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WO2016178708A1 - Module de distribution de puissance - Google Patents

Module de distribution de puissance Download PDF

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Publication number
WO2016178708A1
WO2016178708A1 PCT/US2015/058065 US2015058065W WO2016178708A1 WO 2016178708 A1 WO2016178708 A1 WO 2016178708A1 US 2015058065 W US2015058065 W US 2015058065W WO 2016178708 A1 WO2016178708 A1 WO 2016178708A1
Authority
WO
WIPO (PCT)
Prior art keywords
cover
base
power distribution
snap
distribution module
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/US2015/058065
Other languages
English (en)
Inventor
Kevin Hultquist
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chief Enterprises Inc
Original Assignee
Chief Enterprises Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Chief Enterprises Inc filed Critical Chief Enterprises Inc
Publication of WO2016178708A1 publication Critical patent/WO2016178708A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R31/00Coupling parts supported only by co-operation with counterpart
    • H01R31/02Intermediate parts for distributing energy to two or more circuits in parallel, e.g. splitter
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/46Bases; Cases
    • H01R13/502Bases; Cases composed of different pieces
    • H01R13/506Bases; Cases composed of different pieces assembled by snap action of the parts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/46Bases; Cases
    • H01R13/52Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
    • H01R13/5202Sealing means between parts of housing or between housing part and a wall, e.g. sealing rings

