U.S. patent application number 17/534383 was filed with the patent office on 2022-09-29 for three-piece universal rail kit for mounting a device to a rack.
This patent application is currently assigned to SambaNova Systems, Inc.. The applicant listed for this patent is SambaNova Systems, Inc.. Invention is credited to Jeffrey KIELY, Peter Alexander WILSON.
Application Number | 20220312626 17/534383 |
Document ID | / |
Family ID | 1000005990206 |
Filed Date | 2022-09-29 |
United States Patent
Application |
20220312626 |
Kind Code |
A1 |
KIELY; Jeffrey ; et
al. |
September 29, 2022 |
THREE-PIECE UNIVERSAL RAIL KIT FOR MOUNTING A DEVICE TO A RACK
Abstract
A universal rail mounting kit for mounting a rack-mountable
computing device within a computer rack is provided. The universal
rail mounting kit includes a rack-mountable sliding rail configured
to be attached to the computer rack, a device-mountable receiving
rail configured to be attached to the rack-mountable computing
device and configured to receive the rack-mountable sliding rail
when the rack-mountable computing device is installed in the
computer rack, and a device-mountable securing rail configured to
be attached to the rack-mountable computing device and configured
to secure the rack-mountable computing device to the computer rack
after the device-mountable receiving rail has received the
rack-mountable sliding rail.
Inventors: |
KIELY; Jeffrey; (San Jose,
CA) ; WILSON; Peter Alexander; (San Jose,
CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
SambaNova Systems, Inc. |
Palo Alto |
CA |
US |
|
|
Assignee: |
SambaNova Systems, Inc.
Palo Alto
CA
|
Family ID: |
1000005990206 |
Appl. No.: |
17/534383 |
Filed: |
November 23, 2021 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
17216509 |
Mar 29, 2021 |
11191182 |
|
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17534383 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
H05K 7/183 20130101;
H05K 5/0204 20130101 |
International
Class: |
H05K 7/18 20060101
H05K007/18; H05K 5/02 20060101 H05K005/02 |
Claims
1. A universal rail mounting kit for mounting a rack-mountable
computing device within a computer rack, the universal rail
mounting kit comprising: a rack-mountable sliding rail configured
to be attached to the computer rack; a device-mountable receiving
rail configured to be attached to the rack-mountable computing
device and configured to receive the rack-mountable sliding rail
when the rack-mountable computing device is installed in the
computer rack; and a device-mountable securing rail configured to
be attached to the rack-mountable computing device and configured
to secure the rack-mountable computing device to the computer rack
after the device-mountable receiving rail has received the
rack-mountable sliding rail.
2. The universal rail mounting kit of claim 1, wherein the
rack-mountable sliding rail has an "L" shaped structure comprising
a distal end, a proximal end, a first leg located at the distal end
and a second leg extending from the distal end to the proximal end,
the first leg being shorter than the second leg.
3. The universal rail mounting kit of claim 2, wherein the first
leg of the rack-mountable sliding rail is configured to be mounted
to a pillar of the computer rack.
4. The universal rail mounting kit of claim 3, wherein the first
leg includes at least one via hole for receiving a mounting
component that attaches the first leg to the pillar of the computer
rack.
5. The universal rail mounting kit of claim 3, wherein the second
leg of the rack-mountable sliding rail is configured to extend
along a side of the rack-mountable computing device when the first
leg of the rack-mountable sliding rail is mounted to the pillar of
the computer rack and the rack-mountable computing device is
installed within the computer rack.
6. The universal rail mounting kit of claim 3, wherein the second
leg, at the proximal end of the rack-mountable sliding rail,
includes a rounded portion to provide guidance to the
device-mountable receiving rail as the rack-mountable computing
device is installed within the computer rack.
7. The universal rail mounting kit of claim 6, wherein the second
leg, at the proximal end of the rack-mountable sliding rail, is
further tapered from the rounded portion to provide further
guidance to the device-mountable receiving rail as the
rack-mountable computing device is installed within the computer
rack.
8. The universal rail mounting kit of claim 3, wherein the first
leg has a first end connected to the second leg and a second end
opposing the first end, and wherein the second leg, at the proximal
end of the rack-mountable sliding rail, is angled in a direction
towards the second end of the first leg to provide guidance to the
device-mountable receiving rail as the rack-mountable computing
device is installed within the computer rack.
9. The universal rail mounting kit of claim 2, wherein the
device-mountable receiving rail includes a distal end, a proximal
end, a top side and a bottom side, wherein the top side forms a "U"
shaped curved region configured to curve away from a side of the
rack-mountable computing device and to form a top-side track
extending along a portion of a length of the device-mountable
receiving rail, and wherein the bottom side forms a "U" shaped
curved region configured to curve away from the side of the
rack-mountable computing device and to form a bottom-side track
extending along a portion of a length of the device-mountable
receiving rail.
10. The universal rail mounting kit of claim 9, wherein the second
leg of the rack-mountable sliding rail includes a top side
extending along a portion of a length thereof and a bottom side
extending along a portion of a length thereof, wherein the top-side
track of the device-mountable receiving rail is configured to
receive a top side of the second leg of the rack-mountable sliding
rail, and wherein the bottom-side track of the device-mountable
receiving rail is configured to receive a bottom side of the second
leg of the rack-mountable sliding rail.
11. The universal rail mounting kit of claim 9, wherein at least
one of the "U" shaped curved region of the top side of the
device-mountable receiving rail and the "U" shaped curved region of
the bottom side of the device-mountable receiving rail includes one
or more openings adjacent to one or more via holes of the
device-mountable receiving rail to allow for insertion and removal
of mounting components.
12. The universal rail mounting kit of claim 2, wherein the
device-mountable securing rail has an "L" shaped structure
comprising a distal end, a proximal end, a first leg located at the
proximal end and a second leg extending from the proximal end to
the distal end, the first leg being shorter than the second leg,
wherein the second leg of the device-mountable securing rail is
configured to be mounted to and extend along a side of the
rack-mountable computing device, and wherein, upon insertion of the
second leg of the rack-mountable sliding rail into the
device-mountable receiving rail, the first leg of the
device-mountable securing rail is configured to be mounted to
another pillar of the computer rack.
13. The universal rail mounting kit of claim 12, wherein second leg
is stepwise tapered towards the proximal end of the
device-mountable securing rail to provide a reduced a height of the
second leg at the proximal end of the device-mountable securing
rail in comparison to a height of the second leg at the distal end
of the device-mountable securing rail.
14. The universal rail mounting kit of claim 1, wherein the
device-mountable securing rail includes two or more via holes for
receiving mounting components that attach the device-mountable
securing rail to a side portion of the rack-mountable computing
device, and wherein the two or more via holes are located in
positions that allow the device-mountable securing rail to be
attached to rack-mountable computing devices provided from multiple
manufacturers.
15. The universal rail mounting kit of claim 14, wherein the
device-mountable securing rail includes one or more receiving holes
configured to receive one or more protrusions located on the side
portion of the rack-mountable computing device, and wherein the one
or more receiving holes are located in positions that allow the
device-mountable securing rail to be attached to rack-mountable
computing devices provided from multiple manufacturers.
16. The universal rail mounting kit of claim 15, wherein the
multiple manufacturers include two or more of Cisco.RTM., Juniper
Networks.RTM. and Nvidia.RTM..
