The present disclosure relates to cable retainers.
Servers are installed in cabinets via a pair of rail assemblies. Ribbon cables are used to interconnect between different portions of a single server, or between different servers within the same cabinet. Cable retainers are used to ensure that the ribbon cables are well organized.
In order for the cables to be replaced or moved during maintenance of the servers, cable retainers may be disassembled. Devices such as screws may be used to keep the cable retainer in an assembled state during operation of the server. Tools such as screwdrivers are then necessary to disassemble the cable retainer for maintenance. During disassembly, screws and screwdrivers may be dropped or lost, sometimes falling into the servers themselves.
Overview
Example embodiments disclosed herein relate to an apparatus comprising a first flange part; a second flange part comprising a hole and one of a male portion or a female portion; and a spindle comprising a first axial end, an axial body, a second axial end and another of the male portion or the female portion arranged on the second axial end of the spindle. The first axial end of the spindle is rigidly connected to the first flange part, while the second axial end of the spindle extends through the hole so that the male portion extends into the female portion to secure the spindle part to the second flange part and so that the axial body extends between the first flange part and the second flange part. The male portion or the female portion is elastically deformable to allow the male portion to be removed from the female portion and the spindle to be removed (unsecured) from the second flange part.
With reference to
According to the example embodiment of
Once inserted through hole 150, first female portion 140a and second female portion 140b are engaged by first male portion 155a and second male portion 155b, respectively, which are arranged on the outside face of second flange 110. As used herein, the outside face of second flange 110 refers to the face opposite first flange 105. First male portion 155a and second male portion 155b prevent spindle 115 from moving in an axial direction based on their engagement in first female portion 140a and second female portion 140b, respectively.
With reference now made to
In order to separate spindle 115 from second flange 110, first male portion 155a and second male portion 155b can be radially deformed outward so that second axial end 130 can be removed from hole 150. Specifically, second portion 157a of male portion 155a clears inner face 142a of first leg 135a and second portion 157b of male portion 155b clears inner face 142b of second leg 135b as spindle 115 is moved in a first-flange axial direction. Alternatively or in addition to radially deforming first male portion 155a and second male portion 155b, first leg 135a and second leg 135b can be elastically deformed radially inward. Specifically, first leg 135a can be radially deformed so that second portion 157a of male portion 155a clears inner face 142a of first leg 135a as spindle 115 is moved in a first-flange axial direction. Similarly, second leg 135b can be radially deformed to that second portion 157b of male portion 155b clears inner face 142b of second leg 135b as spindle 115 is moved in a first-flange axial direction.
Also illustrated in
In example embodiments in which male portions 155a and 155b are radially deformed to allow for the detachment of spindle 115 from second flange 110, male portions 155a and 155b may have a height (length) (i.e., a measurement in the direction perpendicular to that of the radial and axial directions in which male portions 155a and 155b extend) that is greater than that of first leg 135a and second leg 135b. Such a height (length) allows a user to grasp and deform male portions 155a and 155b without interference from first leg 135a and second leg 135b.
In example embodiments in which first leg 135a and second leg 135b are radially deformed to allow for the detachment of spindle 115 from second flange 110, first leg 135a and second leg 135b may axially extend past male portions 155a and 155b. Such an extension allows a user to grasp and deform first leg 135a and second leg 135b without interference from male portions 155a and 155b.
With reference now made to
With reference now made to
With reference now made to
With reference now made to
With reference now made to
To summarize, presented herein are various embodiments of a tool-less cable retention assembly that snaps together and holds a cable together during use, preventing it from coming apart in the side to side direction. In simple terms, the assembly is made of two plastic parts, the first with a retaining disk at one end and a long split shaft that extends out. The second part has a disk design with two holes in it. The long part is pushed through the center of the cable and then is snapped into the second part on the other end. This assembly is tool-less and can be disassembled by spreading the two snaps at the end and pulling apart. This assembly retains the cable and prevents it from spreading out side ways during use.
Thus, in one form, an apparatus is provided comprising: a first flange part; a second flange part comprising a hole and one of a male portion or a female portion; and a spindle comprising a first axial end, an axial body, a second axial end and an other of the male portion or the female portion arranged on the second axial end of the spindle, wherein: the first axial end of the spindle is rigidly connected to the first flange part; the second axial end of the spindle extends through the hole so that the male portion extends into the female portion to secure the spindle part to the second flange part and so that the axial body extends between the first flange part and the second flange part; and the male portion or the female portion is elastically deformable to allow the male portion to be removed from the female portion and the spindle to be removed (unsecured) from the second flange part.
In another form, an apparatus is provided comprising: a first flange part; a second flange part comprising a hole and a cross member extending along a diameter of the hole; a spindle comprising a first axial end, an axial body, and a second axial comprising a first leg and a second leg separate by a slit, wherein: the first axial end of the spindle is rigidly connected to the first flange part; and the second axial end of the spindle extends through the hole so that the first leg extends axially through the hole on a first side of the cross member, the second leg extends through the hole on a second side of the cross member, and the cross member extends into the slit so that the cross member prevents rotation of the spindle.
In still another form, a method is provided comprising: providing a first flange part; providing a second flange part comprising a hole and one of a male portion or a female portion; providing a spindle comprising a first axial end, an axial body, a second axial end and an other of the male portion or the female portion arranged on the second axial end of the spindle, wherein the first axial end of the spindle is rigidly connected to the first flange part; extending the second axial end of the spindle through the hole so that the male portion extends into the female portion to secure the spindle part to the second flange part and so that the axial body extends between the first flange part and the second flange part; and elastically deforming the male portion or the female portion to allow the male portion to be removed from the female portion and the spindle to be unsecured from the second flange part.
The above description is intended by way of example only.
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Number | Date | Country | |
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20160229661 A1 | Aug 2016 | US |