US Pat. No. 10,051,759

SERVER SLIDE RAIL ASSEMBLY FRONT BRACKET QUICK RELEASE STRUCTURE

GSLIDE CORPORATION, New ...

1. A server sliding rail assembly front bracket quick release structure, comprising:a front bracket comprising a base wall, upper and lower walls respectively connected to opposing upper and lower sides of said base wall, said base wall being configured to be connected to a front side of an outer sliding rail of a server sliding rail assembly;
a connecting seat comprising a first wall fixedly connected to the base wall of said front bracket, a second wall perpendicularly connected at a bottom side thereof to a rear side of said first wall, a third wall perpendicularly connected to an opposing top side of said second wall, a fourth wall perpendicularly connected to said third wall, an accommodation chamber defined between said fourth wall and said second wall, a plurality of locating holes through said fourth wall, and a plurality of holes through said second wall;
a plurality of sockets respectively disposed in said accommodation chamber between said second wall and said fourth wall, each said socket comprising a stop flange extended around the periphery thereof and stopped at an inner surface of said fourth wall around one respective said locating hole;
a plurality of coil springs respectively supported between said sockets and said second wall within said accommodation chamber to force the respective said sockets into the respective said locating holes through said fourth wall;
a plurality of locating pins respectively inserted through said sockets and said coil springs, each said locating pin having one end thereof fastened to one respective said hole through said second wall and an opposite end thereof extended out of one respective said locating hole through said fourth wall;
a swivel buckle comprising two lugs bilaterally disposed at a rear side thereof and respectively pivotally connected to said upper and lower walls of said front bracket with a pivot member, a hook plate located at an opposing front side of said swivel buckle, and a lever extended from said hook plate; and
a torsion spring mounted around said pivot member to force said swivel buckle into abutment against said connecting seat, said torsion spring having one side stopped against said swivel buckle and an opposite side thereof stopped against said first wall of said connecting seat.

US Pat. No. 9,918,404

SERVER SLIDING RAIL MOUNTING BRACKET ASSEMBLY

GSLIDE CORPORATION, New ...

1. A server sliding rail mounting bracket assembly for connection to a server rack, comprising:
a bracket, a top cover, an elastic member and a swing seat;
said bracket comprising a base panel, an end panel extended from a front end of said base panel, a plurality of hanging rods
located on an inner surface of said end panel and vertically spaced in line, said bracket being fixedly connected to a front
end of an outer sliding rail of a server sliding rail assembly and to the top cover, each said hanging rod comprising a first
positioning rod portion connected to said end panel and a second positioning rod portion axially extended from said first
positioning rod portion, the width of said first positioning rod portions of said hanging rods being larger than the width
of said second positioning rod portions but smaller than the width of rectangular mounting holes of the server rack, the width
of said second positioning rod portions being smaller than the diameter of circular mounting holes of the said server rack;

said top cover comprising a cover base panel, top and bottom panels respectively and perpendicularly extended from opposing
top and bottom sides of said cover base panel, top and bottom end flanges respectively and outwardly extended from respective
distal ends of said top and bottom panels remote from said cover base panel and being connected to said bracket, two longitudinal
sliding slots are located on said respective top and bottom panels, two first engagement portions are located at respective
front ends of said longitudinal sliding slots, two second engagement portions are located between said respective first engagement
portions and said longitudinal sliding slots, and an elastic member retainer is located at said cover base panel;

said elastic member having one end thereof connected to said elastic member retainer of said cover base panel and an opposite
end thereof connected to said swing seat; and

said swing seat comprising a seat base, top and bottom seat plates are located at respective opposing top and bottom sides
of said seat base, first guide rods and second guide rods are located at said respective top and bottom seat plates near two
opposite ends and respectively slidably inserted into said longitudinal sliding slots in said top and bottom panels of said
top cover to guide movement of said swing seat along said longitudinal sliding slots and allowing said first guide rods to
be detachably and selectively forced into engagement with said first engagement portions or said second engagement portions,
an elastic member retainer extended from a rear side of said seat base for securing said opposite end of said elastic member
and a lever extended from an opposing front side of said seat base and terminating in a stop block for abutment against an
inner wall surface of the server rack.

US Pat. No. 9,930,962

SIDE-LOCKING SLIDING RAIL ASSEMBLY HAVING AN AUTO-OPENING MECHANISM

GSLIDE CORPORATION, New ...

