ELECTRIC VEHICLE SUPPLY EQUIPMENT

FIELD OF THE INVENTION

[0001] The invention relates generally to an arrangement and process for housing a battery charger. More particularly, the invention relates to an arrangement and process for housing a battery charger that is located in an outside environment and protected from the environment with a housing that forms a bollard

configuration.

BACKGROUND OF THE INVENTION

[0002] Vehicle batteries often need to be charged as the stored power from time to time may become depleted. This is particularly true with battery-powered vehicles, such as electric cars, that have no other means to easily self-charge.

However, other types of vehicles that do typically have a self-charging capability, such as hybrid cars, can also benefit from being charged from time to time. Battery chargers for vehicles are typically stored out of the environment and when they are needed, they are brought out to the vehicle to provide charging functions.

Alternatively, chargers can be left out in the environment when not being used.

[0003] In the case where battery chargers are stored out of the environment, the user of the battery charger must set aside a certain amount of storage space in order to store the battery charger, take the battery charger from its storage location and bring it to the vehicle to be charged. Additionally the user must make the proper arrangements to provide the charger with power by providing an extension cord and the like. This approach is less than beneficial in that the user must have a storage location, it takes time for the user to set up the charging system and associated extension cord, and because the charger must be exposed to the environment during the charging, it is subject to the various problems described in further detail below.

[0004] When the charger is arranged outside in the environment, the charger requires power such as an extension cord. In this regard, the extension cord typically ends up trailing along the ground. This trailing extension cord might create a safety hazard for tripping, a shock hazard, and generally a hazard for people, pets, and other vehicles that may come into proximity. Such issues are further problematic when the charger requires a larger power cord that delivers higher voltage and/or higher current such as two phase or three-phase power.

[0005] The charger is typically exposed to the environment such that the environment may cause some level of damage to the charger such as corrosion, water exposure that may short circuit or otherwise damage the electrical parts or the like. Additionally, as the charger is open to the environment, the charger might be damaged by people, pets, animals, or other vehicles accidentally or might be subject to vandalism. Further the charger being located in the environment may also be a hazard to other vehicles, people, pets, or animals due to its location, construction (sharp edges or corners), and so on. Moreover, the charger being located in an unprotected environment also leaves it susceptible to being stolen. Accordingly, such approaches are less than satisfactory for someone who needs to charge their vehicle on a regular basis. Such approaches are equally unsatisfactory for businesses and municipalities that want to provide charging capability to customers and citizens. Finally, battery chargers are often unattractive and can be unsightly.

[0006] Accordingly there is a need for a battery charger that is easy to use and access, is better protected from damage, safer for people, pets, animals and vehicles, less likely to damage the property of others, that is resistant to

environmental damage, that is attractive and blends into the streetscape, simple to install, has a compact design, and includes a design that results in low cost service and maintenance.

SUMMARY OF THE INVENTION

[0007] The foregoing needs are met, to a great extent, by the invention, wherein in one aspect an arrangement and process for housing a battery in some embodiments provides a more appropriate way in which to locate and house a battery charger for charging batteries used in vehicles and the like.

[0008] In accordance with an embodiment of the invention, a battery charger housing arrangement includes a battery charger configured to provide power to charge a vehicle battery, a reinforcement structure configured to hold the battery charger, a housing configured to cover the reinforcement structure and the battery charger, wherein the housing forms a waterproof covering to protect the battery charger from the environment, a charge cable extending from the housing and configured to connect to and charge a vehicle, and a window arranged in the housing so that a user may operate the battery charger, wherein the reinforcement structure is configured to structurally locate the housing in a stable non-movable location.

[0009] In accordance with another embodiment of the invention a battery charger housing arrangement includes a battery charger configured to provide power to charge a vehicle battery, a reinforcement structure configured to hold the battery charger, a housing configured to cover the reinforcement structure and the battery charger, wherein the housing forms a waterproof covering to protect the battery charger from the environment, a charge cable extending from the housing and configured to connect to and charge a vehicle, a window arranged in the housing so that a user may operate the battery charger, and a support line configured to one of support the charge cable and retract the charge cable, the support line being connected to the housing.

