fuse relay box apparatus, methods and articles of manufacture are shown. A fuse relay box comprises a cover and base, with optional seal. The base comprises a number of channels adapted for use by either a fuse or relay. Some channels may be useable by a diode as well. terminals for the contacts of these components are connected to the contacts of the components through the channels. mounting flexibility is also provided so the box is either side or bottom mounted.
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0. 7. A power distribution module comprising:
a base including a plurality of channels therethrough, said channels being configured to interchangeably receive contacts of electrical components inserted at a first side of any one of said channels wherein said channels are positioned at a uniform pitch along each column and at a uniform pitch along each row, wherein said channels have a cross configuration comprising mutually bisecting orthogonal slots.
0. 8. A power distribution module comprising:
a base including a plurality of channels therethrough, said channels being configured to interchangeably receive a fuse or relay blade contact from the top of said base, and said channels being further adapted to receive a terminal from the bottom of said base, wherein said terminal may be mated to said blade contact within said channel, further wherein said channels have a cross configuration comprising mutually bisecting orthogonal slots.
0. 9. A power distribution module comprising:
a base having a matrix of orthogonal rows and columns of channels, wherein the channels are spaced apart equally such that the spacing between the rows is substantially the same as between the columns, further wherein the channels are configured to interchangeably receive contacts of different electrical components inserted at a first side of any one of said channels, wherein said channels have a cross configuration comprising mutually bisecting orthogonal slots.
3. A fuse relay box comprising:
a cover; and
a base comprising a matrix of channels, with said channels adapted to interchangeably receive a fuse or relay blade contact from the top of said base, and said channel being further adapted to receive a terminal from the bottom of said base, wherein said terminal may be mated to said blade contact within said channel so as to make a mechanical and electrical connection the base further adapted to receive said cover,
wherein at least one of said channels is further adapted to receive a diode contact.
1. A fuse relay box comprising:
a cover;
a base comprising a matrix of channels, with said channels adapted to interchangeably receive a fuse or relay blade contact from the top of said base, and said channel being further adapted to receive a terminal from the bottom of said base, wherein said terminal may be mated to said blade contact within said channel so as to make a mechanical and electrical connection, the base further adapted to receive said cover; and
a mounting means, adapted for mounting said box on a substrate, wherein said mounting means is adapted for both bottom mounting and side mounting.
4. A fuse relay box, comprising:
a base having a matrix of orthogonal rows and columns of channels therethrough, said channels being configured to interchangeably receive a fuse contact or relay contact and positioned at a uniform pitch along each column and at a uniform pitch along each row, such that a fuse contact can be inserted into any one of said channels and a set of contacts from a relay can be inserted in any corresponding set of adjacent orthognal channels, said channels being further adapted to receive terminals from ends of said channels opposite said insertions, wherein said terminals can be mated to said contacts within said channels so as to make a mechanical and electrical connection, at least one channel being further adapted to receive a diode contact.
5. A fuse relay box comprising:
a base having a matrix of orthogonal rows and columns of channels therethrough, said channels being configured to interchangeably receive a fuse contact or a relay contact and positioned at a uniform pitch along each column and at a uniform pitch along each rows such that a fuse contact cap be inserted into any one of said channels and a set of contacts from a relay can be inserted in any corresponding set of adjacent orthogonal channels, said channels being further adapted to receive terminals from ends of said channels opposite said insertions, wherein said terminals can be mated to said contacts within said channels so as to make a mechanical and electrical connection, wherein said channels have a cross configuration comprising mutually bisecting orthogonal slots.
6. A The fuse relay box as in
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The present invention relates to electrical components. More particularly, the present invention relates to electrical component housings such as fuse relay boxes and the like.
The use of a housing, or box, in vehicles for electrical components such as fuses and relays has become fairly common. These mixed use boxes (known as fuse relay boxes) provide an advantage by decreasing the space required in the vehicle's internals. Separate boxes for fuses and relays require more space. Additionally, separate boxes may require more bulky wiring to the boxes, as the fuse wires and any harnesses likely require a separate path to a fuse box from the path taken by relay wires and any harnesses to a relay box.
Fuse relay boxes, however, may bring their own complications. Placing fuses and relays in a single box is often accomplished through engineering specific areas of the box for a specific fuse or relay component. Wiring connecting those fuse-specific or relay-specific areas must also be routed to that area of the box. Thus, any changes to fuse placement and/or fuse wiring placement in the box, or relay placement, and/or relay wiring placement in the box, can only be made with difficulty, and would require reconfiguration of the entire box.
Because of the limited reconfiguration potential of these fuse relay boxes (which occasionally includes diodes as well, leading to yet another level of complication), these boxes are vehicle specific. They cannot be used in different vehicle models. A fuse relay box for a specific vehicle model with a fixed configuration of fuses and relays for that specific vehicle model usually cannot be used in a different vehicle model as that second vehicle model may have a different set of fuses, relays and diodes. A new box must be engineered.
Additionally, a fixed configuration box often lacks mounting flexibility because the box requires a specific mounting on the vehicle. Once design of that mounting is set, there is little or no ability to modify or move that mounting to accommodate new wiring and fuse or relay requirements.
Thus, it would be beneficial if a fuse relay box is provided that allows for flexible component placement throughout the box. Such a box would likely eliminate the need for fixed configuration fuse relay boxes and provide flexibility in configuring fuse, relay, diode and wire placement. It would also be beneficial if a fuse relay box could be provided with flexible mounting requirements, further simplifying vehicle design.
