U.S. patent application number 15/344773 was filed with the patent office on 2018-05-10 for printed circuit board enclosure assembly.
The applicant listed for this patent is PHOENIX CONTACT DEVELOPMENT AND MANUFACTURING, INC. Invention is credited to Tod M. Harlan, Gottlieb Oyster, Nathan Potteiger, Kevin Walker.
Application Number | 20180132374 15/344773 |
Document ID | / |
Family ID | 60020733 |
Filed Date | 2018-05-10 |
United States Patent
Application |
20180132374 |
Kind Code |
A1 |
Walker; Kevin ; et
al. |
May 10, 2018 |
Printed Circuit Board Enclosure Assembly
Abstract
An enclosure assembly for housing printed circuit boards and
related electrical components that provides secured component
mounting in outdoor environments.
Inventors: |
Walker; Kevin; (Hershey,
PA) ; Harlan; Tod M.; (Mechanicsburg, PA) ;
Oyster; Gottlieb; (Hummelstown, PA) ; Potteiger;
Nathan; (Middletown, PA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
PHOENIX CONTACT DEVELOPMENT AND MANUFACTURING, INC |
Middletown |
PA |
US |
|
|
Family ID: |
60020733 |
Appl. No.: |
15/344773 |
Filed: |
November 7, 2016 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
H05K 7/1427 20130101;
H05K 7/1402 20130101; H05K 5/0221 20130101; H05K 5/03 20130101;
H05K 7/1418 20130101 |
International
Class: |
H05K 7/14 20060101
H05K007/14; H05K 5/03 20060101 H05K005/03; H05K 5/02 20060101
H05K005/02 |
Claims
1. An assembly for housing an electrical component, the assembly
comprising an enclosure body having an interior wall surrounding a
cavity, a mouth opening into the cavity, a circuit board in the
cavity, the circuit board having opposed board edges extending
between board front and rear ends, one board edge having a board
retention notch, a sliding connection removably mounting the
circuit board on the enclosure body interior wall, said sliding
connection comprising a slot first latch housing recess on the
enclosure body interior wall, the slot latch housing recess
extending away from the mouth, and a V-shaped slot latch in the
slot latch housing recess adjacent to the mouth, the slot latch
comprising a latch retention arm in the recess, a latch mounting
arm overlying the latch retention arm and a spring bend joining the
latch arms, the spring bend adjacent to the mouth, and the latch
arms extending away from the spring bend and into the cavity, said
circuit board having a fully inserted position wherein the circuit
board is in the cavity, said slot latch retention arm engages the
board edge away from the notch, and said circuit board having a
partially inserted position wherein the slot latch retention arm
extending into said board retention notch to secure the board to
the body.
2. The assembly as in claim 1 wherein both board edges have a board
retention notch, said sliding connection comprising a second slot
latch housing recess on the enclosure body interior wall, and a
second slot latch in the second mounting slot.
3. (canceled)
4. The assembly as in claim 2 wherein said mounting slots each have
a first slot height proximate the mouth and a second slot height
distal from the mouth, the first slot height greater than the
second slot height.
5. The assembly as in claim 4 wherein the first slot height is
greater than about 0.093 inches and the second slot height is less
than about 0.093 inches.
6. The assembly as in claim 4 wherein the assembly comprises a
cover closing the mouth, and a physical connection mounting the
circuit board to the cover.
7. (canceled)
8. The assembly as in claim 6 including an electrical component on
the circuit board, wherein the enclosure body or cover comprise
apertures for conductors extending from the electrical component
through the enclosure body or cover and outside the assembly for
electrical connection to electrical components outside of the
assembly enclosure and cover.
9. The assembly as in claim 8 including a pair of cover latch
assemblies, each cover latch assembly including a first latch
member on the enclosure body, a second latch member on the cover
and a flexible latch movable between a first latch position
securing the latch members together and a second unlatched position
and means to prevent over-deflection of the latch during latching
and unlatching.
10-18. (canceled)
19. The assembly as in claim 1 wherein the latch retention arm is
substantially flat.
20. An assembly for housing an electrical component, said assembly
comprising: an enclosure body having enclosure walls surrounding an
interior cavity, an enclosure mouth opening into said cavity and an
enclosure rear wall away from said mouth; a slot on the interior of
the cavity extending from said mouth toward said rear wall; a
V-shaped latch in the slot, the latch comprising a first portion
secured to the body in the slot, a second portion overlying the
first portion and extending along the slot to a latch end facing
away from the mouth, and a bend joining the first and second
portions, the bend facing the mouth; a circuit board in the cavity,
said circuit board having opposed board edges extending between
board front and rear ends, one board edge having a board retention
notch; said one board edge in the slot; wherein said circuit board
having a fully inserted position in the cavity with said latch end
engaging the board edge away from the notch, said circuit board
having a partially inserted position in the cavity with said latch
end extending into said board retention notch to secure the circuit
board to the body in a partially inverted position.
21. The assembly as in claim 20 wherein said first and second latch
portions are flat.
22. (canceled)
23. (canceled)
24. The assembly as in claim 20 said slot having a first slot
height proximate the mouth and a second slot height proximate the
enclosure rear wall, the first slot height greater than the second
slot height.