[00010] In accordance with another embodiment of the invention, a process of providing a battery charger housing arrangement includes providing a battery charger configured to provide power to charge a vehicle battery, arranging a reinforcement structure configured to hold the battery charger, arranging a housing configured to cover the reinforcement structure and the battery charger, wherein the housing forms a waterproof covering to protect the battery charger from the environment, arranging a charge cable extending from the housing and configured to connect to and charge a vehicle, and arranging a window in the housing so that a user may operate the battery charger, wherein the reinforcement structure is configured to structurally locate the housing in a stable non-movable location.

[00011] There has thus been outlined, rather broadly, certain embodiments of the invention in order that the detailed description thereof herein may be better understood, and in order that the contribution to the art may be better appreciated. There are, of course, additional embodiments of the invention that will be described below and which will form the subject matter of the claims appended hereto.

[00012] In this respect, before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangements of the components set forth in the following description or illustrated in the drawings. The invention is capable of embodiments in addition to those described and of being practiced and carried out in various ways. In addition, it is to be understood that the phraseology and terminology employed herein, as well as the abstract, are for the purpose of description and should not be regarded as limiting.

[00013] As such, those skilled in the art will appreciate that the conception upon which this disclosure is based may readily be utilized as a basis for the designing of other structures, methods and systems for carrying out the several purposes of the invention. It is important, therefore, that the claims be regarded as including such equivalent constructions insofar as they do not depart from the spirit and scope of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[00014] Figure 1 shows an arrangement for housing a battery charger in accordance with one aspect of the invention.

[00015] Figure 2A shows a partially exploded view of some of the internal construction of the housing of Figure 1 .

[00016] Figure 2B shows a partial view of some of the internal construction of the housing of Figure 1 .

[00017] Figure 3A shows another perspective partial view of part of the internal construction of the housing of Figure 1 .

[00018] Figure 3B shows another partial view of part of the internal construction of the housing of Figure 1 .

[00019] Figure 4 illustrates one manner in which the housing is anchored to the ground according to the invention.

[00020] Figure 5 shows another manner in which the housing is anchored to the ground according to the invention. [00021] Figure 6 shows a rear view of the housing arrangement and further shows the cable management aspects constructed according to the invention.

[00022] Figure 7 shows a schematic of the connection between a service panel and the anchor.

[00023] Figure 8 shows the construction of the battery charger according to the invention.

[00024] Figure 9 shows the housing of Figure 1 with a portion of the housing partially installed / removed.

[00025] Figure 10 shows an internal arrangement for housing a battery charger having a cable management system in accordance with a further aspect of the invention.

DETAILED DESCRIPTION

[00026] Figure 1 shows an arrangement for housing a battery charger in accordance with one aspect of the invention. In particular, Figure 1 shows a housing 100 that is configured to be easy and quick to install, configured to be safer to maintain and operate, has an attractive look, robust construction, protects the battery charger and circuitry from the environment and is quick and easy for the user to connect and operate as desired. More specifically, the housing 100 includes an upper housing 104 and a lower housing 108. In between the upper housing 104 and the lower housing 108 may be a seal 106. The seal 106 may help ensure that water and other environmental elements are less likely to enter the housing 100. Additionally, the seal 106 ensures that the upper housing 104 and the lower housing 108 may align and connect with one another and form a uniform construction.