17. The universal rail mounting kit of claim 1, wherein the
device-mountable receiving rail includes two or more via holes for
receiving mounting components that attach the device-mountable
receiving rail to a side portion of the rack-mountable computing
device, and wherein the two or more via holes are located in
positions that allow the device-mountable receiving rail to be
attached to rack-mountable computing devices provided from multiple
manufacturers.
18. The universal rail mounting kit of claim 17, wherein the
device-mountable receiving rail includes one or more receiving
holes configured to receive one or more protrusions located on the
side portion of the rack-mountable computing device, and wherein
the one or more receiving holes are located in positions that allow
the device-mountable receiving rail to be attached to
rack-mountable computing devices provided from multiple
manufacturers.
19. The universal rail mounting kit of claim 1, wherein the
rack-mountable sliding rail, the device-mountable receiving rail
and the device-mountable securing rail are configured to attach to
a left side of the rack-mountable computing device, and wherein the
universal rail mounting kit includes a complementary second set of
components including another rack-mountable sliding rail, another
device-mountable receiving rail and another device-mountable
securing rail, which are configured to attach to a right side of
the rack-mountable computing device.
20. A method of installing a rack-mountable computing device within
a computer rack using a universal rail mounting kit, wherein the
universal rail mounting kit comprises: a rack-mountable sliding
rail configured to be attached to the computer rack; a
device-mountable receiving rail configured to be attached to the
rack-mountable computing device and configured to receive the
rack-mountable sliding rail when the rack-mountable computing
device is installed in the computer rack; and a device-mountable
securing rail configured to be attached to the rack-mountable
computing device and configured to secure the rack-mountable
computing device to the computer rack after the device-mountable
receiving rail has received the rack-mountable sliding rail, and
wherein the method comprises: attaching the rack-mountable sliding
rail to a pillar of the computer rack; attaching the
device-mountable receiving rail to a distal portion of a side of
the rack-mountable computing device; attaching the device-mountable
securing rail to a proximal portion of the side of the
rack-mountable computing device; installing the rack-mountable
computing device within the computer rack by sliding the
device-mountable receiving rail attached to the rack-mountable
computing device to receive rack-mountable sliding rail; and
securing a portion of the device-mountable securing rail to another
pillar of the computer rack.
Description
PRIORITY APPLICATION
[0001] This application is a continuation of co-pending U.S.
Nonprovisional Patent application Ser. No. 17/216,509, filed Mar.
29, 2021, entitled "Universal Rail Kit" (Attorney Docket No. SBNV
1038-1). The priority application is incorporated by reference for
all purposes as if fully set forth herein.
BACKGROUND OF THE INVENTION
[0002] The subject matter discussed in this section should not be
assumed to be prior art merely as a result of its mention in this
section. Similarly, a problem mentioned in this section or
associated with the subject matter provided as background should
not be assumed to have been previously recognized in the prior art.
The subject matter in this section merely represents different
approaches, which in and of themselves can also correspond to
implementations of the claimed technology.
[0003] A computer rack, often times referred to as a network rack
or a server rack, includes a metal frame and chassis (including
pillars) that hold, stack organize and secure rack-mountable
computing devices such as rack-mountable computers, rack-mountable
routers and rack-mountable data switches. Computer racks are
designed to be located in server rooms and allow for easy access to
the rack-mountable computing devices installed therein. The various
rack-mountable computing devices installed in the computer rack
have different dimensions (i.e., height, width and depth) and
weights. For example, a data switch that is capable of providing
data to 100 computing devices on a network will have certain
dimensions that are different from the dimensions of a
rack-mountable computing device that includes 6 processors, 6 data
storage devices and a backup power supply.
[0004] Rail kits, which are used to hold and secure the
rack-mountable computing devices in the computer rack, are provided
as original equipment manufacturer (OEM) parts by either the
manufacturer of the rack-mountable computing devices or the
manufacturer of the computer rack. Typically, the OEM rail kits are
provided by the manufacturer of the rack-mountable computing
devices, as opposed to the computer rack manufacturers, because the
rack-mountable computing devices have different dimensions and
weights and because the manufacturers of the rack-mountable
computing devices are more likely to design rail kits that meet the
specific dimensions and weight requirements of their specific
rack-mountable computing devices. Further, the rack-mountable
computing devices are structured in such a way that they have
different mounting locations to which their respective OEM rail
kits can be attached and they use different methods of attaching
their respective OEM rail kits (e.g., screws, protrusions mounted
on the rack-mountable computing devices, clips, etc.). For example,
a data switch provided by Cisco.RTM. will have a specific pattern
of holes for receiving screws to mount its OEM rail kit and a data
switch provided by Juniper Networks.RTM. will have a different
pattern of holes for receiving screws to mount its OEM rail kit.
Therefore, different rail kits are necessary for installing the
Cisco.RTM. data switch as opposed to the Juniper data switch.
Furthermore, each vendor (e.g., Cisco.RTM., Juniper.RTM.,
Nvidia.RTM., etc.) provides different models of, for example, data
switches, such that the different models of data switches can
require different OEM rail kits. Therefore, a need arises for a
universal rail kit that is structured and configured to be able to
install different models of rack-mountable computer devices from
multiple vendors (e.g., Cisco.RTM., Juniper.RTM., Nvidia ,
etc.).
[0005] Additionally, the OEM rail kits provided by the equipment
manufacturers or vendors and/or the OEM rail kits provided by the
computer rack manufacturer are not sturdy enough to allow for
shipping of various rack-mountable computing devices while
installed in a computer rack. Typically, a computer rack is
purchased from a particular manufacturer and the rack-mountable
computing devices are purchased from other manufacturers. The end
user receives the computer rack and various rack-mountable
computing devices separately and then configures and installs the
various rack-mountable computing devices into the computer rack.
These OEM rail kits have been failing to secure the rack-mountable
computing devices to the computer rack when the computer rack is
shipped to another location. Specifically, the OEM rail kits are
not sturdy enough to secure the rack-mountable computing devices so
that they survive shipping. As a result, the OEM rail kits will
have a point of failure and the computer rack will arrive with the
rack-mountable computing devices damaged or displaced from their
original locations. Therefore, a need arises for a universal rail
kit that is sturdy enough to allow for the shipment of the computer
rack and the installed rack-mountable computing devices without
damage or displacement of the rack-mountable computing devices.
[0006] Moreover, OEM rail kits do not have a structure that
provides sufficient space for routing cables throughout the
computing rack with the various rack-mountable computing devices
installed therein. Specifically, the dimensions, locations and
sizes of the OEM rail kits are such that cables cannot be routed as
desired by the end user, thus requiring the end user to rout cables
in an inefficient manner. For example, some OEM rail kits as well
as third party rail kits extend along an entire length or a
substantial portion of a length of a rack-mountable computing
device and some OEM rail kits as well as third party rail kits have
heights and/or thicknesses that take up much more space than
necessary. As a result, cables cannot be routed between or along
the side of the rack-mountable computing device because the
components of the rail kits are in the way. Therefore, a need
arises for a universal rail kit that allows for easy and efficient
routing of cables within the computer rack when the various
rack-mountable computing devices are installed therein, which will
allow equipment users and service technicians to more efficiently
setup, configure and service computer racks and the rack-mountable
computing devices installed therein.
