reflectional symmetry across the inner edge 62 (such that the recesses 60 and the recesses 58a, 58b are mirror images of each other) or rotational symmetry (such that the position of the recesses 60 is rotationally offset relative to the position of the recesses 58a, 58b by, for example, 180 degrees), or both.
In addition, or alternatively, electrical contacts can be included in the recesses 60. In some implementations, electrical contacts can be located in each of the recesses 58a, 58b, 60. As a result, the power adapter 10 can include only one set of electrical contacts in the cutout 20 and still be able to establish an electrical connection (e.g., establish an electrically conductive path) with the plug 50 in multiple orientations.
Referring to
Because the electrical contacts 56a, 56b are disposed within the recesses 58a, 58b, the possibility that a user accidently touches the electrical contacts 56a, 56b while the electrical prongs 54 are connected to AC power is less than if the electrical contacts 56a, 56b were flush with or protrude from the inner surface 38. The plug 30 can include one or more safety features that further limit accidental exposure to AC power, such as fuses, circuit breakers, switches, and current limiters. The plug 30 can also include one or more safety features that, for example, block the electrical contacts 56a, 56b from accidental exposure to a user. An example of a safety mechanism is described in greater detail with reference to
The plug 30 can be coupled to the power adapter 10 in at least two orientations. Although the power adapter 10 receives only one plug 30 at a time, the plug 30 is shown in two positions in
In the first orientation, the electrical contacts 56a, 56b are aligned with the first electrical contacts 25a, 25b, for example, along a first axis 80. To couple the plug 30 to the power adapter 10 in the first orientation, the user moves the body 32 of the plug 30 into the cutout 20. The electrical contacts 56a, 56b engage the first electrical contacts 25a, 25b of the power adapter 10, forming an electrical connection that connects the electrical prongs 54a, 54b to the adapter circuitry through the first electrical contacts 25a, 25b. The second portion 36 of the body 32 covers the second electrical contacts 27a, 27b, which are received in the recesses 60. The electrical prongs 54a, 54b extend from the side 14 of the housing 12, as shown in
The plug 30 and the power adapter 10 form a power adapter assembly 90 that can be used to power electrical devices. The prongs 54a, 54b can be inserted into an electrical outlet so that the power adapter 10 provides power to one or more electrical devices. Because the second electrical contacts 27a, 27b are covered by the body 32 of the plug 30, the second electrical contacts 27a, 27b do not expose a user to AC power.
The plug 30 can be removed from the power adapter 10 and replaced in a second orientation relative to the power adapter 10. In the second orientation, the electrical contacts 56a, 56b of the plug 30 are aligned with the second electrical contacts 27a, 27b, for example, along a second axis 82. To couple the plug 30 to the power adapter 10 in the second orientation, the user moves the body 32 of the plug 30 into the cutout 20 so that the electrical contacts 56a, 56b engage the second electrical contacts 27a, 27b of the power adapter 10. This forms an electrical connection between the electrical prongs 54a, 54b and the adapter circuitry through the second electrical contacts 27a, 27b. In the second orientation, the second portion 36 of the body 32 covers the first electrical contacts 25a, 25b, and the electrical prongs 54a, 54b extend from the side 16 of the housing 12, as shown in
Because the electrical prongs 54a, 54b extend from different sides 14, 16 of the housing 12 during in the first and second orientations, the user can change the orientation of the plug 30 relative to the power adapter 10 to select the most advantageous orientation for a particular use. For example, in the first orientation, shown in
In the second orientation, the prongs 54a, 54b are oriented perpendicular to the side 16, the largest side of the power adapter 10. In the second orientation, the power adapter assembly 90 can be used at an electrical outlet in a wall. The housing 12 can extend parallel to the wall to avoid interfering with furniture or people passing by.
In addition, the power adapter 10 and the plug 30 maintain polarity during the first and the second orientations. Due to the arrangement of the first electrical contacts 25a, 25b and the second electrical contacts 27a, 27b, the adapter circuitry receives the same electrical input regardless of the orientation of the plug 30. For example, the contact 25a and the contact 27a are electrically connected, and the contact 25b and the contact 27b are electrically connected. The contact 25b is located above the contact 25a at the surface 24. By contrast, the position of the contacts 27a, 27b is reversed. Contact 27a is located above the contact 27b at the surface 26.