[00027] The upper housing 104 and the lower housing 108 may be constructed of a synthetic material such as plastic. However, any type of material or materials are contemplated by the invention. The chosen material may be based on strength, water resistance, wear and tear resistance, and reduced likelihood to injure individuals should they collide with the housing 100 and the like. The material may be provided with an attractive color throughout. Accordingly, if the surface of the upper housing 104 or lower housing 108 is scratched, the scratches are less noticeable. The material may include a textured surface to further make the housing 100 more attractive and less likely to show wear and tear. Additionally, the upper housing 104 and lower housing 108 are substantially water resistant such that the housing 100 protects a battery charger 1 16 and associated wiring that are located within the housing 100. Furthermore, the upper housing 104 may include an upper surface 1 14 configured to direct rainwater and the like off the top surface with an inclined surface or the like. The housing 100 may be formed and configured to be a bollard, resemble a bollard, or resemble a decorative post used to control pedestrian and vehicular traffic. Although a particular shape of the upper housing 104 and lower housing 108 is shown in Figure 1 , it is contemplated that numerous other attractive shapes could be utilized for the housing 100. Additionally the use of a two piece construction that includes the upper housing 104 and a lower housing 108 helps to make the assembly and servicing of the housing 100 and associated battery charger 1 16 easier and quicker. In that regard, the upper housing 104 may be simply removed by raising or sliding vertically the housing 104 upwardly to expose both the battery charger 1 16 and its associated circuitry. Additionally the separate housing allows for easy assembly of the charge cable 1 18 to extend through an associated aperture 122 in the housing 104. Nevertheless, the housing 104 and the lower housing 108 are contemplated as having a single construction in at least an aspect of the invention. Additionally, the upper housing 104 and a lower housing 108 may be constructed with few sharp corners and edges to reduce the likelihood of injuries. Furthermore, the construction of the components of the housing 100 may be height compliant with ADA requirements to ensure that a greater number of individuals may be able to utilize the system.

[00028] The housing 100 may include an access window 102 for operating and/or monitoring the condition of the battery charger 1 16. The access window 102 may be configured such that it extends within the housing 100 and/or arranged only on a vertical surface of the housing 100 in order to reduce exposure to the environment. Moreover, the battery charger 1 16 may also be configured to be exposed to the environment. Additionally, the window 102 may include a seal structure 120 to press the upper housing 104 to the battery charger 1 16 and create a more water resistant configuration.

[00029] The battery charger 1 16 may further include a charcoal filter to allow air to enter and exit from the housing of the battery charger 1 16. In particular the charcoal filter may allow for gases created during use of the battery charger 1 16 to exit the housing; and the filter the gases. Moreover the charcoal filter may include properties to reduce the intrusion of water, including for example, hydrophobic properties in order to prevent water from entering the housing of the battery charger 1 16.

[00030] Additionally, the battery charger 1 16 may include potting. The potting may include a process of filling an electronic assembly of the battery charger 1 16 with a solid or gelatinous compound for resistance to shock and vibration, and for exclusion of moisture and corrosive agents. For example the potting may include thermo-setting plastics or silicone rubber gels. Other suitable compositions are contemplated as well. Alternatively or additionally, a circuit board assembly of the battery charger 1 16 may include a layer of transparent conformal coating. The potting compound may include use low glass transition temperature (Tg) material such as polyurethane or silicone.

[00031] Moreover, the battery charger 1 16 and or the housing 100 may be constructed in accordance with NEMA 4X standards. NEMA 4X standards provide that: "Enclosures constructed for either indoor or outdoor use to provide a degree of protection to personnel against access to hazardous parts; to provide a degree of protection of the equipment inside the enclosure against ingress of solid foreign objects (windblown dust); to provide a degree of protection with respect to harmful effects on the equipment due to the ingress of water (rain, sleet, snow, splashing water, and hose directed water); that provides an additional level of protection against corrosion; and that will be undamaged by the external formation of ice on the enclosure."