SUMMARY
[0007] A summary is provided herein to help enable a basic or
general understanding of various aspects of exemplary, non-limiting
implementations that follow in the more detailed description and
the accompanying drawings. This summary is not intended, however,
as an extensive or exhaustive overview. Instead, the sole purpose
of this summary is to present some concepts related to some
exemplary non-limiting implementations in a simplified form as a
prelude to the more detailed description of the various
implementations that follow.
[0008] A universal rail kit is described herein. The universal rail
kit (i) is compatible with many different makes and models of
rack-mountable computing devices, (ii) allows for easy and
efficient routing of cables in a computer rack and (iii) is capable
of securely mounting a rack-mountable computing device to a
computer rack, such that the computer rack and the rack-mountable
computing device installed therein can withstand shipment without
damage to the rail kit or the rack-mountable computing device and
without the rack-mountable computing device being separated from
the computer rack.
[0009] In an implementation, a universal rail mounting kit for
mounting a rack-mountable computing device within a computer rack
is provided. The universal rail mounting kit can include a
rack-mountable sliding rail configured to be attached to the
computer rack, a device-mountable receiving rail configured to be
attached to the rack-mountable computing device and configured to
receive the rack-mountable sliding rail when the rack-mountable
computing device is installed in the computer rack, and a
device-mountable securing rail configured to be attached to the
rack-mountable computing device and configured to secure the
rack-mountable computing device to the computer rack after the
device-mountable receiving rail has received the rack-mountable
sliding rail.
[0010] Further, in an implementation, the rack-mountable sliding
rail can have an "L" shaped structure including a distal end, a
proximal end, a first leg located at the distal end and a second
leg extending from the distal end to the proximal end, wherein the
first leg can be being shorter than the second leg.
[0011] In another implementation, the first leg of the
rack-mountable sliding rail can be configured to be mounted to a
pillar of the computer rack.
[0012] In an implementation, the first leg can include at least one
via hole for receiving a mounting component that attaches the first
leg to the pillar of the computer rack.
[0013] In a further implementation, the second leg of the
rack-mountable sliding rail can be configured to extend along a
side of the rack-mountable computing device when the first leg of
the rack-mountable sliding rail is mounted to the pillar of the
computer rack and the rack-mountable computing device is installed
within the computer rack.
[0014] In an implementation, the second leg, at the proximal end of
the rack-mountable sliding rail, can include a rounded portion to
provide guidance to the device-mountable receiving rail as the
rack-mountable computing device is installed within the computer
rack.
[0015] In another implementation, the second leg, at the proximal
end of the rack-mountable sliding rail, can be further tapered from
the rounded portion to provide further guidance to the
device-mountable receiving rail as the rack-mountable computing
device is installed within the computer rack.
[0016] In an implementation, the first leg can have a first end
connected to the second leg and a second end opposing the first
end, and the second leg, at the proximal end of the rack-mountable
sliding rail, can be angled in a direction towards the second end
of the first leg to provide guidance to the device-mountable
receiving rail as the rack-mountable computing device is installed
within the computer rack.
[0017] In a further implementation, the device-mountable receiving
rail can include a distal end, a proximal end, a top side and a
bottom side. The top side can form a "U" shaped curved region
configured to curve away from a side of the rack-mountable
computing device and to form a top-side track extending along a
portion of a length of the device-mountable receiving rail, and the
bottom side can form a "U" shaped curved region configured to curve
away from the side of the rack-mountable computing device and to
form a bottom-side track extending along a portion of a length of
the device-mountable receiving rail.
[0018] In an implementation, the second leg of the rack-mountable
sliding rail can include a top side extending along a portion of a
length thereof and a bottom side extending along a portion of a
length thereof. The top-side track of the device-mountable
receiving rail can be configured to receive the top side of the
second leg of the rack-mountable sliding rail, and the bottom-side
track of the device-mountable receiving rail can be configured to
receive the bottom side of the second leg of the rack-mountable
sliding rail.
[0019] In another implementation, at least one of the "U" shaped
curved region of the top side of the device-mountable receiving
rail and the "U" shaped curved region of the bottom side of the
device-mountable receiving rail can include one or more openings
adjacent to one or more via holes of the device-mountable receiving
rail to allow for insertion and removal of mounting components.
[0020] In an embodiment the device-mountable securing rail can have
an "L" shaped structure comprising a distal end, a proximal end, a
first leg located at the proximal end and a second leg extending
from the proximal end to the distal end, the first leg being
shorter than the second leg. The second leg of the device-mountable
securing rail can be configured to be mounted to and extend along a
side of the rack-mountable computing device, and, upon insertion of
the second leg of the rack-mountable sliding rail into the first
device-mountable sliding rail, the first leg of the
device-mountable securing rail can be configured to be mounted to
another pillar of the computer rack.
[0021] In a further implementation, the second leg can be stepwise
tapered towards the proximal end of the device-mountable securing
rail to have a reduced a height of the second leg at the proximal
end of the device-mountable securing rail in comparison to a height
of the second leg at the distal end of the device-mountable
securing rail.
[0022] In an implementation, the device-mountable securing rail can
include two or more via holes for receiving mounting components
that attach the device-mountable securing rail to a side portion of
the rack-mountable computing device. The two or more via holes can
be located in positions that allow the device-mountable securing
rail to be attached to rack-mountable computing devices provided
from multiple manufacturers.
[0023] In another implementation, the device-mountable securing
rail can include one or more receiving holes configured to receive
one or more protrusions located on the side of the rack-mountable
computing device. The one or more receiving holes can be located in
positions that allow the device-mountable securing rail to be
attached to rack-mountable computing devices provided from multiple
manufacturers.
[0024] In an implementation, the multiple manufacturers can include
two or more of Cisco.RTM., Juniper Networks.RTM. and
N.sub.vidia.RTM..
[0025] In a further implementation, the device-mountable receiving
rail can include two or more via holes for receiving mounting
components that attach the device-mountable receiving rail to a
side portion of the rack-mountable computing device. The two or
more via holes can be located in positions that allow the
device-mountable receiving rail to be attached to rack-mountable
computing devices provided from multiple manufacturers.
[0026] In an implementation, the device-mountable receiving rail
can include one or more receiving holes configured to receive one
or more protrusions located on the side of the rack-mountable
computing device. The one or more receiving holes can be located in
positions that allow the device-mountable receiving rail to be
attached to rack-mountable computing devices provided from multiple
manufacturers.
[0027] In another implementation, the rack-mountable sliding rail,
the device-mountable receiving rail and the device-mountable
securing rail can be configured to attach to a left side of the
rack-mountable computing device, and the universal rail mounting
kit can further include a complementary second set of components
including another rack-mountable sliding rail, another
device-mountable receiving rail and another device-mountable
securing rail, which can be configured to attach to a right side of
the rack-mountable computing device.