Definitions

  • the present disclosure relates generally to power distribution modules and, more particularly, to power distribution modules for transportation applications.
  • Power distribution modules house terminal electrical components such as fuses, relays, circuit breakers, diodes, and other components.
  • PDMs are configured for plug-in connection to circuitry to avoid labor intensive hard-wired connections and generally consist of a base and an enclosure.
  • PDMs accommodate the terminal electrical components in a single package, and thus may provide both overcurrent protection and convenient switching of power in a single package, as examples.
  • PDMs include a base and an enclosure, in use, wire leads with terminals and single wire seals are inserted into receptacles located on one side of the base. Electrical components are mated to the terminals in receptacles located at the opposite side of the base.
  • the enclosure which may be a cover, houses the electrical components.
  • Some PDMs are provided with a breather hole located on one of the PDM's surfaces. The breather hole helps relieve pressure within the enclosure by dissipating the heat generated by the functioning internal electrical hardware.
  • specialty vehicles, construction and agricultural equipment, and marine, truck, bus, and RV applications as examples, often entail high degrees of moisture, vibration, and contaminant issues in use.
  • the contaminants which likely include dust and debris, settle on the PD 's surfaces and, consequently, clog the breather.
  • PDMs having clogged breathers may have a shorter life span due to component wear that results from heat accumulation and lack of heat dissipation outside the PDM enclosure.
  • the breather hole is clogged pressure internal to the PDM will not be relieved.
  • pressure increases within the PDM its sealing system may be compromised. A compromised sealing system will likely only get worse over time as moisture and dust pass through the breach, and impair the PDM's components.
  • a PDM's sealing system usually includes a gasket that is laterally compressed between vertical surfaces of the base and enclosure/cover.
  • the gasket is provided to prevent
  • PDMs are constructed of high temperature resilient materials that can withstand heat stress. Because PDMs are constructed of high temperature resilient materials they are not very resistant to damage resulting from, as an example, the force of impact when accidentally dropped. Thus, due to the need to use high temperature resilient materials, PDMs are relatively fragile.
  • PDMs are fitted with snap-type connectors for connection to support structures.
  • the snap-type connectors have proven to be satisfactory strong enough for vehicle mounting.
  • PDMs of the related art have design requirements and limitations that are consequential to the functionality that PDMs provide as well as the environment in which they operate.
  • the design requirements and limitations have resulted in PDMs having inherent shortcomings, such as fragility and potential water/dust breach.
  • PDMs of the related art are thus poorly suited for certain applications.
  • related art PDMs tend to be large and therefore difficult to work with.
  • the present disclosure relates to a compact power distribution module having a base and a cover attachable to the base.
  • the cover and the base are attachable by way of a first locking mechanism integral to the cover and the base.
  • the cover further includes a second locking mechanism that, when engaged, prevents the first locking mechanism from
  • the cover includes a strategically located breather hole covered with a hydrophobic material.
  • the strategic location provides an inherent shield that significantly reduces the amount of contaminants (e.g., water, dust, debris) that can come in contact with the breather hole and hydrophobic material.
  • the inherent shield significantly reduces breather hole clogging.
  • additional tooling and materials are not needed to procure the breather hole shield because the shield is inherently present in the structure of the preferred embodiment of the cover.
  • the base includes snap-fit receptacles for receiving the cover's snap-fits.
  • the base also includes a mounting nut situated between the snap-fit receptacles.
  • the overall footprint of the PDM is condensed because the mounting nut is located between, and not significantly offset from, the snap-fit receptacles.
  • the cover may be removed from the base using only one hand to unlock the first and second locking mechanisms and lift the cover off the base.
  • Many vehicles have compartments that house electrical and/or mechanical components. In many cases, these compartments are relatively small and therefore the components within them are "crammed" together.
  • a mechanic can attest that it can be painfully difficult to access and work with components that are crammed together within a confined compartment. It is less difficult to access the PDM of the present disclosure within a confined compartment because the PDM has a compact footprint. It is also easier to access the PDM's internal components because the cover can be removed with only one hand. Even in cases in which the PDM is mounted outside of a compartment, the convenience of requiring only one hand to remove the cover cannot be overlooked or underappreciated. [0012] Disclosed herein is a power distribution module that includes a base and a cover. The cover has a guide channel and a breather hole, which is shielded by the guide channel.