In the first orientation, the contact 56a connects to the contact 25a, and in the second orientation, the contact 56a connects to the contact 27a. Even though the orientation of the plug 30 changes between the first orientation and the second orientation, the same prong 54a will be connected to a particular input to the adapter circuitry (whether through contact 25a or contact 27a) in both the first orientation and the second orientation. Similarly, the prong 54b will connect to either the contact 25b or the contact 27b regardless of the orientation of the plug 30 to the power adapter 10, thus maintaining polarity of the input to the adapter circuitry.
From the first orientation, the user removes the plug 30 from the power adapter 10. In some implementations, the housing 12 defines a notch or groove that permits the user to pry the plug 30 out of the cutout 20. In other implementations, the power adapter 10 includes a release mechanism, such as a latch or a switch that releases a fastening mechanism that secures the plug 30 to the power adapter 10, allowing to the plug 30 to become uncoupled from the power adapter 10.
As shown in
Referring to
Referring to
When the body 130 is brought toward the power adapter 134, ends 131 of the body 130 press the pins 135 into the cavities 136. This provides the body 130 clearance to move further into the cutout 138 while loading the springs 137. When the body 130 is received in the cutout 138, recesses 132 defined in the ends 131 of the body 130 align with the pins 135. The springs 137 cause the pins 135 to extend out of the cavities 136 and into the recesses 132. The pins 135, partially disposed in the recesses 132 and partially disposed in the power adapter 134, secure the body 130 to the power adapter 134. A sliding switch or other release mechanism (not shown) can be provided on the power adapter 134 to manually move the pins 135 into the power adapter 134, thus releasing the body 130.
Additional variations are also possible. For example, spring-loaded pins can be included in the body 130, and recesses to receive the pins can be included in the power adapter. Similarly, instead of pins, protruding edges can be received into channels. As another example, pins can be moved by other mechanisms other than springs. For example, a user can manipulate a control that causes pins to extend or retract from the power adapter 134 or from the body 130.
Referring to
Referring to
Referring to
The plug 210 includes a body 216 that defines a recess 212 and a compartment 215. The electrical contact 211 is disposed in the recess 212. The compartment 215 is open to the recess 212, so that the cover 213 can extend from the compartment 215 into the recess 212. The cover 213 covers the electrical contact 211 when the plug 210 is not coupled to the power adapter 220 (
When the plug 210 becomes coupled to the power adapter 220, an electrical contact 222 of the power adapter 220 enters the recess 212. The electrical contact 222 engages the cover 213 and moves the cover out of the recess 212 such that the cover 213 is received in the compartment 215. With the cover 213 moved out of the recess 212, the electrical contact 222 of the power adapter 220 can engage the electrical contact 211 of the plug 210 to establish an electrical connection with an electrical prong 217 of the plug 210. When the plug 210 is uncoupled from the power adapter 220, the spring 214 moves the cover 213 into the recess 212 to cover the electrical contact 211 of the plug 210.
Additional variations are possible. For example, the cover 213 can be retracted from the recess by mechanisms other than direct contact with the electrical contact 222. As another example, the electrical contacts located at different surfaces of a power adapter may not all be simultaneously connected to each other or to the adapter circuitry. As a result, AC power connected to electrical contacts at one surface of the power adapter may not expose AC power at electrical contacts located at different surface. If the body of the plug 210 breaks, some electrical contacts of the power adapter 220 (e.g., electrical contacts that are not positioned behind the electrical prongs) may become exposed. Nevertheless, when the exposed electrical contacts are not connected to the adapter circuitry, there is no danger to a user.