1. A side-locking sliding rail assembly, comprising:a fixed rail configured to be affixed to an inner sidewall of a cabinet;
a movable rail configured to be affixed to a drawer and mounted on said fixed rail and slidable with said drawer forward and backward relative to said fixed rail;
an intermediate rail coupled between said fixed rail and said movable rail and slidable forward and backward relative to said fixed rail and said movable rail;
a sliding device, a locating member, a hook block, an actuation member, at least one first compression spring, a second compression spring, and an auto-opening mechanism carrier plate;
said sliding device comprising a sliding groove slidably coupled to said auto-opening mechanism carrier plate enabling said sliding device to be moved forward or backward along the auto-opening mechanism carrier plate, a first pivot hole for pivotal connection of said hook block, a second pivot hole for pivotal connection of said locating member, at least one positioning portion for connection of one end of said at least one first compression spring, and a second compression spring positioning portion for connection of one end of said second compression spring;
said locating member comprising a second pivot pin located at a front side of said locating member and being pivotally connected to said second pivot hole of said sliding device, a locating rod located at an opposing rear side of said locating member and having a pawl, and a support rod located at a rear side of said locating member and that supports an opposite end of said second compression spring and enables the second compression spring to impart an elastic restoring force to said pawl of said locating rod;
said hook block comprising a first pivot pin pivotally connected to said first pivot hole of said sliding device, a hook portion, and a retaining portion;
said actuation member mounted at one lateral side of said movable rail for linking to said hook block;
said at least one first compression spring having one end thereof connected to said positioning portion of said sliding device and an opposite end thereof stopped against a rear end of said auto-opening mechanism carrier plate;
said second compression spring having one end thereof connected to one side of said second compression spring positioning portion of said sliding device and an opposite end thereof supported on said support rod of said locating member; and
said auto-opening mechanism carrier plate is fixedly fastened to a bottom wall of said fixed rail, said auto-opening mechanism carrier plate comprising at least one guide block slidably coupled with said sliding device, a sliding slot for guiding said hook block to slide on said auto-opening mechanism carrier plate, a guide-in channel and a guide-out channel located within said auto-opening mechanism carrier plate, a retaining channel having a retaining notch and being connected between a rear end of said guide-in channel and a rear end of said guide-out channel for allowing said locating rod of said locating member to be guided into said guide-in channel and then positioned in said retaining notch of said retaining channel or for allowing said locating rod to be disengaged from said retaining notch and then moved out of said auto-opening mechanism carrier plate through an outlet of said guide-out channel, a longitudinal series of sloping teeth arranged between opposing front and rear ends of the guide-in channel for allowing said pawl of said locating rod of said locating member to be selectively forced into engagement with at least one sloping tooth of said series of sloping teeth.

US Pat. No. 9,867,311

SERVER CABLE MANAGEMENT STRUCTURE

GSLIDE CORPORATION, New ...

1. A server cable management structure, comprising:
a first arm member;
a second arm member;
an intermediate arm member, said intermediate arm having two opposite ends thereof respectively pivotally connected to one
end of said first arm member by a first pivot pin and to one end of said second arm member by a second pivot pin;

a first connection member and a second connection member respectively affixed to an outer sliding rail and to an inner sliding
rail of a sliding rail assembly and respectively pivotally connected with an opposite end of said first arm member by a third
pivot pin and to an opposite end of said second arm member by a fourth pivot pin; and

a plurality of cable holders respectively mounted on said first arm member, said intermediate arm member and said second arm
member;

wherein:
said first arm member comprises a longitudinal sliding groove disposed at one end thereof opposite to said inner sliding rail
of said sliding rail assembly and extended along a length proximate the one end thereof;

the server cable management structure further comprises a locating block connected to said first arm member near an inner
end of said longitudinal sliding groove by at least one first fastening member, a sliding bar coupled to and movable along
said longitudinal sliding groove, at least one spring member, with each said spring member having one end thereof connected
to said locating block and an opposite end thereof connected to said sliding bar, and a connection frame connected to said
sliding bar by at least one second fastening member and pivotally connected to said first connection member by said third
pivot pin.

US Pat. No. 10,111,357

DETACHABLE INNER SLIDING RAIL MOUNTING STRUCTURE FOR SERVER SLIDING RAIL ASSEMBLY

GSLIDE CORPORATION, New ...