  • the cover may include a chamber and a hydrophobic material adhered to a surface within the chamber.
  • a guide within the guide channel also shields the breather hole.
  • the power distribution module may include a locking clip that includes the guide.
  • the locking clip is not a required component of the PDM. In such a case the guide channel alone shields the breather hole.
  • a power distribution module in another version, includes a base and a cover.
  • a compression seal is axially compressed between a raised edge surrounding component receptacles of the base and a surface within a groove that surrounds the interior of the cover.
  • the compressed seal seals off the interior of the PDM (which may now be referred to as a chamber).
  • a PDM having an axially compressed seal has a smaller footprint.
  • the surface within the seal groove is orthogonal to both an inner lip and an outer lip of the cover.
  • the inner and outer lips surround the component receptacles of the base when the cover is secured thereto.
  • the cover may include a plurality of snap-fits and the base may include a plurality of snap-fit receptacles. The snap-fits and snap-fit receptacles engage to secure the cover onto the base to maintain compression of the compression seal.
  • the compression seal is preferably a silicone seal.
  • a power distribution module includes a cover and a base.
  • the base has no more than two mounting structures, one on each side thereof. Further, the mounting structures each have no more than one mounting nut. On each side, at least a portion of the mounting nut is seated between two snap-fit receptacles.
  • the pairs of snap-fit receptacles are formed within their respective mounting structures (as apertures) on each side of the base and directly abut a rectangular cube that houses an array of cavities within the base.
  • the cover may include at least one snap-fit directly abutting a cover casing, wherein the cover casing defines a cover chamber.
  • the at least one snap-fit is preferably U-shaped and slightly flexible and includes a catch that, when the snap-fit is inserted into the snap-fit receptacle, engages an underside of the snap-fit receptacle to secure the cover onto the base.
  • the base material comprises glass reinforced semi-crystalline polybutylene terephthalate and the cover material comprises a blend of polyphenylene ether, polystyrene, and polyamide.
  • a power distribution module cover comprises at least one snap-fit and a guide channel.
  • the snap-fit directly abuts a cover casing and is preferably U-shaped, wherein an inverted leg of the "U” directly abuts the cover casing with no intervening structure.
  • the guide channel supports a locking clip, wherein the locking clip is slide-able within the guide channel.
  • the locking clip includes at least one guide that is slide-able within the guide channel.
  • the locking ciip is preferably formed as an arch with extended ends and has guides (at least one guide) that protrude in a downward direction from an upper portion (proximate the crown) of the arch.
  • the locking clip includes at least one hitch at the distal end (relative to the upper portion of the arch) of the guide.
  • the hitch(es) prevents the guide(s) from slipping out of the guide channel(s).
  • the guide may include a slanted hitch between the crown of the arch and the at least one hitch. The slanted hitch engages a terminal end of the guide channel to secure the locking clip in a first position, whereby the first position corresponds to the locking clip preventing the snap-fit catch from disengaging the underside of the snap-fit receptacle.
  • the locking clip includes a wedge that maintains a release tab of a power distribution base in a first position and prevents the release tab from disengaging from the base.
  • a power distribution module having a first locking mechanism that locks a power distribution module cover to a power distribution module base, and a second locking mechanism that prevents the first locking mechanism from unlocking.
  • the power distribution module includes a first array of cavities that receives wire leads with terminals and a second array of cavities that receives at least one electrical component selected from a group of electrical components consisting of a fuse, a relay, a circuit breaker, and a diode.
  • FIG. 1 is a perspective view of an embodiment of a power distribution module according to the present invention.
  • FIG. 2 is a perspective view of the top of the base of the power distribution module of FIG. 1;
  • FIG. 3 is a perspective view of the cover of the power distribution module of FIG. 1;
  • FIG. 4 is a bottom view of the cover of FIG. 3;
  • FIG. 5 is a side view of the base of FIG. 2;
  • FIG. 6 is a perspective view of the underside of the base of the power distribution module of FIG. 1;
  • FIG. 7 is a top view of the cover of FIG. 3;
  • FIG. 8 is a view taken along section line B-B of FIG. 7;
  • FIG. 9 is a perspective view of the locking clip shown in FIG. 1;
  • FIG. 10 is a view taken along section line A-A of FIG. 7;
  • FIG. 11 is a perspective view of a terminal lock for securing wire terminals to
  • the power distribution module (PDM) of the present disclosure houses plug-in terminal electrical components such as one or more of: fuse(s), mini fuse(s), relays circuit breaker(s), diode(s), and/or other components in a sealed chamber.