A power adapter 220 can include one or more switches that can connect electrical contacts of the power adapter 220 to and disconnect the electrical contacts from the adapter circuitry. For example, a pin extending from a surface of the plug 210 can engage a switch of the power adapter 220, causing the switch to connect a particular set of electrical contacts of the power adapter 220 to the adapter circuitry. Only the particular set of electrical contacts needed for the current orientation of the plug 210 can be connected to the adapter circuitry, while one or more other sets of electrical contacts of the power adapter 220 remain disconnected from the adapter circuitry for safety.
The plug 250 includes a body 251 that includes a first portion 254 that is generally in the form of a rectangular plate. The first portion 254 extends in a plane from an edge of a second portion 255, which is also generally in the form of a rectangular plate. The second portion 255 extends in a plane generally perpendicular to the plane of the first portion 254. The first portion 254 includes an outer side 258 opposite an inner side 260. The second portion 255 includes an outer side 259 opposite an inner side 261.
Each electrical prong 252a-252c is electrically connected to a corresponding electrical contact 254a-254c. The electrical contacts 254a-254c are located in recesses 256, and recesses 257 are defined in the inner side 261. The recesses 256 and the recesses 257 are rotationally symmetrical such that the configuration of the recesses 256 and the recesses 257 is the same in their respective inner sides 260, 261 except for a 180-degree rotation.
The power adapter 280 includes first electrical contacts 284a-284c and second electrical contacts 286a-286c that are received in the recesses 256, 257. In a first orientation, the first electrical contacts 284a-284c are received in the recesses 256, and each contact 284a-284c connects electrically with one of the electrical contacts 254a-254c of the plug 250. In a second orientation, the second electrical contacts 286a-286c are received in the recesses 256, and each contact 286a-286c connects electrically with one of the electrical contacts 254a-254c of the plug 250.
The plug 300 includes a body 302 with a first portion 304, a second portion 306, and a third portion 308. The first portion 304, the second portion 306, and the third portion 308 are each shaped as generally flat plates. The three portions 304, 306, 308 are oriented generally perpendicular to each other and meet at an exterior corner 310. The three portions 304, 306, 308 have respective outer surfaces 312, 314, 316 that form three adjacent faces of a cube. The three portions 304, 306, 308 also have respective inner sides 318, 320, 322 that meet at an interior corner 324 defined in the body 302.
The plug 300 includes electrical prongs 326a, 326b coupled to the outer surface 312 of the first portion 304. In the inner side 318 (opposite the surface 312 from which the electrical prongs 326a, 326b extend), the first portion 304 defines recesses 324. The plug 300 includes an electrical contact 328a, 328b disposed in each of the recesses 324. Each electrical contact 328a, 328b is electrically connected to one of the electrical prongs 326a, 326b. The recesses 324 and the electrical contacts 328a, 328b can be offset from the electrical prongs 326a, 326b and can be connected through the body 302 with wires or other conductors.
The second portion 306 defines recesses 330 through the inner side 320, and the third portion 308 defines recesses 332 through the inner side 322. The recesses 330, 332 do not have electrical contacts located within, but are configured to receive electrical contacts 368a, 368b, 370a, 370b, 372a, 372b of the power adapter 350.
The power adapter 350 includes a housing 351 that has a generally block-like shape and includes three generally perpendicular exterior sides 352, 354, 356. At a corner where the exterior sides 352, 354, 356 meet, the power adapter 350 defines a cutout 358 in which to receive the body 302 of the plug 300. Located in the cutout 358, the housing 351 includes a cube-shaped portion 360. The cube-shaped portion 360 is the selected to have generally the same size as a cube-shaped cutout 333 defined by the inner sides 318, 320, 322 of the body 302. As a result, the body 302 receives the cube shaped portion 360 in the cutout 333 of the body 302 when the cutout 358 receives the body 302 in the cutout 358 of the housing 351.
The cube-shaped portion 360 includes a first side 362, a second side 364, and a third side 366. Each of the sides 362, 364, 366 is generally flat and is perpendicular to the other two sides 362, 364, 366. First electrical contacts 368a, 368b are located at the first side 362, second electrical contacts 370a, 370b are located at the second side 364, and third electrical contacts 372a, 372b are located at the third side 366. The electrical contacts 368a, 368b, 370a, 370b, 372a, 372b each protrude from their respective sides 362, 364, 366.