[00032] The housing 100 may also include an attachment structure 1 10. The attachment structure 1 10 may include a plate having a plurality of apertures therein for connection to mechanical fasteners. In this regard, the mechanical fasteners may be arranged in an anchor 1 12. The attachment structure 1 10 may take any number of different configurations. For example, a metal plate, such as a steel plate with a galvanized coating. However, it should be noted that any type of attachment structure 1 10 is contemplated. For example, any type of structure that connects and maintains the housing 100 with respect to an anchor 1 12 is within the spirit and scope of the invention. In this regard, as further described with respect to Figure 4 and Figure 5, a number of different types of attachment structures 1 10 are described. Moreover, a housing 100 lacking an attachment structure 1 10 is also contemplated. [00033] The anchor 1 12 may take any number of different configurations. For example, the anchor 1 12 may be a block of reinforced concrete that is arranged in or on the ground for this specific use; the anchor 1 12 may take the form of a portion of sidewalk, driveway, or the like that is a modified to include mechanical fasteners that line up with the holes of the attachment structure 1 10; or the anchor may include any other substantially horizontal surface that is stable and sufficiently strong to which to attach the attachment structure 1 10. In one such exemplary arrangement shown in Figure 1 , the attachment structure 1 10 using a base plate arrangement connects to the anchor 1 12 that may be a block of reinforced concrete with a four lag bolt and four hex nut arrangement. Of course, it is within the spirit and scope of the invention to use any number of and any type of mechanical fasteners. In particular, Figures 3 and 4 show two other exemplary types of attachment configurations as described in greater detail below.

[00034] The housing 100 may also include a configuration for the charge cable 1 18 to extend through an aperture 122 of the upper housing 104. In particular, the housing 100 and the aperture 122 may be configured such that the combination of the charge cable 1 18 and aperture 122 is substantially water resistance. Although the aperture 122 is shown in the upper housing 104, it is contemplated that the aperture 120 may be arranged anywhere on the housing 100.

[00035] Figure 2A shows a partially exploded view of some of the internal construction of the housing of Figure 1 ; and Figure 2B shows a partial view of some of the internal construction of the housing of Figure 1 . In particular, Figure 2A shows the housing 100 with the upper housing 104 removed and the battery charger 1 16 partially removed. As shown in Figure 2A, a reinforcement structure 200 is arranged within the lower housing 108. The reinforcement structure 200 would similarly be arranged within the upper housing 104 when the upper housing 104 is assembled with the lower housing 108. When the housing 100 is assembled, the upper housing 104 and lower housing 108 may be configured such that they completely cover the reinforcement structure 200 protecting it and the battery charger 1 16 and associated circuitry contained therein from the environment.

[00036] The reinforcement structure 200 may be configured as a cylindrical pipe, however any shape structure is contemplated by the invention including but not limited to a triangle cross-section, square cross-section, polygonal cross-section and the like. Additionally, the reinforcement structure 200 may be formed from any strong material such as a metal. In particular, it is contemplated that the

reinforcement structure 200 may be formed from steel and include a galvanized coating so as to be more corrosion resistant. However, any type of a metal material may be used; and any type of coating such as paint, lacquer, powder coating and the like may optionally be applied to the metal to better prevent corrosion.

[00037] The reinforcement structure 200 may be directly connected to the attachment structure 1 10. For example in the implementation shown in Figures 1 , 2A, and 2B, the attachment structure 1 10 is implemented as a cylindrical metallic reinforcement structure and is welded to a square base plate attachment structure 1 10 of a similar material. However it should be noted, that any type of connection between the reinforcement structure 200 and the attachment structure 1 10 is contemplated by the invention including welding, mechanical fasteners, intermediate structure, plasma welding, single piece machined configurations and the like.

[00038] Further shown in Figure 2A is an aperture 204. In particular, the aperture 204 allows the charge cable 1 18 to extend out of the reinforcement structure 200. The aperture 204 may line up at least in part with the aperture 122 located in the upper housing 104. The aperture 204 and the aperture 122 may form a channel through which the charge cable 1 18 may extend. It is further noted that the aperture 204 and aperture 122 may not have the exact same shape. In this regard, the aperture 204 may generally have a slot shaped construction with an open top end. In contrast, the aperture 122 may be have a slot shaped construction with and open bottom end. Other shapes of the aperture 204 and aperture 122 are contemplated and are within the spirit and scope of the invention.

[00039] The configuration of the aperture 204 implemented as a slot allows an installer to slide the charge cord 1 18 down to the bottom of the slot. This avoids a situation where the aperture would have to be large enough to feed a cord having a socket on the end. However, that arrangement is also contemplated by the invention. The slot implementation is especially useful when the charge cable 1 18 includes a strain relief device 206. In this regard, the strain relief device 206 may fit snugly at the bottom of aperture 204. Although the slot shaped aperture 204 is shown in the figures, each type of aperture or other type of manner to extend the charge cable 1 18 from the housing 100 is contemplated by the invention. Figure 2B shows further details of the aperture 204.