[0028] In an implementation, a method of installing a
rack-mountable computing device within a computer rack using a
universal rail mounting kit is provided. The universal rail
mounting kit can include a rack-mountable sliding rail configured
to be attached to the computer rack, a device-mountable receiving
rail configured to be attached to the rack-mountable computing
device and configured to receive the rack-mountable sliding rail
when the rack-mountable computing device is installed in the
computer rack and a device-mountable securing rail configured to be
attached to the rack-mountable computing device and configured to
secure the rack-mountable computing device to the computer rack
after the device-mountable receiving rail has received the
rack-mountable sliding rail. Further, the method can include
attaching the rack-mountable sliding rail to a pillar of the
computer rack, attaching the device-mountable receiving rail to a
distal portion of a side of the rack-mountable computing device,
attaching the device-mountable securing rail to a proximal portion
of the side of the rack-mountable computing device, installing the
rack-mountable computing device within the computer rack by sliding
the device-mountable receiving rail attached to the rack-mountable
computing device to receive rack-mountable sliding rail, and
securing a portion of the device-mountable securing rail to another
pillar of the computer rack.
[0029] Other features, aspects and advantages of the universal rail
kit can be seen on review the drawings, the detailed description,
and the claims, which follow.
BRIEF DESCRIPTION OF THE DRAWINGS
[0030] The included drawings are for illustrative purposes and
serve only to provide examples of possible structures and process
operations for one or more implementations of this disclosure.
These drawings in no way limit any changes in form and detail that
may be made by one skilled in the art without departing from the
spirit and scope of this disclosure. A more complete understanding
of the subject matter may be derived by referring to the detailed
description and claims when considered in conjunction with the
following figures, wherein like reference numbers refer to similar
elements throughout the figures.
[0031] FIG. 1 illustrates a first perspective view of a
rack-mountable sliding rail of a universal rail kit.
[0032] FIG. 2 illustrates a second perspective view of a
rack-mountable sliding rail of a universal rail kit.
[0033] FIG. 3 illustrates a side view of a rack-mountable sliding
rail of a universal rail kit.
[0034] FIG. 4 illustrates a view from a proximal end of a
rack-mountable sliding rail of a universal rail kit.
[0035] FIG. 5 illustrates a first profile view of a rack-mountable
sliding rail of a universal rail kit.
[0036] FIG. 6 illustrates a view from a distal end of a
rack-mountable sliding rail of a universal rail kit.
[0037] FIG. 7 illustrates a second profile view of a rack-mountable
sliding rail of a universal rail kit.
[0038] FIGS. 8A and 8B illustrate example dimensions of the
structure of the rack-mountable sliding rail of a universal rail
kit.
[0039] FIG. 9 illustrates example dimensions of the structure of
the rack-mountable sliding rail of a universal rail kit.
[0040] FIG. 10 illustrates a first perspective view of a
device-mountable receiving rail of a universal rail kit.
[0041] FIG. 11 illustrates a second perspective view of a
device-mountable receiving rail of a universal rail kit.
[0042] FIG. 12 illustrates a side view of a device-mountable
receiving rail of a universal rail kit.
[0043] FIG. 13 illustrates an end view of a device-mountable
receiving rail of a universal rail kit.
[0044] FIGS. 14A and 14B illustrate example dimensions of the
structure of a device-mountable receiving rail of a universal rail
kit.
[0045] FIG. 15 illustrates a first perspective view of a
device-mountable securing rail of a universal rail kit.
[0046] FIG. 16 illustrates a second perspective view of a
device-mountable securing rail of a universal rail kit.
[0047] FIG. 17 illustrates a side view of a device-mountable
securing rail of a universal rail kit.
[0048] FIGS. 18A and 18B illustrate example dimensions of the
structure of a device-mountable securing rail of a universal rail
kit.
[0049] FIG. 19 illustrates example dimensions of the structure of a
device-mountable securing rail of a universal rail kit.
[0050] FIG. 20 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
[0051] FIG. 21 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
[0052] FIG. 22 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
[0053] FIG. 23 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
DESCRIPTION OF THE INVENTION
[0054] The technology disclosed describes a universal rail kit that
is configured to adapt to rack-mountable computer devices provided
from multiple manufacturers or vendors. Specifically, the universal
rail kit includes components that can be universally used to
install varying models and brands of rack-mountable computer
devices in a computer rack.
[0055] The universal rail kit includes a right set and a left set
of components (rails) to be installed for the right side and the
left side of a rack-mountable computer device. Each set (i.e., the
right set and the left set) of rails includes (i) a rack-mountable
sliding rail that is initially mounted onto a pillar or chassis
component of the computer rack, (ii) a device-mountable receiving
rail that is initially mounted onto (a distal end or portion of)
the corresponding side of the rack-mountable computer device and
(iii) a device-mountable securing rail that is initially mounted
onto (a proximal end or portion of) the corresponding side of the
rack-mountable computer device. Once the rack-mountable sliding
rail is mounted to the pillar or chassis component and the
device-mountable receiving rail and the device-mountable securing
rail are mounted to the rack-mountable computer device, the
device-mountable receiving rail can be aligned with the
rack-mountable sliding rail while the rack-mountable computing
device is slid into place within the computer rack. The
device-mountable receiving rail receives the rack-mountable sliding
rail. The rack-mountable sliding rail provides support for the
device-mountable receiving rail, as it is mounted to the pillar of
the computer rack.
[0056] Once the rack-mountable computing device is slid into place
the device-mountable securing rail, which is installed on the
proximal end of the corresponding side of the rack-mountable
computing device, is aligned with and mounted to another pillar or
chassis component of the computer rack using mounting components,
such as screws, clips, etc. Therefore, both the rack-mountable
sliding rail and the device-mountable securing rail are mounted
(attached) to pillars of the computer rack to provide secure
support to keep the rack-mountable computing device in place, while
the device-mountable receiving rail also provides secure support by
being attached to the rack-mountable sliding rail. The
device-mountable receiving rail also allows for easy installation
of the rack-mountable computing device as it is aligned with the
device-mountable receiving rail during installation of the
rack-mountable computing device. Once installed, the rack-mountable
sliding rail, the device-mountable receiving rail and the
rack-mountable securing rail are stationary with respect to one
another and the computer rack. The rails may not slide forwards or
backwards like other sliding-type rail kits that are bulky and make
routing of cables more difficult.
[0057] The rack-mountable computing device can also be removed from
the computer rack by simply removing the mounting components that
attach the device-mounted securing rail from the pillar of the
computer rack and then sliding the rack-mountable computing device
out of the computer rack. The structure of the rack-mountable
sliding rail, the device-mountable receiving rail and the
device-mountable securing rail allows the rack-mountable computing
device to be removed without detaching the rack-mountable sliding
rail from the pillar of the computer rack, without detaching the
device-mountable receiving rail from the rack-mountable computing
device and without detaching the device-mountable securing rail
from the rack-mountable computing device.
[0058] Each of the above-described components of the universal rail
kit are designed with via holes and receiving holes that allow for
mounting onto various models and brands of rack-mountable computing
devices. Further, each of the above-described components has a
structure that allows sufficient space between various
rack-mountable computing devices and other components of the
computer rack, so that various wires and cables can be routed
throughout the computer rack.
[0059] Each of the rack-mountable securing rail, the
device-mountable receiving rail and the device-mountable securing
rail can have a unibody structure and can be comprised of a metal,
such as steel (e.g., cold rolled steel (e.g., 0.059 inches) with
anti-corrosion zinc coating), a plastic or a composite material
with or without coatings.
[0060] Specific components of the universal rail kit are described
below along with their structures and functions with reference to
FIGS. 1-23.