25. The assembly as in claim 24 wherein the first slot height is
greater than 0.093 inches and the second slot height is less than
0.093 inches.
26. (canceled)
27. (canceled)
28. (canceled)
29. The assembly as in claim 20 including a pair of cover latch
assemblies, each cover latch assembly including a first latch
member on the enclosure body, a second latch member on the cover
and a flexible latch movable between a first latch position
securing the latch members together and a second unlatched
position, and means to prevent over-deflection of the latch during
latching and unlatching.
30. The assembly as in claim 20 wherein said latch is formed from
metal.
31. The assembly as in claim 1, wherein the slot latch is located
entirely within the cavity.
Description
FIELD OF THE DISCLOSURE
[0001] The disclosure relates to enclosures for electrical
components and in particular to sealed circuit board enclosures
which are adapted for outdoor use.
BACKGROUND OF THE DISCLOSURE
[0002] Enclosures for housing printed circuit boards (PCBs) and
like electrical components are known. Enclosures are typically made
of plastic or metal and are designed to house PCBs and electrical
components in controlled, stable environments. Enclosures for
housing electrical components outdoors are designed to house the
components in stable environments despite environmental changes
outside the enclosures.
[0003] Maintaining reliable electrical components in outdoor
enclosures is challenging because the outdoor environment is
unstable and can damage components inside the enclosures. In
particular, electrical components can be damaged by moisture
seeping into the enclosures. Even when an enclosure body and cover
are impermeable to moisture, the failure of a seal between the body
and cavity can permit moisture to seep into the enclosure damage
components.
[0004] Other challenges arise with housing electrical components in
outdoor environments.
[0005] Enclosures for electrical components typically include an
enclosure body and a removable cover. When the enclosure cover is
removed to access the enclosure interior for circuit board
installation or service, the PCB can be dislodged, escaping the
enclosure interior and be lost or damaged. These risks are
increased when enclosures are mounted on poles, towers, building
sides or like supports above ground level. Enclosure service may be
conducted from ladders, scaffolding or other supports at height. In
these situations, it can be difficult to secure a PCB when opening
an enclosure.
[0006] Challenges also arise in securing an enclosure cover on an
enclosure body. It is known to provide an enclosure cover having
latches with security features to prevent tampering. To unlatch the
cover, an elongate tool such as a screwdriver is extended into an
access aperture to displace a latch. The tool can over-deflect the
latch, causing damage to the latch.
[0007] Other challenges arise in securely mounting printed circuit
boards of different thicknesses in an enclosure. The PCB's must be
held against movement in the enclosure and not be loose.
Conventional enclosures have adaptable mounting means and/or
provide different enclosure bodies sized to accept different
thickness PCBs, adding to enclosure complexity and cost.
[0008] Thus, it is desirable to provide an enclosure assembly for
housing an electrical component having sealing elements at the
enclosure opening that secures against moisture seepage, retention
elements to prevent the unintended dislodging of components from
the enclosure, elements to prevent actuating latch to
over-deflection causing latch damage and elements to allow the
mounting of various thickness PCB's into a single enclosure body to
overcome the challenges mentioned above.
BRIEF SUMMARY OF THE DISCLOSURE
[0009] Disclosed is an improved enclosure assembly for housing an
electrical component, particularly an assembly having an
outdoor-mounted enclosure housing for a printed circuit board with
electrical components mounted on the circuit board. The disclosed
enclosure has lug and aperture elements and sealing elements at the
enclosure mouth which form a secured physical connection that
prevents moisture seepage; retention elements to prevent the
unintended dislodging and escape of PCBs from the enclosure;
elements to prevent opening latch over-deflection damage; and
elements allowing the mounting of different thickness PCBs in the
enclosure.
[0010] The disclosed enclosure assembly sealing elements include
lug projections that extend into apertures on the enclosure cover
to prevent outward flexing of enclosure body walls away from the
enclosure cover. Outward wall flexing can cause seal loss between
the enclosure and enclosure cover at the enclosure mouth.
[0011] The disclosed enclosure assembly has PCB retention latches
that permit partial withdrawal of the PCB from the enclosure for
servicing but prevent the PCP from separating and escaping fully
from the enclosure. The retention latches permit a technician to
partially remove the PCB from the enclosure for inspection and
servicing of the PCB without the need to completely remove the PCB
from the enclosure. The retention latches must be manually
disengaged by a technician to fully remove the PCB from the
enclosure, preventing unintended PCB escape, loss and damage.
[0012] The enclosure assembly cover latch prevents latch
over-deflection and damage.
[0013] The enclosure assembly includes specialized mounting slots
that accommodate different thickness printed circuit boards in the
enclosure.
[0014] Other objects and features will become apparent as the
description proceeds, especially when taken in conjunction with the
accompanying drawing sheets.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1 is a perspective view of the disclosed enclosure
assembly;
[0016] FIG. 2 is an exploded view of the disclosed enclosure
assembly;
[0017] FIG. 3 is a perspective view of the enclosure body;
[0018] FIG. 4 is a top view of the enclosure body;
[0019] FIG. 5 is a bottom view of the enclosure body;
[0020] FIG. 6 is a side view of the enclosure body;
[0021] FIG. 7 is a front view of the enclosure body;
[0022] FIG. 8 is a sectional view taken along line 8-8 of FIG.