[00040] Additionally, Figure 2A shows the battery charger 1 16 and wires 212 connected to the battery charger 1 16 to receive power, and the power wires 210 that provide power to the battery charger 1 16. These are shown in their disconnected states. However once the housing 100 is fully assembled, the wires 210 and wires 212 are connected in order to be operative.

[00041] The combination of the reinforcement structure 200 and the upper housing 104 and lower housing 108 has a number of advantages. In particular, the reinforcement structure 200 provides increased strength and a capability to withstand a great deal of wear and tear as it is generally formed of a metal and the upper housing 104 and lower housing 108 may be formed of a synthetic material, such as plastic, and benefit from an attractive appearance, ability to all avoid corrosion, and a surface that it is that is less likely to injure as it is softer and does not have sharp corners and edges. Accordingly, the combination of the

reinforcement structure 200 and the upper housing 104 and lower housing 108 provide a beneficial balance of each of the materials best attributes.

[00042] Figure 3A shows another perspective partial view of part of the internal construction of the housing of Figure 1 ; Figure 3B shows another partial view of part of the internal construction of the housing of Figure 1 . In particular, Figure 3A shows a mounting bracket 300, the details of the aperture 204 in reinforcement structure 200, and a ground connection 302. More specifically, Figure 3A shows the aperture 204 that is implemented as a slot. Figure 3A further showing only the upper end of the slot associated with aperture 204.

[00043] Figure 3B shows further details of the bracket 300. The mounting bracket 300 may include a rectangular configuration with sides 304 and a bottom 306 as shown in Figure 3B. The bottom 306 of the bracket 300 may provide support for the bottom of the battery charger 1 16. Likewise, the sides 304 of the bracket 300 provide side support for the battery charger 1 16. The mounting bracket 300 may be sized and configured to hold the battery charger 1 16. In this regard, the sides 304 and bottom 308 of the bracket 300 may embrace the battery charger 1 16 and support the same within the housing 100 and, in particular, the reinforcement structure 200. The bracket 300 may include one or more features to mechanically fasten the battery charger 1 16 to the bracket 300. Additionally, the bracket 300 may be a sized and include other features to allow air to provide cooling to the battery charger 1 16 if needed. Moreover, the bracket 300 may include an aperture 308. The aperture 308 may allow a mechanical fastener to extend from the back of the housing 100 to press against the battery charger 1 16 to press the battery charger 1 16 forward. This engagement may push the battery charger 1 16 arranged thereon forwardly so that the battery charger 1 16 engages the seal 120 (See Figure 1 ) and makes a tighter more waterproof construction. This aspect is described in greater detail with respect to Figure 6. The bracket 300 may be welded to the reinforcement structure 200, mechanically fastened to the reinforcement structure 200, or the like.

[00044] A ground connection 302 may be included in the reinforcement structure 200 and is shown arranged at an upper end of the reinforcement structure 200. In particular, the ground connection 302 may allow for the battery charger 1 16 and associated circuitry, power lines, and/or the like to ground the structure of the housing 100. The ground connection 302 may include a lug that is welded to the reinforcement structure 200. Other types of attachment are contemplated as well. Moreover, the ground connection 302 may include a hole in the lug and nut in order to make a full connection to a ground wire. Of course, the ground connection 302 may be arranged anywhere within the housing 100.

[00045] Figure 4 illustrates one manner in which the housing is anchored to the ground according to the invention. In particular, Figure 4 shows an arrangement where the reinforcement structure 200 includes an attachment structure 1 10 that is mounted directly to a bottom of the reinforcement structure 200. In this aspect, the attachment structure 1 10 is fully contained within the reinforcement structure 200. Such an arrangement may be mechanically fastened to an anchor structure 1 12 having a smaller footprint for example. The reinforcement structure 200 may include access 400 in the sides thereof to allow an installer to connect and work with mechanical fasteners 402 that connect the reinforcement structure 200 to the anchor structure 1 12. In this regard, the attachment structure 1 10 may include leveling aspects so that the housing 100 may be installed such that it is vertical. The leveling aspects may include long lag bolts extending from the anchor structure 1 12 that include an additional nut located below the attachment structure 1 10 so as to provide varying height upon which the attachment structure 1 10 is supported.