Accordingly, it is an object of the present invention to provide fuse relay box apparatus, methods and articles of manufacture.
It is a further object of the present invention to provide a user configurable fuse relay box apparatus, methods and articles of manufacture.
It is a further object of the present invention to provide a user configurable fuse relay box apparatus, methods and articles of manufacture with flexible mounting requirements.
The summary, as well as the following detailed description of the invention, will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there are shown in the drawings, certain embodiment(s) which are presently preferred. It should be understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown.
The present invention comprises fuse relay box apparatus, methods and articles of manufacture. The preferred embodiments comprise a cover and power distribution module base. Fuses, relays and diodes (referred to herein as “electrical components”) may be installed upon the base. A cover seal may also be used in certain preferred embodiments. Both the cover and any seal help protect the components installed on the base from the environment.
Channels are provided that extend vertically through the base and are adapted for receiving the components. The cross shaped top of any given channel receives a blade contact from an electrical component. The contact blade fits within a slot of the cross, while the remaining slot provides access for removal of the terminal. Certain channels are configured to accept diodes as well, by use of an extra slot provided within a leg of a cross. This slot may not be used if fuses or relays are installed therein.
The blade contact extends partially through the channel from the top, and the bottom of the channel is configured so as to receive either sealed or unsealed terminals. A terminal is brought up through the bottom of a channel to mate with a blade contact of an electrical component depending downwardly from the top of the channel and so a mechanical and electrical connection is made through the channel between the blade contact and terminal. Maximum flexibility is thus provided by permitting individual blade-terminal connections in any channel. Thus, any desired electrical component configuration may be created throughout the fuse relay box.
Additionally, the preferred embodiments provide means for mounting that accommodate either a side mount, i.e. the box is mounted so its side is coextensive with a mounting substrate, or a bottom mount, i.e. the box is mounted so its bottom is coextensive with a mounting substrate.
Additional objects, advantages and novel features of the invention will be set forth in part in the description and figures which follow, and in part will become apparent to those skilled in the art on examination of the following, or may be learned by practice of the invention.
In the preferred embodiments, any desired matrix of channels may be used as desired and so the shape of the embodiment may be different from embodiment to embodiment. For example, an embodiment may have a 4×9 matrix, a 6×6 matrix, etc. Moreover, the matrix of an embodiment may be sized for specific types of components, as will be further described below.
Returning to
As described above, in other embodiments, other means may be used to latch the cover onto the base. Of course, embodiments may dispense with latch means. Additionally, other means as known in the art, e.g. screws, may be used to install an embodiment on a mounting area, as is further described below. Also means may be used, through additional members, to route wires or wiring harnesses depending from the bottom of the various channels.
Turning briefly to
The channel, in the preferred embodiments, leaves little play for the contact or terminal so that the mechanical and electrical connection between them may be made securely. Certain embodiments may have snap fit flange or other means to secure the terminals as well. Additionally, embodiments may use wires that are grouped together by way of harness or other means, to simplify installation.
Turning now to
Other mounting means may be used in other embodiments for either bottom or side mounting so long as sufficient strength exists to retain the box upon the substrate. For example, screws may be used, a U-shaped bracket may be used, preinstalled brackets on the base may be used, etc. If a wire routing member is used on a bottom mounted embodiment or embodiments, the mounting means may provide space between the base bottom and the substrate, so as to provide space for any gathered wires and/or any wire harness or harnesses as well.
The preferred embodiments provide an interlocking mechanism between cover and base so as to assist in insulating the components from the environment.
It is also possible in various embodiments to use a seal, made of silicone or other material as known in the art, fitting within recesses 28 and/or 19. In this, and other preferred embodiments, the seal would be the shape of the cover and base, such as the seal 75 shown in FIG. 6a.
In various embodiments, channels may be configured so as to engage only certain types of contacts. For example, as was described above, diodes may be used with appropriate channel configurations in certain areas to ensure diodes are only placed in those areas. This arrangement inhibits installation flexibility, but may be desirable for safety reasons, maintenance reasons, etc.
The above description and the views and material depicted by the figures are for purposes of illustration only and are not intended to be, and should not be construed as, limitations on the invention.
Moreover, certain modifications or alternatives may suggest themselves to those skilled in the art upon reading of this specification, all of which are intended to be within the spirit and scope of the present invention as defined in the attached claims.
Patent | Priority | Assignee | Title |
Patent | Priority | Assignee | Title |
4772759, | Sep 23 1987 | United Technologies Automotive, Inc. | Ventilated splash resistant electrical component housing |
5179503, | Apr 19 1991 | Lear Automotive Dearborn, Inc | Modular automobile power distribution box |
5531345, | Oct 12 1993 | Sumitomo Wiring Systems, Ltd | Fitting construction of electrical connection box |
5788529, | Jun 09 1997 | General Motors Corporation | Top down electrical distribution center assembly |
6108202, | Jul 03 1996 | Sumitomo Wiring Systems, Ltd. | Electric connection box |
6196882, | Feb 20 1998 | Yazaki Corporation | Electric connection box |
6224397, | Feb 01 1999 | Sumitomo Wiring Systems, Ltd. | Branching connector and electrical connector box assembly |
6468091, | Mar 09 2001 | Delphi Technologies, Inc. | Electrical distribution center |
7072188, | Oct 29 2002 | Arctic Cat Inc. | Power distribution module for personal recreational vehicle |
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