7;
[0023] FIG. 9 is a perspective view of the assembly cover;
[0024] FIG. 10 is a front view of the assembly cover;
[0025] FIG. 11 is a rear view of the assembly cover;
[0026] FIG. 12 is a side view of the assembly cover;
[0027] FIG. 13 is a top view of the assembly cover;
[0028] FIG. 14 is a sectional view taken along line 14-14 of FIG.
10;
[0029] FIG. 15 is a sectional side view of the enclosure assembly
shown in FIG. 1;
[0030] FIG. 16 is a sectional view taken along line 16-16 of FIG.
7;
[0031] FIG. 17 is a sectional view taken along line 17-17 of FIG.
10;
[0032] FIGS. 18-20 are sectional views showing latching of the
cover to the body;
[0033] FIGS. 21-25 are sectional views showing unlatching of the
enclosure assembly;
[0034] FIG. 26 is a top view of an assembly printed circuit
board;
[0035] FIG. 27 is a perspective view showing an assembly printed
circuit board mounted to an assembly cover;
[0036] FIG. 28 is a perspective view showing insertion of the
printed circuit board into the enclosure body;
[0037] FIG. 29 is a side view of a slot latch used with the
assembly;
[0038] FIG. 30 is a rear view of the slot latch;
[0039] FIG. 31 is a top view of the slot latch;
[0040] FIG. 32 is a perspective detail view of a slot latch
housing;
[0041] FIG. 33 is a front view of the slot latch housing;
[0042] FIG. 34 is a front view of the slot latch housing;
[0043] FIG. 35 is a sectional view taken along line 35-35 of FIG.
34;
[0044] FIG. 36 is a sectional view like FIG. 35 showing the
installed slot latch;
[0045] FIG. 37 is a sectional top view showing the beginning of
insertion of a printed circuit board into the enclosure body;
[0046] FIG. 38 is a detail view of FIG. 37 showing the slot
latch;
[0047] FIG. 39 is a sectional top view showing partial insertion
and retention of a printed circuit board in the enclosure body;
[0048] FIG. 40 is a detail view of FIG. 39 showing the slot
latch;
[0049] FIG. 41 is a sectional top view showing full insertion of a
printed circuit board into the enclosure body;
[0050] FIG. 42 is a detail view of FIG. 41 showing the slot
latch;
[0051] FIG. 43 is a sectional top view showing use of a tool to
assist in removal of a printed circuit board from the enclosure
body;
[0052] FIG. 44 is a detail view of FIG. 43 showing the slot
latch;
[0053] FIG. 45 is a sectional view taken along line 45-45 of FIG.
39; and
[0054] FIG. 46 is a sectional view taken along line 46-46 of FIG.
41.
DETAILED DESCRIPTION
[0055] FIG. 1 shows an enclosure assembly 10 having an enclosure
body 12 and an enclosure cover or faceplate 14. As shown in the
figures, enclosure body 12 is generally rectangular and enclosure
cover 14 is generally flat. Enclosure body 12 and enclosure cover
14 may be molded from plastic.
[0056] Enclosure body 12 is made up of five body walls: top wall
18, bottom wall 20, side walls 22, 24, and rear wall 26. Enclosure
mouth 28 leads into enclosure internal cavity 30. The surrounding
body walls define cavity 30 which is generally rectangular.
[0057] The body walls have the following surfaces: top wall
exterior surface 32, bottom wall exterior surface 34, side wall
exterior surfaces 36, 38, rear wall exterior surface 40, top wall
interior surface 42, bottom wall interior surface 44, side wall
interior surfaces 46, 47 and rear wall interior surface 48.
[0058] Four enclosure assembly feet 50 extend from the bottom of
body 12 proximate side walls 22, 24 and enclosure bottom wall 20.
Each foot 50 is generally rectangular and may have foot flange
portions 52 extending from the sides of the foot and/or foot
apertures 54 extending through the foot body. As illustrated in
FIGS. 4 and 5, foot apertures 54 may be surrounded by a foot 50 or
be open to the exterior of foot 50.
[0059] Foot flange portions 52 and/or foot apertures 54 may be used
to secure enclosure assembly 10 in place on a support, either by
extending a fastener through apertures 54 or by engaging foot
flange portions 52.
[0060] Enclosure front mouth 28 has circumferentially-extending
mouth lip or bezel 56. Mouth lip 56 has a flat, circumferential lip
surface 58 extending around mouth 28 and facing out or away from
internal cavity 30. Lip surface 58 is made up of lip surface top
portion 60 proximate top wall 18, a lip surface bottom portion 62
proximate bottom wall 20, a lip surface side portion 64 proximate
side wall 22 and lip surface side portion 66 proximate side wall
24.