  • a PDM of the present disclosure may be utilized in any of a number of vehicle types and applications, including, as examples, construction, agriculture, and heavy duty transportation applications where ruggedness is required.
  • the present application discloses new and improved structural features for PDMs.
  • the new and improved structural features disclosed herein improve at least one or more of PDM performance, durability, workability, and longevity that has/have not heretofore existed in the art of PDMs.
  • the PDM of the present disclosure also features ease of access and use through a compact PDM footprint (i.e., outermost dimensions) that facilitates user access to the PDM when secured to a vehicle, as well as user access to internal PDM components. Because the footprint is relatively compact, the PDM body is more readily accessible within a crowded vehicle compartment (because the compact PDM body utilizes less free space). Also, due to the relatively compact footprint a user may readily remove a PDM cover with only one hand to access its internal components, in contrast to PDMs of the related art which are relatively larger and require two hands for removing the cover.
  • a compact PDM footprint i.e., outermost dimensions
  • a power distribution module 10 of the present disclosure includes a base 12 and a cover 14. Wire leads with terminals and single wire seals are inserted in what may be referred to as the base underside 16. Unused cavities of the base underside 16 are plugged to prevent ingress of contaminants such as moisture and dust/debris. Electrical components are mated to the terminals at what may be referred to as the base topside 18.
  • the cover 14 includes an integrated compression seal 20 (best seen in Fig. 4) that prevents ingress of dust, debris, and moisture into the PDM interior. In an embodiment, the cover is secured to the base with snap-fits 22a-22d (best seen in Figs.
  • a second locking mechanism may be provided. The second locking mechanism ensures that the snap-fits 22a-22d remain locked within the snap-fit receptacles 24(a)-24(d).
  • the cover 14 may include a hydrophobic vent.
  • the PDM of the present disclosure includes an integrated shield that obstructs movement of external dust and debris toward the hydrophobic vent.
  • the shield allows the flow of air in/out of the sealed PDM chamber. This air flow relieves pressure differentials that are caused by internal electrical component heating.
  • the vent may not be needed in transportation applications with low heat generation and minimal water exposure.
  • the vent relieves internal pressure to prevent gasket blow-by and, due to its hydrophobic properties, prevents the intrusion of water into the sealed chamber.
  • the PDM 10 of the present disclosure may be wired before or after it is mounted to a vehicle.
  • the PDM 10 includes two mounting structures integrated with the base and preferably located at opposing base sides. Each mounting structure includes its respective mounting nut, discussed below, integrated within the mounting structures at each side of the base.
  • the PDM 10 includes no more than one mounting structure, including no more than one mounting nut on each respective opposing side of the PDM 10 (i.e., the PDM 10 has no more than a total of two mounting structures for mounting the PDM 10 to a vehicle, and each mounting structure includes no more than one mounting nut).
  • the base 12 from front and rear views (Fig. 5 is a front view, the rear view is identical), is fairly isosceles trapezoidal shaped, with the base underside 16 and base topside 18 generally planar and parallel to one another.
  • the base sides are substantially the same length, both having angled portions 26(a), 26(b) and parallel side portions 28(a), 28(b).
  • the parallel side portions 28(a), 28(b) partially delineate and form elements of mounting structures 30(a) and 30(b), as best seen in Fig. 2.
  • the base underside 16 includes an array of receptacles 32 that, as shown, are configured to receive wire leads with terminals, single wire seals, and/or plugs (not shown).
  • the base topside 18 includes an array of receptacles 34.
  • the base topside receptacles receive plug-in terminal electrical components such as one or more of: fuse(s), mini fuse(s), relays circuit breaker(s), diode(s), and/or other components.
  • electrical connections are established between user selected leads and wire terminals inserted at user selected receptacles at the base underside 16 and user selected components inserted into user selected receptacles at the base topside 18.
  • base underside 16 and base topside 18 are being used herein to aid the reader in understanding the invention when referencing the base 12 and other components as presented in the drawings.
  • the base 12, the cover 14, and the PDM 10 of the present disclosure are not limited to any particular orientation. Rather, the terms “underside” and “topside” are intended to be interpreted as describing that those respective sides are opposed sides of the base 12.
  • the base 12 may be mounted within or on a vehicle (typically, within an engine compartment) in any user preferred orientation, which may in fact be dictated by the available space for mounting the PDM 10. Accordingly, the
  • underside may also be referred to as the terminal side and the “topside” may also be referred to as the component side or covered chamber side.