[00046] Figure 5 shows another manner in which the housing is anchored to the ground according to the invention. As shown in Figure 5, the reinforcement structure 200 may also be directly embedded into concrete or similar type of material including earth 502. For example, as shown in Figure 5, an installer may simply dig a larger diameter hole in the ground, feed power lines from the hole into the reinforcement structure 200. The reinforcement structure 200 may then be arranged at the desired position in the hole. Thereafter the installer may pour concrete into the hole to create a strong base and form the anchor structure 1 12. Such

construction of the reinforcement structure 200 may benefit from a material and/or coating that is more corrosion resistant.

[00047] Figure 6 shows a rear view of the housing arrangement and further shows the cable management aspects constructed according to the invention. In particular, Figure 6 shows the backside of the housing 100 where the charge cable 1 18 may be wrapped into a series of loops and hung on a hook 600 that is arranged on the back of the housing 100. Of course, the hook 600 may be in any location with respect to housing 100; it can be positioned somewhere adjacent to the housing 100; or may not exist at all. Additionally, shown in Figure 6 is a plug 606 that may be arranged at the end of the charge cable 1 18. The plug 606 may be connected to a vehicle needing power and/or to be charged. [00048] The hook 600 may be attached to the housing 100 with a mechanical fastener 602. The mechanical faster 602 may include tamper resistant aspects such as a rounded head that requires an Allen wrench to install. Other types of tamper resistant mechanical fasteners or construction are contemplated.

[00049] The mechanical fastener 602 may have the additional benefit of mechanically attaching the upper housing 104 more securely to the reinforcement structure 200. More specifically the mechanical fastener 602 may extend through the hook 600, through an aperture in the upper housing 104 and into an aperture in the reinforcement structure 200 and engage threads that may be arranged in the aperture of the reinforcement structure 200. Additionally, the mechanical fastener 602 may be sized so as to extend into the reinforcement structure 200 through aperture 308 (see Figures 3A and 3B). This engagement may push the battery charger 1 16 arranged thereon forwardly so that the battery charger 1 16 engages the seal 120 (See Figure 1 ) and makes a tighter more waterproof construction.

[00050] Figure 7 shows a schematic of the connection between a service panel and the housing. In particular, Figure 7 shows an electrical power arrangement for the feeding power to the housing 100 and associated battery charger 1 16. In this exemplary schematic, electrical power from a service panel 702 may be routed underground through various means to the anchor 1 12. In this regard, by guiding the electrical power underground, the hazard that an extension cord and the associated messy look of an extension cord across the ground is avoided.

Additionally the problems with the associated electrical hazard of the same are also avoided.

[00051] As further shown in Figure 7, power wires 704 from the service panel 702 may be guided through a conduit or some other type of arrangement that is consistent with local building codes to the anchor 1 12. If a conduit is used, the conduit may extend up and out of the anchor 1 12 so that the reinforcement structure 200 and housing 100 may be arranged and constructed thereon. In particular, the reinforcement structure 200 and housing 100 may be moved in the direction of Arrow A during assembly.

[00052] Figure 8 shows the construction of the battery charger according to the invention. The battery charger 1 16 may include waterproof connector 902 and power wires 212. The waterproof connector 902 may include a construction that keeps water from being able to seep into the internal structure of the battery charger 1 16. The power wires 212 may extend from the top of the battery charger 1 16. The power wires 212 may extend up into the upper part of the upper housing 104 better ensuring that it is less likely that the power wires 212 may be exposed to water. Additionally the power wires 210 also may further extend into the upper portion of the upper housing 104 for the same reasons. Waterproof wire nuts may be used to connect the power wires 212 to the power wires 210. The battery charger 1 16 may also be configured for various input voltages and currents. The battery charger 1 16 may be configured to operate based on one, two, or three phase circuits.