[0061] Enclosure front mouth 28 includes circumferential enclosure
seal surface 68 which extends about and is located inwardly of lip
surface 58. Surface 68 is generally flat, extending from lip 56 and
into internal cavity 30. Surface 68 extends circumferentially
around mouth 28 and faces inwardly toward internal cavity 30. See
FIG. 8.
[0062] Mouth lip 56 includes a number of retention projection lugs
70. Lugs 70 extend away from internal cavity 30 and are generally
rectangular, having a lug top wall 72, a lug bottom wall 74, lug
side walls 76 and a lug front wall 78. In embodiments, lug 70 may
include an angled chamfer surface 79 adjacent lug front wall
78.
[0063] Lugs 70 include enclosure retention surface 80 on walls 72,
74. Surface 80 is generally flat, extending from lip 56 away from
internal cavity 30. Surfaces 80 face outwardly away from seal
surface 68. See FIGS. 7 and 8.
[0064] While the attached figures show projection lugs 70 are
rectangular, other projection shapes are contemplated, including
cylindrical retention projections extending from mouth lip 56 or
other shapes, so long as the lug supports have an outwardly facing
retention surface 80.
[0065] Three lugs 70 are spaced along lip top portion 60, with
three lugs 70 spaced along lip surface bottom portion 62. In
alternate embodiments, other numbers of lugs may be spaced along
lip portions 60, 62.
[0066] Enclosure body top wall 18 is generally flat with an
outwardly-curving top arch 82 extending between side walls 22, 24.
Enclosure body bottom wall 20 is generally flat with an
outwardly-curving bottom arch 84 extending between side wall 22,
24. See FIG. 7. Top and bottom wall arches 82, 84 help stabilize
top and bottom walls 18, 20 against outwardly-deforming forces.
[0067] Enclosure body 12 may include a vent assembly. In the
attached figures, vent assembly 86 is shown on bottom wall 20, but
may be placed in other enclosure walls if desired. The vent
assembly is made up of a vent aperture 88 extending through bottom
wall 20 and into cavity 30 and a seal element 90 seated within vent
aperture 88. Seal element 90 includes a breathable, waterproof
membrane that repels the passage of liquid water while allowing air
and water vapor to pass through aperture 88. This allows the
pressure within a sealed cavity 30 to equalize to external
atmospheric pressure thus preventing the formation of moisture
condensate that may damage components mounted within assembly 10
including electric components on a PCB in the assembly. Seal
element 90 may utilize "GORE-TEX" brand fabric material
manufactured by W. L. Gore & Associates, Inc. or other
comparable fabrics as a membrane component.
[0068] Enclosure cover 14 has a generally flat, rectangular shaped
cover body 92. Cover body 92 has a front face 94 and a rear face
96. Cover top and bottoms portions 98, 100 extend between cover
side portions 102, 104.
[0069] Enclosure assembly 10 may have means to transmit the
electrical power and/or data signals to and from an electrical
component mounted within enclosure body 12. Electrical power may be
transmitted from a power source outside enclosure assembly 10 to an
electrical component in cavity 30. Data signals may be transmitted
between an electrical component in cavity 30 and a component
located outside of the assembly. Transmission means may include one
or more apertures extending through enclosure cover 14 or enclosure
body 12 body walls 18, 20, 22, 24, and 26, the apertures allowing
use of a cable and cable glad. The cable gland allows a technician
to pass the cable into assembly 10 while sealing out moisture and
undesired foreign matter from cavity 30. The transmission means may
also include an electrical socket connector extending through
enclosure cover 14 or cover body 92, the electrical socket
connector allowing interconnection of electrical power and/or data
signal cables to an electrical component mounted within enclosure
body 12. The means may also include the wireless transmission of
data signals between a wireless transmitter/receiver an electrical
component in cavity 30 and a component located outside of the
assembly. In applications where the electrical component mounted
within enclosure body 12 is powered by a self-contained battery or
like power source, the electrical component in cavity 30 may not
require electrical power provided from a power source outside
enclosure assembly.
[0070] Cover top portion 98 has an upwardly-curving top arch 106
extending between side portions 102, 104. Cover bottom portion 100
has a downwardly-curving bottom arch 108 extending between portions
102, 104. See FIG. 10. Top and bottom arches 106, 108 have
generally similar arc lengths as top and bottom wall arches 82,
84.
[0071] Cover rear face 96 has a circumferential seal mounting
member 110. Member 110 extends to one side of face 96 and includes
circumferential channel 112. Channel 112 includes a channel lip 114
and circumferential cover seal surface 116. Surface 116 extends
circumferentially around member 110 and faces outwardly and away
from internal cavity 30 when cover 14 is mounted on enclosure
12.
[0072] Enclosure cover 14 has a number of retention lug apertures
118. Each retention lug aperture 118 extends through cover 14 from
front face 94 to rear face 96 and has a generally rectangular shape
matching the rectangular shape of lugs 70.
[0073] Each retention lug aperture 118 includes a cover retention
surface 120. Surface 120 is generally flat, extending between cover
faces 94, 96 and faces inwardly toward internal cavity 30 when
cover 14 is mounted on enclosure 12. Each cover retention surface
120 is shaped to engage an enclosure retention surface 80 when
cover 14 is mounted on enclosure 12.