[0061] FIG. 1 illustrates a first perspective view of a
rack-mountable sliding rail of a universal rail kit.
[0062] Specifically, FIG. 1 illustrates a rack-mountable sliding
rail 100 of the universal rail kit. The rack-mountable sliding rail
100 is "L" shaped and has a first leg 102 and a second leg 104. The
first leg 102 is located at a distal end of the rack-mountable
sliding rail 100 and the second leg 104 extends from the distal end
of the rack-mountable sliding rail 100 to a proximal end of the
rack-mountable sliding rail 100. As illustrated, the first leg 102
can be shorter than the second leg 104.
[0063] The second leg 104 includes a top portion 106, a bottom
portion 108 and a first side 116 that faces towards the
rack-mountable computing device when it is installed within the
computer rack.
[0064] Additionally, the second leg 104, at the proximal end can
include a curved or rounded tip 110 (rounded portion) that can help
provide guidance as the rack-mountable sliding rail 100 is received
by (slide into) a device-mountable receiving rail 1000, which is
described in more detail below with reference to FIGS. 10-14. The
proximal end of the second leg 104 can also further include tapered
portions 112 so as to provide further assistance with aligning the
rack-mountable sliding rail 100 with the device-mountable receiving
rail 1000, which is mounted to the rack-mountable computing
device.
[0065] A length of the first leg 102 of the rack-mountable sliding
rail 100 extends in a direction that is substantially perpendicular
to the length of the second leg 104. As illustrated, the
rack-mountable sliding rail 100 is of a unibody shape and the first
leg 102 and the second leg 104 meet at a corner or rounded portion
114 thereof. The first leg 102 includes one or more via holes 200
that allow the rack-mountable sliding rail 100 to be mounted
(attached) to a pillar or chassis component of the computer rack
using one or more mounting components, such as screws, bolts, clips
or other devices that would be known to a person of ordinary skill
in the art. The mounting components can be inserted into the via
holes 200 in order to mount the rack-mountable sliding rail 100 to
the pillar and they can be removed from the via holes 200 in order
to remove the rack-mountable sliding rail 100 from the pillar. Once
the rack-mountable sliding rail 100 is mounted to the pillar of the
computer rack, the device-mountable receiving rail 1000 can receive
the rack-mountable sliding rail 100 during installation of the
rack-mountable computing device. The rack-mountable sliding rail
100, as illustrated in FIG. 1, can be installed on either the left
side or the right side of the computer rack. Although two
rack-mountable sliding rails 100 are not illustrated, the universal
rail kit includes another corresponding rack-mountable sliding rail
that can be installed on the other side of the computer rack. This
other corresponding rack-mountable sliding rail can have the same
structure as the rack-mountable sliding rail 100 illustrated in
FIG. 1 or it can have a structure that is different from the rack
mountable sliding rail 100 illustrated in FIG. 1.
[0066] FIG. 2 illustrates a second perspective view of a
rack-mountable sliding rail of a universal rail kit.
[0067] FIG. 2 illustrates the same rack-mountable sliding rail 100
as illustrated in FIG. 1 and redundant descriptions thereof are
omitted. FIG. 2 further illustrates that multiple via holes 200 are
included in the first leg 102 of the rack-mountable sliding rail
100. Additionally, FIG. 2 illustrates a second side 202 of the
second leg 104 that faces away from the rack-mountable computing
device when it is installed within the computer rack.
[0068] FIG. 3 illustrates a side view of a rack-mountable sliding
rail of a universal rail kit.
[0069] Specifically, FIG. 3 illustrates the same rack-mountable
sliding rail 100 as illustrated in FIGS. 1 and 2 and redundant
descriptions thereof are omitted.
[0070] FIG. 4 illustrates a view from a proximal end of a
rack-mountable sliding rail of a universal rail kit.
[0071] Specifically, FIG. 4 illustrates the two or more via holes
200 of the first leg 102 of the same rack-mountable sliding rail
100 as illustrated in FIGS. 1-3. The via holes 200 can be of any
shape, such as circular or oblong. An oblong shape will allow for
small left or right adjustments of the rack-mountable sliding rail
100 with respect to the pillar of the computer rack.
[0072] FIG. 5 illustrates a first profile view of a rack-mountable
sliding rail of a universal rail kit.
[0073] Specifically, FIG. 5 illustrates the same rack-mountable
sliding rail 100 as illustrated in FIGS. 1-4 and redundant
descriptions thereof are omitted. Further, FIG. 5 illustrates that
the proximal end of the second leg 104 can be angled 500 in a
direction away from the rack-mountable computing device as
installed in the computer rack. The angle can be approximately 175
degrees (or 5 degrees away from perfectly flat). The angling 500 of
the rack-mountable sliding rail 100 makes it easier for the
device-mountable receiving rail 1000, which is described in further
detail below with reference to FIGS. 10-14, to align with and
receive the rack-mountable sliding rail 100 as the rack-mountable
computing device is installed within the computer rack.
[0074] FIG. 6 illustrates a view from a distal end of a
rack-mountable sliding rail of a universal rail kit.
[0075] Specifically, FIG. 6 illustrates the opposite side of the
first leg 102 that is illustrated in FIG. 4. Redundant description
of the first leg 102 of FIG. 6 are omitted, as the first leg 102 is
describe above with reference to FIGS. 1-5.
[0076] FIG. 7 illustrates a second profile view of a rack-mountable
sliding rail of a universal rail kit.
[0077] Specifically, FIG. 7 is similar to FIG. 5, except that FIG.
7 illustrates a view towards a bottom portion 108 of the
rack-mountable sliding rail 100. Redundant descriptions of the
rack-mountable sliding rail 100 as illustrated in FIG. 7 are
omitted in view of the descriptions provided above with reference
to FIGS. 1-6.
[0078] FIGS. 8A, 8B and 9 illustrate example dimensions of the
structure of a rack-mountable sliding rail of a universal rail
kit.
[0079] The measurements illustrated in FIGS. 8A, 8B and 9 are in
millimeters (mm) and the "R" values indicate radius measurements in
millimeters (mm). These measurements are merely examples and can be
modified. The dimensions and shape of the rack-mountable sliding
rail 100 allow the rack-mountable sliding rail 100 to be compatible
with various brands and models of computer racks as well as with
various brands and models of rack-mountable computing devices. Many
of the reference elements (e.g., 114) illustrated in FIGS. 1-7 are
not included in FIGS. 8A, 8B and 9 so as to allow for easier
identification of the dimensions. Specifically, some of the
reference elements referred to below are not illustrated in FIGS.
8A, 8B and 9 for the sake of clarity. However, it is clear from
FIGS. 1-7 which portions of the rack-mountable sliding rail are
being referred to below.
[0080] While the various dimensions and shapes illustrated in FIGS.