  • underside and topside pertain to the orientations of the base as presented in the set of drawings and are in no way to be interpreted as orientation or structural limitations.
  • the PDM 10 may be mounted in any orientation.
  • PDMs of the related art that include a gasket intended to prevent moisture and debris from entering the chamber inside of the PDM body position the gasket between abutting, vertical side surfaces of a cover and a base, respectively, such that the gasket is compressed between said vertical side surfaces.
  • Such placement has, in general, proven to be adequate for preventing substantial amounts of moisture and/or debris from entering the PDM and, as such, there exists no motivation to modify the placement of the seal for the purpose of protecting the PDM from debris, moisture, and other contaminants.
  • PDMs of the related art include snap-type connectors to mount the PDM to a support structure.
  • PDMs of the related art include four connectors: two located at the outer edges of one side of the PDM, and the other two located at the outer edges of the opposite side of the PDM.
  • the four snap-type connectors have proven to provide a satisfactorily rigid mount to the support structure.
  • the minimum number of receptacles required on either side of a PDM is determined by its intended application (e.g., truck, bus, marine or RV application, etc.).
  • the size of a PDM is directly related to the number of its receptacles. For example, an eighty-four way PDM is larger than a forty-eight way PDM.
  • the size of a PDM is a considerable factor when determining where the PDM is to be mounted. Due to the number and size of other mechanical and electrical components that are installed in a vehicle (e.g., within its engine compartment and component box) space is limited. The available space must be large enough to
  • PDM covers must be removed to access the electrical components within the sealed chamber to, as an example, replace a blown fuse.
  • vacant space proximate a mounted PDM must be sufficient to allow a user to access the PDM cover and unsecure and remove it; a process that, in the related art, requires two hands. Consequently, space restrictions often dictate where a PDM can be mounted. Thus, it is more difficult to find a mounting space for larger PDMs than it would be for compact PDMs.
  • the cover 14 includes an integrated compression seal 20 (best seen in Fig. 4).
  • the integrated compression seal 20 provides a barrier between the cover 14 and the base 12 when the PDM 10 is assembled and the cover 14 is locked onto the base 12 by way of mating the snap-fits 22a-22d with the snap-fit receptacles 24(a)-24(d).
  • This sealed barrier ensures that the PDM chamber 48 is sealed off from its exterior at the fitting point between the cover 14 and the base 12, thereby preventing debris and moisture from entering the PDM chamber 48.
  • the compression seal 20 is preferably inset to a bottom surface 44 within the seal groove 36 formed in the cover casing 38.
  • the seal groove 36 formed in the cover casing 38 is defined by an inner lip boarder 42 and an outer lip boarder 40 and has a depth defined by a bottom surface 44 formed in the cover casing 38.
  • the base 12 includes a raised flange 46 forming a raised perimeter around the array of receptacles 34.
  • the raised flange 46 mates with the seal groove 36.
  • the depth of the seal groove 36 corresponds to the dimensions of the compression seal 20 such that the compression seal 20 forms a tight seal between the terminal edge 100 of the raised flange 46 and the bottom surface 44 formed in the cover casing 38.
  • the raised flange 46 defines a rectangular perimeter around the topside array of receptacles 34.
  • the rectangular perimeter defines the sides of a rectangle, and the rectangle defines one side of a rectangular cube.
  • the rectangular cube is defined by a first plane coplanar with a first surface 52 at the base topside 18, a second plane coplaner with a second surface 54 at the underside array of receptacles 32, and third, fourth, fifth, and sixth planes coplanar with third, fourth, fifth, and sixth sides 56, 58, 60, and 62, respectively, of the rectangular cube.
  • the rectangular cube which may be referred to as the receptacle cube or PDM body, houses an array of cavities, wherein the array of cavities are defined by the underside array of receptacles 32 and the topside array of receptacles 34.
  • PDMs of the related art include radial (i.e., side compressed), not axial (i.e., bottom compressed), seals.
  • PDMs of the related art include a wider groove to provide lateral room for the seal, which is compressed between lateral (side) surfaces of the cover and the base.
  • the wider grooves of PDMs of the related art contribute to an increase in the overall width, length, and perimeter of the PDM, consequently contributing to an increase in the overall size of the PDM.
  • the compression seal 20 and seal groove 36 provide an axial-type seal.
  • the axial seal disclosed herein does not require a broad groove sufficiently wide enough to accommodate the entire seal in a radial position.
  • the axial seal of the presently disclosed PDM 10 does not contribute to an increase in the width, length, and perimeter of the PDM, and therefore does not dictate an increase in the overall size of the PDM.
  • the snap-fit receptacles 24(a) - 24(d) are apertures formed within the mounting structures 30(a) and 30(b).