[0074] As shown in the figures, a set of three retention lug
apertures 118 are spaced along cover top portion 98, with a
corresponding set of three retention lug apertures 118 spaced along
cover bottom portion 100. In other embodiments, other numbers of
retention lug apertures may be spaced along portions 98, 100 to
accommodate corresponding enclosure lugs 70. Likewise, while the
present drawings show retention lug apertures 118 as rectangular,
other aperture shapes are contemplated to conform to the shape of a
lug 70, so long as the retention lug apertures engage a
complementary, inwardly facing cover retention surface 112.
[0075] Seal Mounting member 100 is adapted to hold a
circumferential seal member 122 within channel 112. See FIGS. 15
and 27.
[0076] Seal member 122 is generally rectangular in shape as shown
in FIG. 2. Seal member 122 may be made of rubber, silicone or a
like elastomeric substance. Seal member 122 has an inner seal
surface 124 and an outer seal surface 126. Surfaces 124, 126 extend
circumferentially around member 122. Inner seal surface 124 faces
inwardly and toward internal cavity 30 when cover 14 is mounted on
enclosure 12. Outer seal surface 126 faces outwardly and away from
internal cavity 30 when cover 14 is mounted on enclosure 12.
[0077] Seal member 112 facilitates formation of a secure,
moisture-proof seal when cover 14 is mounted on enclosure mouth 28
as explained in greater detail below.
[0078] Cover rear face 96 also has PCB mounting members 128 located
proximate cover sine portions 102, 104. Mounting members 128 have a
generally flat, rectangular body and a mounting aperture 130
extending through the body. See FIG. 13. A conventional fastener is
extended through aperture 130 to secure a PCB to the cover 14 as
explained in greater detail below.
[0079] Enclosure body 12 interior cavity 30 has elements that
facilitate the installation of a printed circuit board therein.
[0080] Enclosure side wall interior surfaces 46, 47 each have a PCB
edge holder 200. Each edge holder 200 faces the edge holder 200 on
an opposed side wall interior surface.
[0081] Each edge holder 200 has a PCB mounting slot 210 and a slot
latch assembly 212. PCB mounting slot 210 extends generally from
front mouth 28 to enclosure rear wall 26. Slot latch assembly 212
is in slot 210 adjacent to enclosure front mouth 28.
[0082] PCB mounting slot 210 has upper and lower slot walls 214,
216. Upper and lower slot walls 214, 216 extend from each side wall
interior surface 46, 47 into cavity 30. Upper slot wall 214
includes downwardly-facing retention surface 218. Lower slot wall
216 includes upwardly-facing retention surface 220.
[0083] PCB mounting slot 210 provides a sliding surface for
mounting a PCB into cavity 30, the sliding surface extending from
mouth 28 to rear wall 26.
[0084] The height of slot 210 varies and may taper from a larger
height at mouth 28 to a smaller height at rear wall 26. Slot 210
has a first minimum slot height 222 away from front mouth 28. Slot
210 has a stepped down, sequentially smaller second and third slot
heights 224 and 226 adjacent to enclosure rear wall 26. See FIG.
8.
[0085] First slot height 222 is sufficient to accommodate insertion
of a first PCB having a uniform board thickness less than the
height 222 along the length of slot 210. Second slot height 224 is
slightly less than the board thickness of the first PCB. An
interference-fit is formed between the first PCB and slot 210 when
the board is inserted beyond slot step 225.
[0086] Second slot height 224 is sufficient to accommodate
insertion of a second PCB having a uniform board thickness less
than the heights 222 and 224 along the length of slot 210. Third
slot height 226 is slightly less than the board thickness of the
second PCB. An interference-fit is formed between the second PCB
and slot 210 when the board is inserted beyond slot step 217.
[0087] First slot height 222 may be greater than 0.093 inches to
accommodate insertion of a first PCB having a board thickness of
0.093 inches. Second slot height 224 may be sized to provide an
interference fit with a first PCB having a board thickness of 0.093
inches. Third slot height 226 may be sized to provide an
interference fit with a second PCB board braving a thickness of
about 0.062 inches. The interference-fit between the PCB and slot
210 holds the PCB against movement in the enclosure.
[0088] Slot latch assembly 212 has a slot latch housing 228 and a
slot latch 230.
[0089] Slot latch housing 228 has upper and lower slot latch
assembly walls 232, 234 that define a slot latch housing recess 236
located there-between. Upper and lower slot latch assembly walls
232, 234 extend from each side wall interior surface 46, 47 toward
cavity 30 and are located outwardly from upper and lower slot walls
214, 216. See FIG. 32.
[0090] Slot latch housing 228 also has upper and lower retention
bodies 238, 240 extending from upper and lower slot latch assembly
walls 232, 234 and toward slot latch housing recess 236. Slot latch
housing front and back retention bodies 242, 244 extend outwardly
from an enclosure side wall interior as 46, 47 and toward slot
latch housing recess 236. Slot latch housing front retention body
242 has a cam surface 246 facing mouth 28. Slot latch housing
opening 248 is at mouth 28. Slot latch housing rear wall 250 is
formed in enclosure side walls 22, 24. See FIG. 35.