8A, 8B and 9 are self-explanatory, they are briefly described
below. The overall length of the rack-mountable sliding rail 100 is
approximately 360.01 mm, the height of the second leg 104 is
approximately 38 mm, except at the distal end near the first leg
102 and the proximal end that includes the rounded tip 110 (rounded
portion) and the tapered portions 112. The rounded tip 110 (rounded
portion) can have a height of approximately 20 mm and the tapered
portions 112 can have a radius measurement of R10 mm. The height of
the first leg 102 (as well as the distal portion of the second leg
104) can be 43 mm, which is slightly more than the height of the
middle portion of the second leg 104. The first leg 102 can have a
length of approximately 19 mm. Left and right portions of the via
holes 200 can have a radius measurement of R3.95 mm and the via
holes 200 can be spaced apart from each other approximately 31.75
mm from the illustrated center points thereof. Additionally, the
angle 500 formed near the proximal end of the second leg 104 can be
approximately 175 degrees. A length of the rack-mountable sliding
rail 100 from the distal end to a point at which the angle 500 is
formed is approximately 342.6 mm.
[0081] FIG. 10 illustrates a first perspective view of a
device-mountable receiving rail of a universal rail kit.
[0082] Specifically, FIG. 10 illustrates a device-mountable
receiving rail 1000 that can be mounted to the rack-mountable
computing device. The device-mountable receiving rail 1000 can
include a distal end 1002, a proximal end 1004, a top side 1006 and
a bottom side 1008. As illustrated in FIG. 10, the top side 1006 of
the device-mountable receiving rail 1000 can be formed in a "U"
shape to form a "U" shaped curved region 1010 which curves away
from a side of the rack-mountable computing device to which the
device-mountable receiving rail 1000 is mounted. The
device-mountable receiving rail 1000 can be attached (mounted) to a
distal portion of the side of the rack-mountable computing device.
The "U" shaped curved region 1010 forms a top-side track 1011 that
extends along (at least) a portion of the device-mountable
receiving rail 1000. Similarly, the bottom side 1008 of the
device-mountable receiving rail 1000 can be formed in a "U" shape
to form a "U" shaped curved region 1012 which curves away from the
side of the rack-mountable computing device to which the
device-mountable receiving rail 1000 is mounted. The "U" shaped
curved region 1012 forms a bottom-side track 1013 that extends
along (at least) a portion of the device-mountable receiving rail
1000.
[0083] The top-side track 1011 and the bottom-side track 1013 are
structured to respectively receive the top portion 106 and the
bottom portion 108 of the rack-mountable sliding rail 100 as the
rack-mountable computing device (having the device-mountable
receiving rail 1000 attached thereto) is slid into the computing
rack. The rounded tip 110 and the tapered portion 112 of the
rack-mountable sliding rail 100 can guide (provide guidance to) the
device-mountable receiving rail 1000 as the rack-mountable
computing device is installed.
[0084] For example, during installation of the rack-mountable
computing device, the rounded tip 110 can initially come into
contact with either the top-side track 1011 or the bottom-side
track 1013. As the rack-mountable computing device continues to
slide into the computer rack, the tapered portions 112 can engage
and slide along either the top-side track 1011 or the bottom-side
track 1013. The rounded tip 110 and the tapered portions 112 allow
the rack-mountable computing device to be installed without
requiring the user to precisely align the top portion 106 and the
bottom portion 108 of the rack-mountable sliding rail 100 with the
top-side track 1011 and the bottom-side track 1013. As the
rack-mountable computing device is eventually slid into place, the
distal end 1002 of the device-mountable receiving rail 1000 will
reach the distal end of the second leg 104 of the rack-mountable
sliding rail 100.
[0085] The widths of the top-side track 1011 and the bottom-side
track 1013 are commensurate with the thickness (width) of the
rack-mountable sliding rail 100 and the distance between the
top-side track 1011 and the bottom-side track 1013 is commensurate
with the height of the rack-mountable sliding rail 100 (i.e., the
distance between the top portion 106 and the bottom portion 108)
such that the rack-mountable sliding rail 100 can slide into the
top-side track 1011 and the bottom-side track 1013 without
excessive force all the while keeping the rack-mountable sliding
rail 100 in place so as to prevent movement of the rack-mountable
computing device within the computer rack during shipment.
Furthermore, as illustrated, the device-mountable receiving rail
1000 can be of a unibody shape.
[0086] The device-mountable receiving rail 1000 can include two or
more via holes 1014 for receiving mounting components (e.g.,
screws, bolts, clips, brackets, etc.) that attach the
device-mountable receiving rail 1000 to the side portion of the
rack-mountable computing device. The two or more via holes 1014 are
located in positions that allow the device-mountable receiving rail
1000 to be attached to rack-mountable computing devices provided
from multiple manufacturers, such as Cisco.RTM., Juniper
Networks.RTM. and Nvidia.RTM., to name a few. Each of the two or
more via holes 1014 does not necessarily need to be used (i.e.,
receive a mounting component) to mount the device-mountable
receiving rail 1000 to the rack-mountable computing device, as
different via holes 1014 may or may not line up with different
receiving holes of the side of the rack-mountable computing device,
depending upon the manufacturer and model.
[0087] The device-mountable receiving rail 1000 can also include
one or more receiving holes 1016 configured to receive one or more
protrusions located on the side of the rack-mountable computing
device. The one or more receiving holes 1016 can be configured with
a larger portion and a smaller portion, such that the one or more
protrusions located on the side of the rack-mountable computing
device can be first inserted into the larger portion and then slid
into the smaller portion. Alternatively, the larger portion of the
one or more receiving holes 1016 can be configured to receive a
protrusion of a first size and the smaller portion of the one or
more receiving holes 1016 can be configured to receive a protrusion
of a second size, depending on the manufacturer and model of the
rack-mountable computing device. The one or more receiving holes
1016, just as the two or more via holes 1014, are located in
positions that allow the device-mountable receiving rail 1000 to be
attached to rack-mountable computing devices provided from multiple
manufacturers, such as Cisco.RTM., Juniper Networks.RTM. and
Nvidia.RTM., to name a few. Each of the one or more receiving holes
1016 does not necessarily need to be used (i.e., receive a
protrusion) to mount the device-mountable receiving rail 1000 to
the rack-mountable computing device, as different receiving holes
1016 may or may not line up with different protrusions (or the lack
thereof) of the side of the rack-mountable computing device,
depending upon the manufacturer and model.
[0088] The device-mountable receiving rail 1000 illustrated in FIG.
10 can be installed on either the left side or the right side of
the rack-mountable computing device. Although two device-mountable
receiving rails 1000 are not illustrated, the universal rail kit
can include another corresponding device-mountable receiving rail
that can be installed on the other side of the rack-mountable
computing device. This other corresponding device-mountable
receiving rail can have the same structure as the device-mountable
receiving rail 1000 illustrated in FIG. 10 or it can have a
different structure as the device-mountable receiving rail 1000
illustrated in FIG. 10.
[0089] FIG. 11 illustrates a second perspective view of a
device-mountable receiving rail of a universal rail kit.
[0090] FIG. 11 illustrates the same device-mountable receiving rail
1000 as illustrated in FIG. 10 and redundant descriptions thereof
are omitted. FIG. 11 further illustrates openings 1100 in a portion
of the "U" shaped curved regions 1010 and 1012. The openings 1100
allow for insertion and removal of the mounting components (through
the two or more via holes 1014) that attach the device-mountable
receiving rail 1000 to the side of the rack-mountable computing
device. The size of the openings 1100 must be commensurate with the
size of the via holes 1014 and the size of the mounting components,
such that the "U" shaped curved regions 1010 and 1020 do not block
the insertion and removal of the mounting components. Further, as
illustrated, the two or more via holes 1014 can be tapered so as to
allow the mounting components to be flush with the surface of the
device-mountable receiving rail 1000 so that the rack-mountable
sliding rail 100 can slide into the device-mountable receiving rail
1000 without obstructions caused by the mounting components that
may not be flush or near flush with the surface of the
device-mountable receiving rail 1000.