The electrical contacts 368a, 368b, 370a, 370b, 372a, 372b are arranged symmetrically about a corner 373 of the cube-shaped portion 360. For example, the electrical contacts 368a, 368b, 370a, 370b, 372a, 372b are arranged with reflectional symmetry across: (i) a first edge 374, formed between the first side 362 and the second side 364; (ii) a second edge 376, formed between the second side 364 and the third side 366; and (iii) a third edge 378 formed between the third side 366 and the first side 362. The positions of any set of the electrical contacts 368a, 368b, 370a, 370b, 372a, 372b is a mirror image or reflection of the other electrical contacts 368a, 368b, 370a, 370b, 372a, 372b across any of the edges 374, 376, 378.
The recesses 324, 330, 332 are arranged with corresponding symmetry to match the positions of the electrical contacts 368a, 368b, 370a, 370b, 372a, 372b. As a result, when the plug 300 is coupled to the power adapter 350, each electrical contact 368a, 368b, 370a, 370b, 372a, 372b is received in one of the recesses 324, 330, 332.
The electrical contacts 368a, 368b, 370a, 370b, 372a, 372b are each connected to adapter circuitry within the housing 351. For example, the adapter circuitry receives electrical input from the first electrical contacts 368a, 368b, the second electrical contacts 370a, 370b, or the third electrical contacts 372a, 372b. In some implementations, the adapter circuitry receives electrical input simultaneously from a combination of the contacts 368a, 368b, 370a, 370b, 372a, 372b.
In some implementations, each of the contacts 368a, 370a, 372a are electrically connected together so that a voltage applied to the contact 368a is transmitted to the adapter circuitry and the contacts 370a, 372a, a voltage applied to the contact 370a is transmitted to the adapter circuitry and the contacts 368a, 372a, and a voltage applied to the contact 372a is transmitted to the adapter circuitry and the contacts 370a, 372a. Each of the contacts 368b, 370b, 372b is electrically connected together in a similar manner.
The body 302 of the plug 300 is received in the cutout 358 in at least three orientations. In the first orientation, the body 302 is aligned with the housing 351 along, for example, a first axis 390. Within the cutout 358, the inner side 318 of the body 302 engages the first side 362 of the housing 351 in the cutout 358. The first electrical contacts 368a, 368b are received in the recesses 324, and engage the electrical contacts 328a, 328b of the plug 300, establishing an electrically conductive connection. The electrical prongs 326a, 326b extend outward from the housing 351, perpendicular to the exterior side 352.
Also, in the first orientation, the electrical contacts 370a, 370b are covered by the second portion 306 and are received in the recesses 330, so that the inner side 320 of the body 302 engages the second side 364 of the housing 351. The electrical contacts 372a, 372b are covered by the third portion 308 and are received in the recesses 332, so that the inner side 322 engages the third side 366.
In the second orientation, the body 302 is aligned with the housing 351 along, for example, a second axis 392. Within the cutout 358, the inner side 318 of the body 302 engages the second side 364 of the housing 351. The second electrical contacts 370a, 370b are received in the recesses 324 and engage the electrical contacts 328a, 328b of the plug 300, establishing an electrically conductive connection. The electrical prongs 326a, 326b extend outward from the housing 351, perpendicular to the exterior side 354.
Also, in the second orientation, the first electrical contacts 368a, 368b are covered by the third portion 308 and are received in the recesses 332, so that the inner side 322 of the body 302 engages the first side 362 of the housing 351. The third electrical contacts 372a, 372b are covered by the second portion 306 and are received in the recesses 330, so that the inner side 320 engages the third side 366.
In the third orientation, the body 302 is aligned with the housing 351 along, for example, a third axis 394. Within the cutout 358, the inner side 318 of the body 302 engages the third side 366 of the housing 351. The third electrical contacts 372a, 372b are received in the recesses 324 and engage the electrical contacts 328a, 328b of the plug 300, establishing an electrically conductive connection. The electrical prongs 326a, 326b extend outward from the housing 351, perpendicular to the exterior side 356.