[0091] Latch spur retention slot 252 is defined by upper and lower
retention bodies 238, 240 and front and back retention bodies 242,
244.
[0092] Slot latch 230 is illustrated in FIGS. 29-31. Latch 230 has
a V-shaped latch body 254 that may foe made of spring steel or a
like material. Latch mounting arm 256 and latch retention arm 258
are joined by latch spring bend 260. Spring bend 260 biases latch
mounting arm 256 away from latch retention arm 258 when the spring
is compressed. Latch mounting arm 256 has a latch mounting spur 262
extending away from retention arm 258.
[0093] Slot latch 230 is installed into slot latch housing 228 by
extending retention arm 254 into slot latch housing recess 236 so
that arm 254 is located between upper and lower retention bodies
238, 240, the free end of retention arm 254 is seated against slot
latch housing rear wall 250 and latch mounting spur 262 is located
in latch spur retention slot 252. Mounting spur 262 holds retention
arm 254 in place to secure slot latch 230 within latch housing 228.
When installed, latch mounting arm 256 extends toward cavity 30.
See FIG. 36.
[0094] Alternatively, retention arm 254 may be press-fit or
interference fit into slot latch housing recess 236 to secure slot
latch 230 in slot latch housing 228.
[0095] In other versions, enclosure body 12 interior cavity 30 may
have other elements to facilitate the installation of an electrical
component. Electrical components may be mounted to enclosure body
interior wall surfaces 42, 44, 46, 47 or 48 by conventional
fasteners, adhesives or the like.
[0096] Enclosure body 12 interior cavity 30 includes a board
deformation assembly 300 which is mounted on enclosure bottom wall
20 and extends up into cavity 30. Assembly 300 has a body 310 with
vertical side walls 312 and a top portion 314. Two board engagement
bodies 316 extend upwardly from top portion 314. Each engagement
body 316 has a generally flat board engagement surface 318. Board
engagement surfaces 318 are located a vertical distance 320 above
enclosure bottom wall interior surface 44. As illustrated in FIG.
15 distance 320 is greater than distance 322 between bottom wall
interior surface 44 and lower slot wall 216 upwardly-facing
retention surface 220.
[0097] A printed circuit board (PCB) 400 is mounted in enclosure
assembly 10. PCB 400 has a flat, rectangular body 402 with a front
end 404, a rear end 406, opposed edges 408, 410 and a uniform body
thickness 412 between body top and bottom faces 414, 416.
Electrical components and conductive tracks, pads and other
conductive features are mounted onto a non-conductive substrate
forming PCB 400. Alternatively, PCB 400 may have a flat,
rectangular substrate body lacking conductive tracks, pads or other
conductive features and having an electrical component is mounted
to body top or bottom face 414, 416.
[0098] Board retention notches 418 are located in opposed PCB edges
408, 410 approximately mid-way between board front and rear ends
404, 406. Each board retention notch 418 includes a wall stop
portion 420 proximate board rear end 406 and facing PCB front end
404. Each board retention notch 418 also includes angled cam and
flat portions 422, 424 extending away from wall stop portion 420
toward board front end 404. See FIG. 20.
[0099] While notches 418 are shown as generally rectangular in
shape, other shapes are contemplated, so long as notches 418
include a stop portion 420 facing PCB front end 404.
[0100] Cover mounting apertures 426 are located proximate board
front end 404 and permit mounting of PCB 400 on cover 14. Cover
mounting apertures 426 are aligned with the PCB mounting member
mounting apertures 130 on cover 14. Conventional fasteners 428 are
extended through apertures 426 and 130 to secure PCB 400 to cover
14. Cover PCB mounting members 128 and board cover mounting
apertures 426 provide a physical connection to mount PCB 400 to
cover 14. See FIG. 27.
[0101] Latch assemblies 500 are integrated parts of molded plastic
enclosure 12 and molded plastic cover 14. The assemblies allow the
secure mounting of cover 14 to enclosure 12. Each latch assembly
500 is made up of an enclosure latch sub-assembly 510 and a cover
latch sub-assembly 512. Enclosure latch sub-assemblies 510 are
located on enclosure side walls 22, 24 at front mouth 28. Cover
latch sub-assemblies 512 are located on cover side portions 102,
104.
[0102] Enclosure latch sub-assembly 510 has a support wall 514
extending out from enclosure sides 22, 24 and an end wall 516
extending from wall 514 parallel to enclosure side walls 22, 24.
Latch recess 518 is located between end wall 516 and enclosure
sides 22, 24 and houses a latch 520. Latch 520 extends forwardly
from support wall 514 and parallels end wall 516 and enclosure seal
surface 68.
[0103] Latch 520 has an elongate latch arm 522 extending from wall
514 to latch head 524. Latch arm 522 includes arm sides 526, 528
facing toward and away from enclosure 12. Latch head 524 has a
latch cam surface 530 and a latch retention surface 532 facing
outwardly from enclosure seal surface 68.