  • the mounting structures 30(a) and 30(b) extend laterally outside the perimeter of the raised flange 46 at opposite sides of the PDM 10.
  • the snap-fit receptacles (apertures) 24(a) - 24(d) directly abut the rectangular cube that houses the arrays of cavities.
  • the rectangular cube as defined hereinabove may be referred to as the body of the PDM 10, wherein the body is completely confined within a boundary commensurate with the raised flange 46.
  • Mounting structures 30(a) and 30(b) include respective snap-fit receptacles 24(a)-24(b) and 24(c)-24(d) and respective mounting nuts 50(a) and 50(b).
  • mounting nut 50(a) is located in a central portion of mounting structure 30(a).
  • the snap fit receptacles 24(a)-24(b) are located outside of the central portion at side (end) regions of the mounting structure 30(a).
  • At least a portion of the mounting nut 50(a) is in between snap- fit receptacle apertures 24(a) and 24(b), and at least a portion of the mounting nut 50(b) is in between snap-fit receptacle apertures 24(c) and 24(d).
  • mounting nut 50(b) is located at a central portion of mounting structure 30(b).
  • the snap fit receptacles 24(c) and 24(d) are located outside of the central portion at side (end) regions of the mounting structure 30(b). in this version, at least a portion of mounting nut 50(b) is in between snap-fit receptacle apertures 24(c) and 24(d).
  • the PDM 10 has no more than two connection components configured to connect the PDM 10 to a mounting structure (i.e., no more than one connection component at each of opposed sides of the base 12). The first of the two
  • connection components (mounting nut 50(a)) is located at a first side of the PDM 10, and the second of the two connection components (mounting nut 50(b)) is located at a second side of the PDM 10, opposite the first side.
  • both of opposite sides of the PDM 10 have only one connection component configured to connect the PDM 10 to a structure.
  • a connection component may be, as examples, a nut, a snap-type connector, a pin, a latch, a hook, etc. that may be integrated in respective PDM mounting structures 30(a), 30(b).
  • the snap-fit receptacles 24(a) and 24(b) abutt the side 56 of the rectangular cube that houses the array of cavities, and the mounting nut 50(a) is within an area that is between the snap-fit receptacles 24(a) and 24(b).
  • the snap-fit receptacles 24(c) and 24(d) abutt the side 60 of the rectangular cube that houses the array of cavities and the mounting nut 50(b) is within an area that is between the snap-fit receptacles 24(c) and 24(d).
  • PDM connection and cover lock elements extend in a sequential arrangement outward along a plane orthogonal to the side of the rectangular cube. Consequently, PDM covers of the related art are generally too long to dislodge from the base using only one hand. Also, due to their size in certain applications it may be challenging to find a location to mount PDMs of the related art.
  • the cover 14 of the PDM of the present disclosure is relatively compact and for that reason it is possible to unsecure and remove it from the base using only one hand, as opposed to requiring two hands as is required to remove PDMs of the related art. Because of its com act size, it is also less challenging to locate an area to mount the PDM of the present disclosure, compared to PDMs of the related art.
  • the snap-fits 22 ⁇ a)-22 ⁇ d) are generally U-shaped and extend perpendicularly away from a plane coplanar with the opening of the cover 14.
  • a U-shaped snap- fit includes an attachment arm 64 (one arm of the "U") attached to the body of the cover 14, a flexible arched curvature 66 (semi-circle portion of the "U"), and a locking arm 68 (a second arm of the "U") that includes a catch 70 and a release tab 72.
  • the attachment arm 64 is directly attached to the body (i.e. cover casing 38) of the cover 14 with no intervening parts or extensions between the attachment arm 64 and the cover casing 38.
  • the attachment arm 64 may be either directly attached to the cover casing 38, or may form part of the cover casing 38 and extend (in relation to the orientation of Fig. 3) downward (perpendicular to a plane coplanar with the opening of the cover 14).
  • the cover 14 is secured to the base by inserting the snap-fits 22(a)-22(d) into their respective snap-fit receptacles 24(a)-24(d) via the respective flexible arched curvatures of each snap-fit, and compressing the cover 14 onto the base 12, thereby tightly axially compressing the compression seal 20 between the raised flange 46 and the bottom of the seal groove 36. With adequate compression force, the snap-fits narrow as they are further inserted into their respective snap-fit receptacles. Once the catch 70 surpasses the distal edge of the snap-fit receptacle it engages the underside thereof to secure the cover 14 to the base 12.
  • a user compresses opposed release tabs 72(a), 72(b) toward the cover 14, and lifts the cover away from the base 12.
  • a user may use one hand to simultaneously compress the release tabs of opposed snap-fits 22(b) and 22(d) and lift the cover to release the catches 70 from the undersides of the respective snap-fit receptacles, and then, subsequently, simultaneously compress the release tabs of opposed snap-fits 22(a) and 22(c) and lift the cover 14 and remove it from the base 12.
  • the PDM 10 includes a second locking mechanism (referred to herein as a locking clip 74) that, when in place, retains the snap-fits in the locked position when the cover 14 is secured to the base 12.