Also, in the third orientation, the first electrical contacts 368a, 368b are covered by the second portion 306 and are received in the recesses 330, such that the inner side 320 of the body 302 engages the first side 362 of the housing 351. The second electrical contacts 370a, 370b are covered by the second portion 306 and are received in the recesses 332, such that the inner side 322 engages the second side 364.
In each of the three orientations in which the plug 300 is coupled to the power adapter 350, the electrical prongs 326a, 326b extend perpendicular to different exterior sides 352, 354, 365 of the housing 351. Accordingly, the user can select a particular orientation is advantageous for a particular situation, for example, connecting the power adapter to a wall socket or a power strip. Each electrical contact 368a, 370a, 372a can be connected together, and each electrical contact 368b, 370b, 372b can be connected together, so that the polarity of the electrical connection with the electrical prongs is maintained during each of the three orientations.
The plug 300 can be coupled to the power adapter 350 by, for example, moveable extensions 380 can protrude from or be received in the housing 351. The extensions 380 can be located in the cutout 358. For example, the extensions 380 can extend from surfaces 382 in the cutout 358.
The body 302 of the plug 300 defines recesses 338 that receive the extensions 380. For example, the body 302 defines the recesses 338 in L-shaped surfaces 339 that are generally perpendicular to the inner surfaces 318, 320, and 322. The extensions 380 recede into the housing 351 to allow the body 302 to be positioned in the cutout 358. When the body 302 is located in the cutout 358, the extensions 380 extend from the housing 351 into the recesses 338, securing the plug 300 to the power adapter 350.
The extensions 380 can be refracted into the compartment 385 to allow the body 302 of the plug 300 to be removed from the power adapter 350. For example, the power adapter 350 can include a switch or other control that causes the extensions to retract.
Additional variations are possible. For example, the power adapter 350 can receive one of several different plugs, and each plug can have a different orientation of electrical prongs. For example, two different plugs can include electrical prongs that extend in the same direction from outer surfaces of the plugs, but the orientation of the electrical prongs of can vary so that the electrical prongs of one plug are oriented at a rotational offset, such as 90 degrees, compared to the other plug. As another example, different plugs can include different shapes and sizes of electrical prongs in order to function with electrical sockets in different countries. In some implementations, a single power adapter 350 can be used with multiple different types of electrical sockets by using a different electrical plug.
The electrical prongs of a plug can also be located at a rotatable face coupled to the body of the plug. The rotatable face can rotate in a plane parallel to an outer side of the plug, allowing the orientation of the electrical prongs of the plug to change relative to an outer side of the plug. For example, the rotatable face can rotate up to 90 degrees, 180 degrees, 270 degrees, 360 degrees or more.
Plugs can include one, two, three or more electrical prongs, and plugs can include one, two, three or more electrical contacts. The electrical contacts of the power adapter can be arranged to connect to one or more electrical contacts of any of several different plugs. Some plugs may not establish an electrical connection with all of the electrical contacts located at a particular surface of a power adapter. Likewise, some power adapters may not establish an electrical connection with all of the electrical contacts located at a particular surface of a plug.
In some implementations, there are no recesses defined in inner surfaces of the plugs. For example, electrical contacts of a plug can be disposed on one or more inner sides and can be flush with the inner sides or can protrude from the inner sides. Accordingly, a power adapter can establish an electrical connection with electrical contacts of the plug with electrical contacts that are positioned flush with surfaces of the power adapter or recessed into the power adapter.
Particular implementations have been described. Other implementations are within the scope of the following claims. For example, the steps recited in the claims can be performed in a different order and still achieve desirable results.
This application is a continuation of and claims priority from U.S. patent application Ser. No. 13/156,488, filed on Jun. 9, 2011 which claims priority to U.S. Provisional Application No. 61/452,269, filed on Mar. 14, 2011. The entire contents of U.S. Provisional Application No. 61/452,269 are incorporated herein by reference.
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| Number | Date | Country | |
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| Child | 13249663 | US |