[0104] Each latch sub-assembly 510 has two spaced over-deflection
prevention bodies 534 extending outwardly from enclosure sides 22
or 24 into latch recess 518. Bodies 534 each have a latch arm
contact surface 536 facing latch arm 522. The bodies 534 are spaced
inwardly along enclosure seal surface 68. See FIG. 16.
[0105] Enclosure latch sub-assembly 510 has a security aperture 538
extending through wall 514.
[0106] Cover latch sub-assembly 512 has a sub-assembly body 540
joined to a cover side portion 102, 104. Sub-assembly body 540 has
an engagement wall 542 extending away from cover rear face 96 and a
stop wall 543 extending outwardly from cover 14. Top and bottom
engagement walls 544, 546 likewise extend outwardly from cover read
face 96. See FIGS. 9 and 17.
[0107] Cover aperture 548 extends from cover front face 94, through
latch sub-assembly 512 and to latch sub-assembly recess 550. Latch
sub-assembly recess 550 is located between engagement walls 542,
544, 546 and seal mounting member 110. See FIG. 17.
[0108] Cover latch sub-assembly 512 also has latch keepers 552
extending away from engagement wall 542 and toward cover 14. Latch
keepers 552 are located above and below cover aperture 548 as shown
in FIG. 11. Latch keepers 552 have a cam surface 554 and a stop
surface 556.
[0109] Cover latch sub-assembly 512 may have a security apertures
558 extending through engagement walls 544, 546.
[0110] Use of enclosure assembly 10 will now be explained.
[0111] Assembly elements form a secure, moisture proof enclosure
when cover 14 is mounted on enclosure 12.
[0112] Cover 14 is mounted onto enclosure 12 by positioning cover
rear face 96 over enclosure mouth 28. Cover 14 is then moved into
enclosure mouth 28 so that cover circumferential seal mounting
member 122 engages circumferential enclosure seal surface 68. FIG.
19 shows partial engagement between seal mounting member 122 and
enclosure seal surface 68. FIG. 20 shows full engagement between
seal mounting member 122 and enclosure seal surface 68.
[0113] Simultaneously, enclosure lugs 70 are inserted into
corresponding lug apertures 118 on cover 14 so that lug retention
surfaces 80 engages cover lug aperture retention surfaces 120. See
FIG. 15.
[0114] After full cover mounting on the enclosure, engagement of
enclosure lugs 70 in lug apertures 118 spaced along top and bottom
lip portions 60, 62 and top and bottom cover portions 98, 100
prevents outward flexing of enclosure top and bottom walls 18, 20
away from cover 14. This locking physical connection of the cover
on the enclosure secures maintenance of a moisture proof seal
between seal mounting member 110 and enclosure seal surface 68.
Outward flexing of walls 18 and 20 and formation of leak openings
between the cover and enclosure is prevented.
[0115] Enclosure body top and bottom walls 18, 20 outwardly-curving
top and bottom arches 82, 84 stabilize top and bottom walls 18, 20
against deforming forces that would cause outward flexing of walls
18, 20. Similar top and bottom arches 106, 108 in cover top and
bottom portions 98, 100 are joined to enclosure top and bottom
arches 82, 84 to additionally stabilize top and bottom walls 18,
20.
[0116] Each edge holder 200 secures PCB 400 from unintended
dislodgment from enclosure 12.
[0117] Prior to installation of PCB 400 into enclosure 12, PCB 400
is mounted to cover 14 as described above. Cover 14 and mounted PCB
400 are inserted into enclosure 12 body cavity 30 in the direction
of arrow 600 as shown in FIG. 28.
[0118] Insertion of PCB 400 into enclosure 12 body cavity 30 is
shown in FIG. 37. The front end 404 of PCB 400 is moved into cavity
30 with edges 408, 410 between upper and lower slot latch assembly
walls 232, 234.
[0119] PCB 400 is inserted further into enclosure body cavity 30 by
moving board edges 408, 410 into and along opposed PCB mounting
slots 210. See FIG. 39. After partial insertion to the position
shown in FIG. 39, spring slot latches 230 are compresses by the
board edges. Mounting arms 256 of slot latches 230 on either side
of enclosure 12 snap into and engage board retention notches 418
and the PCB is secured to the enclosure with end of the PCB
supporting cover 14 exposed outside the enclosure. In this
position, PCB 400 is partially removed from enclosure 12, which
permits inspection, testing and service of exposed PCB components
without the need to completely remove the PCB from the enclosure.
In this position, PCB 400 is secured against accidental removal
from enclosure 12 body by extension of latch mounting arms 256 into
retention notches 418. Removal of PCB 400 outwardly from the
enclosure requires use of a tool to disengage latch mounting arms
256 as explained below.
[0120] PCB 400 is fully inserted into the enclosure by puching the
board inwardly from the position of FIG. 39 to the position of FIG.
41.
[0121] Slot latch 230 is illustrated in FIGS. 29-31. Latch 230 has
a V-shaped latch body 254 that may be made of spring steel or a
like material. Mounting arms 256 of slot latches 230 are compressed
and ride along against board edges 408 and 410. The lead end 404 of
the PCB is moved into appropriate slot heights 224 and 226 at the
rear of cavity 30.