Additionally, the battery charger 1 16 may be configured to operate on different current circuits. More specifically, the circuit of the battery charger 1 16 may include the ability to be adjusted to operate with different current sources as desired by the user. In particular, the battery charger 1 16 may include a circuit to provide a digital input to the battery charger 1 16. The digital input indicating an operating current for the battery charger 1 16. In one particular aspect, the digital input may be a binary coded decimal. The binary coded decimal may be generated by a dial based input component. The battery charger 1 16 may be a modified SPX™ Power Xpress EVSE, model no. EL-50600 available from SPX, Warren, Ml, USA. However, it is contemplated that other types of battery charges may be used.

[00053] Figure 8 also shows the strain relief device 206. The strain relief device 206 may include a narrowed portion 800. The narrowed portion 800 may be the portion that is positioned in the slot associated with aperture 204. This construction provides a more waterproof arrangement.

[00054] The battery charger 1 16 may include a display screen 904 and input device 906. The display screen 904 may permit a user to see various conditions of the battery as detected by the battery charger 1 16. In addition, the display screen 904 may also display questions to which the user may input a response via the input device 906. In some embodiments of the invention, the input device 906 may be a keyboard. In other embodiments of the invention, the input device 906 can include any device that can input data into the battery charger 1 16. The input device 906 may also not be a separate feature from the display screen 904 but may be part of the display screen 904 such as a touch screen. The input device 906 may not be a standard keyboard but may be merely various keys having functions when pressed. Any other suitable means for inputting data may be incorporated as part of the input device 906.

[00055] Figure 9 shows the housing of Figure 1 with a portion of the housing being installed / removed. In particular, wiring connections 1 1 10 are shown that result from the connection of the power wires 212 being connected to the power wires 210. Once the wiring connections 1 1 10 are formed, the upper housing 104 may be slid down over the upper portion of the reinforcement structure 200 to connect with seal 106. Thereafter, the hook 600 and associated mechanical fastener 602 may be installed to connect the upper housing 104 to the housing 100 when the housing 100 is implemented with the same. During maintenance of the housing 100, battery charger 1 16, or the like, the upper housing 104 may be simply removed by removal of the mechanical fastener 602 and hook 600 followed by an upward sliding movement as shown in Figure 9. Accordingly, maintenance on the housing 100 is simplified.

[00056] Figure 10 shows an internal arrangement for housing a battery charger having a cable management system in accordance with a further aspect of the invention. In particular, Figure 10 shows an aspect of the housing 100 that includes a charge cable management system 1000. As shown in other aspects of the invention, the charge cable 1 18 may be looped and secured on a hook 600 as shown in Figure 6. The aspect shown in Figure 10 utilizes substantially all the same structure except the hook 600. The Figure 10 aspect further includes a support line 1 102 to help manage the charge cable 1 18. In this regard, the support line 1 102 may hold one or more portions of the charge cable 1 18 to keep the charge cable 1 18 off the ground, guide it back to the housing 100, or the like.

[00057] The support line 1 102 may be fixed to the top of housing 100, the support line 1 102 may be configured to move with respect to housing 100 or the support line 1 102 may be configured to move into the housing 100. If the support line 1 102 is fixed to the top of housing 100, then the support line 1 102 may be configured as an elastic cord or the like. Such an arrangement may allow a user to stretch the support line 1 102 and move the charge cable 1 18 to the vehicle as desired. Once the vehicle is no longer being charged, the charge cable 1 18 may be easily guided to the housing 100 by the elastic nature of the support line 1 102. This arrangement provides for a generally more attractive and more user-friendly approach to cord management. [00058] The support line 1 102 may also be configured to move with respect to housing 100. Again, the support line 1 102 may be elastic with a portion being located within the housing 100. This may provide a longer support line 1 102 with greater elastic qualities. Again, this may allow a user to stretch the support line 1 102 and move the charge cable 1 18 to the vehicle as desired. Once the vehicle is no longer being charged, the charge cable 1 18 may be easily guided to the housing 100 by the elastic nature of the support line 1 102.