[0091] FIG. 12 illustrates a side view of a device-mountable
receiving rail of a universal rail kit.
[0092] Specifically, FIG. 12 illustrates the same device-mountable
receiving rail 1000 as illustrated in FIGS. 10 and 11 and redundant
descriptions thereof are omitted.
[0093] FIG. 13 illustrates an end view of a device-mountable
receiving rail of a universal rail kit.
[0094] Specifically, FIG. 13 illustrates the same device-mountable
receiving rail 1000 as illustrated in FIGS. 10-12 and redundant
descriptions thereof are omitted.
[0095] FIGS. 14A and 14B illustrate example dimensions of the
structure of a device-mountable receiving rail of a universal rail
kit.
[0096] The measurements illustrated in FIGS. 14A and 14B are in
millimeters (mm) and the "R" values indicate radius measurements in
millimeters (mm). These measurements are merely examples and can be
modified. The dimensions and shape of the device-mountable
receiving rail 1000 allow the device-mountable receiving rail 1000
to be compatible with various brands and models of computer racks
as well as with various brands and models of rack-mountable
computing devices. Many of the reference elements illustrated in
FIGS. 10-13 are not included in FIGS. 14A and 14B so as to allow
for easier identification of the dimensions. Specifically, some of
the reference elements referred to below are not illustrated in
FIGS. 14A and 14B for the sake of clarity. However, it is clear
from FIGS. 10-13 which portions of the device-mountable receiving
rail are being referred to below.
[0097] While the various dimensions and shapes illustrated in FIGS.
14A and 14B are self-explanatory, they are briefly described below.
The overall length of the device-mountable receiving rail 1000 is
approximately 230 mm, the height of the device-mountable receiving
rail is approximately 43.5 mm and a distance between edge portions
of the "U" shaped curved regions 1010 and 1012 is approximately
29.5 mm. Further the overall width (thickness) of the
device-mountable receiving rail 1000 is approximately 5.1 mm and
the width (thickness) of the top-side track 1011 and the
bottom-side track 1013 is approximately 2.1 mm.
[0098] The locations and dimension of the two or more via holes
1014 and the one or more receiving holes 1016 are clearly
illustrated in FIG. 14B. The larger portions of the one or more
receiving holes 1016 can have a radius measurement of R4.5 mm and
the smaller portions of the one or more receiving holes 1016 can
have a radius measurement of R2.9 mm. The outermost portions of the
two or more via holes 1014 can have a diameter of approximately 7.5
mm (referring to the portions of the two or more via holes 1014
where the tapering or countersink begins). The innermost portions
of the two or more via holes 1014 can have a diameter of
approximately 4.5 mm (referring to the portions of the two or more
via holes 1014 where the tapering or countersink ends). The
tapering or countersink can be at 45 degrees, or any other value
that matches the shape and contour of the mounting components.
[0099] FIG. 15 illustrates a first perspective view of a
device-mountable securing rail of a universal rail kit.
[0100] Specifically, FIG. 15 illustrates a device-mountable
securing rail 1500 of the universal rail kit. The device-mountable
securing rail 1500 is "L" shaped and has a first leg 1502 and a
second leg 1504. The first leg 1502 is located at a proximal end of
the device-mountable securing rail 1500 and the second leg 1504
extends from the proximal end of the device-mountable securing rail
1500 to a distal end of the device-mountable securing rail 1500. As
illustrated, the first leg 1502 can be shorter than the second leg
1504.
[0101] The second leg 1504 includes a top portion 1506, a bottom
portion 1508 and a first side 1509 that faces towards the
rack-mountable computing device when it is installed within the
computer rack. The second leg 1504 can have varying heights. For
example, portions 1514 and 1516 of the second leg 1504 taper
stepwise to a smaller height. This stepwise tapering can allow for
additional space for a user to run cables and/or wires throughout
the computer rack with the rack-mountable computing device
installed.
[0102] A length of the first leg 1502 of the device-mountable
securing rail 1500 extends in a direction that is substantially
perpendicular to the length of the second leg 1504. As illustrated,
the device-mountable securing rail 1500 can be of a unibody shape
and the first leg 1502 and the second leg 1504 meet at a corner or
rounded portion 1511 thereof.
[0103] The second leg 1504 can include two or more via holes 1518
for receiving mounting components (e.g., screws, bolts, clips,
brackets, etc.) that attach the device-mountable securing rail 1500
to the side portion of the rack-mountable computing device. The
device-mountable securing rail 1500 can be mounted (attached) to a
proximal portion of the side of the rack-mountable computing
device. The two or more via holes 1518 are located in positions
that allow the device-mountable securing rail 1500 to be attached
to rack-mountable computing devices provided from multiple
manufacturers, such as Cisco.RTM., Juniper Networks.RTM. and
Nvidia.RTM., to name a few. Each of the two or more via holes 1518
does not necessarily need to be used (i.e., receive a mounting
component) to mount the device-mountable securing rail 1500 to the
rack-mountable computing device, as different via holes 1518 may or
may not line up with different receiving holes of the side of the
rack-mountable computing device, depending upon the manufacturer
and model.
[0104] The second leg 1504 of the device-mountable securing rail
1500 can also include one or more receiving holes 1520 configured
to receive one or more protrusions located on the side of the
rack-mountable computing device. The one or more receiving holes
1520 can be configured with a larger portion and a smaller portion,
such that the one or more protrusions located on the side of the
rack-mountable computing device can be first inserted into the
larger portion and then slid into the smaller portion.
Alternatively, the larger portion of the one or more receiving
holes 1520 can be configured to receive a protrusion of a first
size and the smaller portion of the one or more receiving holes
1520 can be configured to receive a protrusion of a second size,
depending on the manufacturer and model of the rack-mountable
computing device. The one or more receiving holes 1520, just as the
two or more via holes 1518, are located in positions that allow the
device-mountable securing rail 1500 to be attached to
rack-mountable computing devices provided from multiple
manufacturers, such as Cisco.RTM., Juniper Networks.RTM. and
Nvidia.RTM., to name a few. Each of the one or more receiving holes
1520 does not necessarily need to be used (i.e., receive a
protrusion) to mount the device-mountable securing rail 1500 to the
rack-mountable computing device, as different receiving holes 1520
may or may not line up with different protrusions (or the lack
thereof) of the side of the rack-mountable computing device,
depending upon the manufacturer and model.
[0105] The first leg 1502 includes one or more via holes 1510 that
allow the device-mountable securing rail 1500 to be mounted
(attached) to a pillar of the computer rack using one or more
mounting components, such as screw, bolts, clips or other devices
that would be known to a person of ordinary skill in the art. The
mounting components can be inserted into the via holes 1510 in
order to mount the device-mountable securing rail 1500 to the
pillar and they can be removed from the via holes 1510 in order to
remove the device-mountable securing rail 1500 from the pillar and
also remove the rack-mountable computing device from the computer
rack.