[0122] Full insertion of PCB 400 into enclosure 12 body cavity 30
is shown in FIG. 41. In this position, cover 14 is seated on mouth
28 and the two slot latches 230 are compressed with latch mounting
arms 256 held against board edges 408, 410. Latch assemblies 500
are fully engaged and board deformation assembly 300 engages PCB
400 as explained below.
[0123] FIG. 43 shows partial removal of PCB 400 from enclosure 12
similar to FIG. 39. Latch mounting arms 256 engage board retention
notches 418 to prevent further withdrawal of PCB 400 from enclosure
12.
[0124] Elongate tool 602, which may be a screwdriver, is used to
press latch mounting arms 256 away from board retention notches 418
and free the PCB for removal of PCB 400 from enclosure 12.
[0125] FIG. 45 shows PCB 400 as positioned in FIG. 37, before it is
fully inserted into enclosure 12. In this position PCB 400 is
supported in opposed PCB mounting slots 210.
[0126] FIG. 46 shows PCB 400 as positioned in FIG. 41 at full
insertion into enclosure 12. In this position, PCB 400 engages
board deformation assembly 300 so that the board engagement
surfaces 318 on board engagement bodies 316 contact PCB bottom face
416 to elastically bend the center of PCB 400 tip above PCB edges
408, 410. In this position, PCB 400 is bent up and has an
outwardly-curving top arch 604 extending between PCB edges 408,
410.
[0127] PCB 400 is secured in enclosure 12 by board deformation
assembly 300. A technician must apply an additional force to PCB
400 during board insertion into and removal from enclosure 12 to
engage and disengaged PCB 400 with assembly 300.
[0128] When PCB 400 is inserted into assembly 300, PCB edges 408,
410 are held against the downwardly-facing retention surfaces 218
of upper slot walls 214. This holds PCB 400 between assembly 300
board engagement surfaces 318 and enclosure edge holder slot
assembly 200 retention surfaces 218 to additionally secure PCB 400
in enclosure 12.
[0129] PCB 400 may also be secured in enclosure 12 by an
interference fit between PCB 400 and slots 210. The height of slot
210 may vary to allow passage of PCB 400 along the slot until PCB
400 is brought into an interference fit at the portion of slot 210
having a reduced height 224 and 226. The different heights 224 and
226 of slot 210 allow interference fits with different thickness
PCB boards as indicated above.
[0130] Latch assemblies 500 securely mount cover 14 onto enclosure
12.
[0131] FIGS. 18 through 20 show engagement of one enclosure latch
sub-assembly 510 and cover latch sub-assembly 512 as cover 14 is
mounted onto enclosure 12.
[0132] First, cover 14 is positioned so that cover rear face 96
faces enclosure mouth 28 and cover engagement wall 542 is located
in enclosure latch recess 518 as shown in FIG. 18. Cover 14 is then
extended further into enclosure mouth 28, so that so that each
latch head 524 extends into a cover latch sub-assembly recess 550
to engage cam surface 554 on latch keepers 552 as shown in FIG. 19.
Cover 14 is then extended fully into enclosure mouth 28. As this
position latch heads 524 fully engages latch keepers 552 to secure
sub-assemblies 510 and 512 together as shown in FIG. 20.
[0133] When sub-assemblies 510 and 512 are secured together,
sub-assembly 510 security aperture 538 and sub-assembly 512
security apertures 558 are aligned as shown in FIG. 20. A tampering
indication security element such as a zip-tie or the like may be
extended through and secured about aligned aperture 538, 558. The
security elements protect the enclosure assembly 10 against
unauthorized opening and, if removed, indicated unauthorized
opening.
[0134] Cover 14 is removed from enclosure 12 by disengaging the two
sub-assemblies 510 and 512. Each sub-assembly is disengaged by
inserting an elongate tool 606 into a cover aperture 548 as shown
in FIG. 21. Tool 606 is further extended into cover latch
sub-assembly recess 550 to engage latch cam surface 530 and cam
latch head 524 away from latch beepers 552 as shown in FIG. 22.
Tool 606 may be a screwdriver.
[0135] Tool 606 is then fully extended into latch recess 518 to
fully disengage latch head 524 from latch keepers 552 as shown in
FIG. 23. Extension of tool 606 into latch recess 518 prevents
re-engagement of cam latch head 524 to latch keepers 552 as
sub-assembly 512 is disengaged outwardly from sub-assembly 510.
[0136] As tool 606 disengages latch head 524 from latch keepers
552, latch arm side 526 contacts latch arm contact surfaces 536 on
over-deflection prevention bodies 534. The over-deflection
prevention bodies 534 prevent over-deflection of latch 520 during
full insertion of tool 606. See FIG. 23.
[0137] After latch head 524 is fully disengaged from latch keepers
552, sub-assembly 512 is disengaged outwardly from sub-assembly 510
allowing removal of cover 14 from enclosure 12 as shown in FIGS. 24
and 25.
[0138] While this disclosure discloses and describes various
embodiments, it is understood that this is capable of modification
and that the disclosure is not limited to the precise details set
forth, but includes such changes and alterations as fall within the
purview of the following claims.
* * * * *