[00059] In another implementation, the housing 100 may include a mechanism to move the support line 1 102 with respect to the housing 100. The charge cable management system 1000 may include for example, roll system 1 1 12 to gather and maintain the support line 1 102 within housing 100. The roll system 1 1 12 may be implemented to roll up the support line 1 102. The roll system 1 1 12 may be actuated by a spring, electric motor, or the like 1 1 14. In this regard, pulling the charge cable 1 18 away from housing 100 may also extend the support line 1 102 from the housing 100 and the roll system 1 1 12 as well. During this action, the support line 1 102 may be unrolled from the roll system 1 1 12. When use of the charge cable 1 18 is finished, the roll system 1 1 12 may urge the support line 1 102 to roll onto the roll system 1 1 12.

[00060] The roll system 1 1 12 may utilize a spring-based system 1 1 14 where the unrolling may wind a spring. When the charging is complete, the charge cable 1 18 may be urged by the support line 1 102 by the spring-based system 1 1 14 urging the roll system 1 1 12 to rotate to roll up the support line 1 102 and move the charge cable 1 18 closer to the housing 100. Additionally the housing 100 may include one or more pulleys or grommets 1 104, 1 106 to guide the support line 1 102 towards the roll system 1 1 12. [00061] Alternatively, the roll system 1 1 12 may utilize a motor-based system 1 1 14. When the charging is complete, the charge cable 1 18 may be urged by the support line 1 102 by the motor-based system 1 1 14 to rotate the motor of the roll system 1 1 12 to rotate to roll up the support line 1 102 and move the charge cable 1 18 closer to the housing 100. Again, the housing 100 may include one or more pulleys or grommets 1 104, 1 106 to guide the support line 1 102 towards the roller system 1 1 12.

[00062] In the aspect shown in Figure 10, the support line 1 102 may connect near or to the plug 606. In a further aspect, this connection of the support line 1 102 may be the only connection to the charge cable 1 18. In the aspect shown in Figure 10, the support line 1 102 may also connect to the charge cable 1 18 at an

intermediate location along the charge cable 1 18 to support the same. More specifically the support line 1 102 may attach at or near the plug 606 and also at a line holder 1 108.

[00063] In one particular implementation, the line holder 1 108 may include a loop structure 1 1 16 that allows free movement of the support line 1 102 therethrough. The line holder 1 108 may be fixedly secured to the charge cable 1 18 through an attachment structure 1 1 18. Furthermore, the loop 1 1 16 may be attached to the attachment structure 1 1 18 and extend from the attachment structure 1 1 18. The loop 1 1 16 may include an opening wider than the support line 1 102. This allows the support line 1 102 to move through the loop 1 1 16 and allow the charge cable 1 18 free movement to extend and flex from the housing 100 to the vehicle that requires power. Once the support line 1 102 is retracted by the roll system 1 1 12, the support line 1 102 may slide through the line holder 1 108, hold the plug 606 and the line holder 1 108 close to the housing 100. Although a single fixed connection of the line attachment 1 1 10 is shown, more than one fixed connection may be implemented and is contemplated by the invention. Furthermore, although a single line holder 1 108 is shown, more than one line holder 1 108 may be implemented and is contemplated by the invention.

[00064] Although a specific implementation of such a cable management system is described herein, it is within the spirit and scope of the invention to use any type of cable management system.

[00065] Accordingly the aspects described above result in a housing for a battery charger that is easy to use and access, is better protected from damage, safer for people, pets, animals and vehicles, less likely to damage the property of others, that is resistant to environmental damage, that is attractive and blends into the streetscape, simple to install, has a compact design, and includes a design that results in low cost service and maintenance.

[00066] The many features and advantages of the invention are apparent from the detailed specification, and thus, it is intended by the appended claims to cover all such features and advantages of the invention which fall within the spirit and scope of the invention. Further, since numerous modifications and variations will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation illustrated and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.