  • the locking clip 74 includes a pair of guides 76(a), 76(b) bounded by guide channels 78(a), 78(b).
  • the locking clip 74 includes a pair of hitches 80(a), 80(b) that prevent the locking clip 74 from sliding out of the guide channels 78(a), 78(b) when the locking clip 74 is disengaged from the snap-fits 22(a), 22(b) and/or the cover 14 is removed from the base 12.
  • the locking clip 74 includes wedges 82(a), 82(b) that retain the snap-fits in position when the cover 14 is locked onto the base 12.
  • the wedges 82(a), 82(b) maintain a separation distance between the cover casing 38 and the snap fits 22(a), 22(b) such that the catch cannot disengage from its locked position, regardless of whether pressure is applied to the release tabs 72(a), 72(b).
  • the locking clip 74 further includes lock hitches 84(a), 84(b) that engage the lower edges of the guide channels 78(a), 78(b) when the locking clip is pressed down into its locked state.
  • the locking clip 74 may be disengaged by pressing the hitches 80(a), 80(b) inward and upward in relation to the cover casing 38.
  • the cover 14 of the PDM 10 is locked onto the base 12 by pressing the cover 14 onto the base 12 until the latch 70 surpasses the distal edge of the snap-fit receptacle.
  • the cover 14 of the PDM 10 is removed from the base 12 by pressing the hitches 80(a), 80(b) inward and upward towards the cover casing 38 to disengage the locking clip 74 from the lower edges of the guide channels 78(a), 78(b).
  • First and second pairs of opposed release tabs are then compressed (an action that may be performed sequentially with the use of only one hand) as the cover 14 is lifted away from the base 12.
  • the seal groove 36 is formed in the cover casing 38 and is defined by the inner lip boarder 42 and the outer lip boarder 40 and has a depth defined by the bottom surface 44 formed in the cover casing 38.
  • the inner lip boarder 42 is an extension of the inner chamber wall.
  • the outer lip boarder 40 is parallel to the inner lip boarder 42 and is spaced from the inner lip boarder 42 in a direction away from the inner chamber. The spacing between the inner lip boarder 42 and the outer lip boarder is commensurate with the width of the bottom surface 44 of the seal groove 36.
  • the cover 14 is molded plastic.
  • the cover 14 includes an aperture 90 traversing the width of the cover casing 38.
  • the aperture 90 is shielded outside the chamber 48 by one of the guide channels, for example guide channel 78(a), as well as the respective guide 76 within the guide channel 78(a) (if a locking clip is in place).
  • a hydrophobic material 92 is adhered to a section of the inner wall 86 over and around the aperture 90.
  • the hydrophobic material 92 and the aperture 90 provide a breather hole that is sheltered at the outside by the guide channel 78(a) and its respective guide 76.
  • the hydrophobic material 92 is located within the chamber 48. Because the hydrophobic material 92 is located within the chamber 48 it is much less susceptible to clogging and dirt accumulation because it is not directly exposed to outside elements.
  • the PDM 10 of the present disclosure may optionally include a terminal lock 94, an embodiment of which is illustrated in Fig. 11.
  • a terminal lock 94 includes tabs 96(a), 96(b) for locking engagement with base apertures, an example of which is illustrated in Fig. 1 at 98.
  • the terminal lock 94 prevents wire terminals from disengaging from the base receptacles 32 and preferably includes semi-circular apertures that do not impede the wires that are connected to the wire terminals.
  • the preferred material for the PDM cover is a blend of polyphenylene ether, polystyrene, and polyamide. This material provides exceptional stiffness and flexural modulus, excellent chemical resistance, and good processability and flow.
  • the preferred material for the PDM base is glass reinforced semi-crystalline polybutylene terephthalate, which shows low moisture and thermal expansion and offers outstanding wear and friction properties. With good strength at high temperatures, it has good electrical properties and is flame resistant.
  • the PDM of the present disclosure utilizes a first material that withstands the temperature demands of a base that supports electrically active components, and a second material that has properties suitable for a protective structure, such as the cover, Silicone is the preferred material for the compression seal 20.
  • a PDM prototype according to the present disclosure has been built, tested, and rated and found to be compliant with the Restriction of Hazardous Substances (RoHS) directive.
  • the prototype cover is a blend of polyphenylene ether, polystyrene, and polyamide.
  • the prototype base is glass reinforced semi-crystalline polybutylene terephthalate.
  • the material for the compression seal is silicone.
  • the prototype constructed in accordance with the present disclosure is a forty-eight way PDM that measures approximately 108.5 millimeters in length and 62 millimeters in width, thereby providing forty-eight receptacles within a PDM having an area of only 6,727 square millimeters.
  • IP Ingress Protection
  • cover UL 94 HB flammability rating
  • base UL 94V-0 flammability rating
  • compression seal UL 94HB flammability rating.
  • a prototype without a vent withstood a maximum continuous current of 150 Amps.
  • HALT highly accelerated life test
  • Salt spray sustained 96 hour testing