[0106] The second leg 1504 of the device-mountable securing rail
1500 can first be mounted to the side of the rack-mountable
computing device, as well as the device-mountable receiving rail
1000. The rack-mountable computing device can then be inserted into
the rack so that the device-mountable receiving rail 1000 receives
the already mounted rack-mountable sliding rail 100 such that the
rack-mountable sliding rail 100 slides into the device-mountable
receiving rail 1000. Once the rack-mountable computing device is
fully inserted into the computer rack, the one or more via holes
1510 of the first leg 1502 can be mounted to the pillar or chassis
component or chassis component of the computer rack, so as to
securely mount the rack-mountable computing device to the computer
rack. The rack-mountable computing device can be removed from the
computer rack by simply removing the mounting components from the
one or more via holes 1510 of the first leg 1502 and then sliding
the rack-mountable computing device out of the computer rack. The
structure of the rack-mountable sliding rail 100, the
device-mountable receiving rail 1000 and the device-mountable
securing rail 1500 allows the rack-mountable computing device to be
removed without detaching the rack-mountable sliding rail 100 from
the pillar of the computer rack, without detaching the
device-mountable receiving rail 1000 from the rack-mountable
computing device and without detaching the device-mountable
securing rail 1500 from the rack-mountable computing device.
[0107] Although two device-mountable securing rails 1500 are not
illustrated, the universal rail kit includes another corresponding
device-mountable securing rail that can be mounted to the other
side of the rack-mountable computing device and then mounted onto
the other side of the computer rack. This other corresponding
device-mountable securing rail can be a mirror of the
device-mountable securing rail 1500 illustrated in FIG. 15 or it
can have a structure that is different from the structure of the
device-mountable securing rail 1500 illustrated in FIG. 15.
[0108] FIG. 16 illustrates a second perspective view of a
device-mountable securing rail of a universal rail kit.
[0109] FIG. 16 illustrates the same device-mountable securing rail
1500 as illustrated in FIG. 15 and redundant descriptions thereof
are omitted. FIG. 16 further illustrates a second side 1600 of the
device-mountable securing rail 1500 that is not illustrated in FIG.
15.
[0110] FIG. 17 illustrates a side view of a device-mountable
securing rail of a universal rail kit.
[0111] FIG. 17 illustrates the same device-mountable securing rail
1500 as illustrated in FIGS. 15 and 16 and redundant descriptions
thereof are omitted.
[0112] FIGS. 18A, 18B and 19 illustrate example dimensions of the
structure of a device-mountable securing rail of a universal rail
kit.
[0113] The measurements illustrated in FIGS. 18A, 18B and 19 are in
millimeters (mm) and the "R" values indicate radius measurements in
millimeters (mm). These measurements are merely examples and can be
modified. The dimensions and shape of the device-mountable securing
rail 1500 allow the device-mountable securing rail 1500 to be
compatible with various brands and models of computer racks as well
as with various brands and models of rack-mountable computing
devices. Many of the reference elements illustrated in FIGS. 15-17
are not included in FIGS. 18A, 18B and 19 so as to allow for easier
identification of the dimensions. Specifically, some of the
reference elements referred to below are not illustrated in FIGS.
18A, 18B and 19 for the sake of clarity. However, it is clear from
FIGS. 15-17 which portions of the rack-mountable sliding rail are
being referred to below.
[0114] While the various dimensions and shapes illustrated in FIGS.
18A, 18B and 19 are self-explanatory, they are briefly described
below. The overall length of the device-mountable securing rail
1500 is approximately 418.02 mm, the height of the second leg 1504
(from the top portion 1506 to the bottom portion 1508) is
approximately 43 mm. The height between portion 1514 and the bottom
portion 1508 is less than the height from the top portion 1506 and
the bottom portion 1508 and the height between portion 1516 and the
bottom portion 1508 is less than the height from portion 1514 and
the bottom portion 1508. Portion 1514 has a length of approximately
45.5 mm and portion 1516 has a length of approximately 55 mm.
[0115] Further, the first leg 1502 has a thickness of approximately
1.5 mm, a length of approximately 22 mm and a height of
approximately 43 mm. Left and right portions of the via holes 1510
can have a radius measurement of approximately R3.95 mm and the via
holes 200 can be spaced apart from each other approximately 31.75
mm from center points thereof.
[0116] The locations and dimension of the two or more via holes
1518 and the one or more receiving holes 1520 are clearly
illustrated in FIGS. 18A and 18B. The larger portions of the one or
more receiving holes 1520 can have a radius measurement of R4.5 mm
and the smaller portions of the one or more receiving holes 1520
can have a radius measurement of R2.9 mm. The outermost and
innermost portions of the two or more via holes 1518 can have
diameters varying between approximately 3.5 mm and 4.1 mm. The two
or more via holes 1518 can be tapered or countersunk at
approximately 45 degrees, or any other value that matches the shape
and contour of the mounting components.
[0117] Further, as illustrated in FIG. 19, the angle between the
first leg 1502 and the second leg 1504 can be approximately 90
degrees with a radius measurement of approximately R1.5 mm.
[0118] FIG. 20 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
[0119] Specifically, FIG. 20 illustrates a computer system 2000
that includes a computer rack 2002 with pillars 2004 and a
rack-mountable computing device 2006 installed therein using the
universal rail kit. FIG. 20 also illustrates various cables and
wires 2008 running next to and/or connected to the rack-mountable
computing device 2006.
[0120] Further, as illustrated, the rack-mountable sliding rail 100
is mounted to one of the pillars 2004 and the device-mountable
receiving rail 1000 is mounted to a side of the rack-mountable
computing device 2006. FIG. 20 illustrates the rack-mountable
sliding rail 100 as slid into and received by the device-mountable
receiving rail 1000. FIG. 20 also illustrates the device-mountable
securing rail 1500 mounted to the side of the rack-mountable
computing device 2006 and a pillar 2004 of the computer rack 2002.
As discussed above, the universal rail kit can include an
additional set of the rack-mountable sliding rail 100, the
device-mountable receiving rail 1000 and the device-mountable
securing rail 1500 that can be attached to the other side of the
rack-mountable computing device and the other side of the computer
rack 2002 (i.e., different pillars 2004 of the computer rack
2002).
[0121] FIG. 21 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
[0122] In addition to the several of the components illustrated in
FIG. 20, FIG. 21 illustrates the rack-mountable sliding rail 100,
as attached to a pillar 2004 using mounting components 2100, such
as a screws.
[0123] FIG. 22 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit.
[0124] Specifically, FIG. 22 illustrates the same computer system
2000 as illustrated in FIGS. 20 and 21 and redundant descriptions
thereof are omitted.
[0125] FIG. 23 illustrates a rack-mountable computing device
installed in a computing rack using a universal rail kit. FIG. 23
illustrates the same computer system 2000 as illustrated in FIGS.
20-22 and redundant descriptions thereof are omitted.
[0126] This disclosure is provided to reveal a preferred embodiment
of the universal rail kit and a best mode for using the universal
rail kit. Having thus described the universal rail kit in this way,
it should be apparent that various different modifications can be
made to the preferred embodiment without departing from the scope
and spirit of this disclosure. When structures are identified as a
means to perform a function, the identification is intended to
include all structures which can perform the function specified.
One or more elements of one or more claims can be combined with
elements of other claims.
* * * * *