Landscapes

  • Connector Housings Or Holding Contact Members (AREA)

Abstract

La présente invention porte sur un module de distribution de puissance compact comprenant un couvercle et une base. Le couvercle comprend un reniflard hydrophobe blindé pour réduire l'engorgement d'un trou de reniflard. Le couvercle comprend en outre un second mécanisme de verrouillage qui empêche un premier mécanisme de verrouillage de se libérer, ce qui permet de verrouiller doublement le couvercle à la base. La base comprend un écrou de montage entre des contenants encliquetables. Étant donné que le module de distribution de puissance est compact, le couvercle peut être retiré de la base en utilisant une seule main pour déverrouiller les premier et second mécanismes de verrouillage.
PCT/US2015/058065 2015-05-06 2015-10-29 Module de distribution de puissance Ceased WO2016178708A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US201562157578P 2015-05-06 2015-05-06
US62/157,578 2015-05-06

Publications (1)

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WO2016178708A1 true WO2016178708A1 (fr) 2016-11-10

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10692676B2 (en) 2016-12-12 2020-06-23 Mrs Corporate, Inc. Modular pluggable electronic processing component and distributed processing system formed thereof
US10763613B2 (en) 2017-10-31 2020-09-01 Deere & Company Barrier device for an electrical connector
US11239723B2 (en) 2017-10-31 2022-02-01 Deere & Company Interconnection device

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US5531345A (en) * 1993-10-12 1996-07-02 Sumitomo Wiring Systems, Ltd. Fitting construction of electrical connection box
US5643693A (en) * 1995-10-30 1997-07-01 Yazaki Corporation Battery-mounted power distribution module
US6445568B1 (en) * 1999-11-25 2002-09-03 Daimlerchrysler Ag Plastic housing with condensation protection for electric and electronic assemblies
US20070270045A1 (en) * 2004-12-10 2007-11-22 Cooper Technologies Company Sealed compact power distribution module
US20080111863A1 (en) * 1998-10-16 2008-05-15 Silverbrook Research Pty Ltd Printer Unit Incorporating An Integrated Print Roll And Ink Supply Unit
US20080233783A1 (en) * 2007-03-22 2008-09-25 Jon Thomas Jacobson Integrated overmolded cable seal and gasket for an electronic module
US20080293291A1 (en) * 2002-10-29 2008-11-27 Arctic Cat Inc. Power distribution module for personal recreational vehicle
US20140134884A1 (en) * 2011-07-06 2014-05-15 Autonetworks Technologies, Ltd. Battery wiring module

Patent Citations (8)

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Publication number Priority date Publication date Assignee Title
US5531345A (en) * 1993-10-12 1996-07-02 Sumitomo Wiring Systems, Ltd. Fitting construction of electrical connection box
US5643693A (en) * 1995-10-30 1997-07-01 Yazaki Corporation Battery-mounted power distribution module
US20080111863A1 (en) * 1998-10-16 2008-05-15 Silverbrook Research Pty Ltd Printer Unit Incorporating An Integrated Print Roll And Ink Supply Unit
US6445568B1 (en) * 1999-11-25 2002-09-03 Daimlerchrysler Ag Plastic housing with condensation protection for electric and electronic assemblies
US20080293291A1 (en) * 2002-10-29 2008-11-27 Arctic Cat Inc. Power distribution module for personal recreational vehicle
US20070270045A1 (en) * 2004-12-10 2007-11-22 Cooper Technologies Company Sealed compact power distribution module
US20080233783A1 (en) * 2007-03-22 2008-09-25 Jon Thomas Jacobson Integrated overmolded cable seal and gasket for an electronic module
US20140134884A1 (en) * 2011-07-06 2014-05-15 Autonetworks Technologies, Ltd. Battery wiring module

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10692676B2 (en) 2016-12-12 2020-06-23 Mrs Corporate, Inc. Modular pluggable electronic processing component and distributed processing system formed thereof
US10763613B2 (en) 2017-10-31 2020-09-01 Deere & Company Barrier device for an electrical connector
US11239723B2 (en) 2017-10-31 2022-02-01 Deere & Company Interconnection device

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