1. A detachable inner sliding rail mounting structure for use in a server sliding rail assembly that has an inner sliding rail and another sliding rail that includes a stop block, the detachable inner sliding rail mounting structure connected to the inner sliding rail and comprising:a pull bar, a plastic pull tab, a guide block and an engagement plate, wherein:
said pull bar is slidably mounted along an inner bottom surface of said inner sliding rail and comprises a connection hole located at a rear end thereof, a connection member having a shank connected to said connection hole to pivotally connect said engagement plate to said pull bar, an elongated slot that receives a positioning member of said inner sliding rail that limits the range of forward-rearward sliding movement of said pull bar relative to said inner sliding rail, and an opposing front end connected to said plastic pull tab;
said plastic pull tab comprises a sliding groove, two rails respectively extended along two opposite lateral sides of said sliding groove and being coupled to said guide block so that said plastic pull tab is movable forward and rearward relative to said guide block, a spring retaining portion located at a rear side relative to said sliding groove, and a spring having one end thereof connected to said spring retaining portion and an opposite end thereof connected to said guide block such that at rest said pull tab is in a rearward position and when said plastic pull tab is being pulled forward, said spring is compressed, and when said pulling force is removed, an elastic restoring energy of said spring moves said plastic pull tab to the rearward position;
said guide block comprises two guide grooves arranged at two opposite lateral sides thereof and that are respectively coupled to said two rails of said plastic pull tab, a mounting portion located at a bottom side thereof and connected to a positioning groove of said inner sliding rail, and a spring retainer tip located at a rear end thereof and connected to said opposite end of said spring;
said engagement plate comprises a first pivot hole located near a rear end thereof and being pivotally connected to a second pivot hole at said inner bottom surface of said inner sliding rail via a pivot pin, a front guide edge, a rear guide edge, a retaining notch disposed between said front guide edge and said rear guide edge and detachably engageable with said stop block of said another sliding rail, a first guide slot that receives said shank of said connection member of said pull bar so that said shank of said connection member of said pull bar is movable along said first guide slot to move said engagement plate and to further force said retaining notch of said engagement plate away from said stop block of said another sliding rail, and a second guide slot for enabling a front part of said engagement plate to be directly driven to move said engagement plate in a direction disengaging said retaining notch from said stop block of said another sliding rail, said rear end of said engagement plate being abutted against an elastic arm of an elastic member at said inner sliding rail so that when said front part of said engagement plate is moved away from its rest position so as to disengage said retaining notch from said stop block of said another sliding rail, said rear end of said engagement plate is forced to compress said elastic arm, and when the force to compress the elastic arm is removed from said engagement plate, an elastic restoring energy of said elastic arm biases said engagement plate to return to its rest position.

US Pat. No. 10,123,616

TALL CABINET QUICK RELEASE STRUCTURE

GSLIDE CORPORATION, New ...

1. A tall cabinet quick release structure, comprising:an upper sliding rail assembly comprising an outer sliding rail affixed to a bottom surface of a top panel of an open-front cabinet housing by first fastening members and an inner sliding rail coupled to and axially movable in and out of said outer sliding rail, said inner sliding rail comprising a front positioning rod and a rear positioning rod respectively downwardly extended from a bottom wall of said inner sliding rail;
a bracket affixed to a top surface of a wooden cabinet by second fastening members;
a front positioning block affixed to said bracket and to said top surface of said wooden cabinet by third fastening members and adapted for releasably securing said front positioning rod of said inner sliding rail of said upper sliding rail assembly;
a rear positioning block affixed to said bracket and to said top surface of said wooden cabinet by fourth fastening members, said rear positioning block comprising a position-limiting groove extended in the sliding direction of said inner sliding rail of said upper sliding rail assembly and adapted for allowing said front positioning rod of said inner sliding rail of said upper sliding rail assembly to pass therethrough and for releasably locating said rear positioning rod of said inner sliding rail;
a tray comprising a flat bearing surface, a plurality of through holes vertically cut through said bearing surface near a front side thereof and affixed to an opposing bottom surface of said wooden cabinet by fifth fastening members, an upright locating plate with multiple through holes located at an opposing rear side of said bearing surface and affixed to a bottom edge of a rear of said wooden cabinet by sixth fastening members, two side flanges respectively downwardly extended along opposing left and right sides of said bearing surface, at least one locating notch located at the said rear side of said bearing surface, and a plurality of through holes symmetrically located at a front side relative to said side flanges and affixed to said bottom surface of said wooden cabinet and to left and right latch devices by seventh fastening members;
said left and right latch devices respectively mounted at two opposing left and right sides of said tray and respectively fastenable to opposing left and right sides of a lower sliding rail assembly; and
said lower sliding rail assembly coupled with said tray for allowing said tray to slide back and forth thereon, said lower sliding rail assembly comprising a sliding rail holder affixed to an inner bottom surface of said cabinet housing by eighth fastening member, an inner bracket axially movable in and out of said sliding rail holder and a bottom locating frame affixed to a top side of said inner bracket above said sliding rail holder and movable with said inner bracket back and forth relative to said sliding rail holder, said bottom locating frame comprising at least one stop plate located on a top surface near a rear end thereof which engages into said at least one locating notch at said bearing surface of said tray to stop said tray from backward displacement and two retaining grooves respectively located on two opposite sidewalls for engagement of said left and right latch devices.

US Pat. No. 10,194,555

SERVER SLIDING RAIL QUICK RELEASE MOUNTING STRUCTURE

GSLIDE CORPORATION, New ...

1. A server sliding rail quick release mounting structure, comprising two server sliding rail assemblies each consisting of an inner sliding rail, an intermediate sliding rail and an outer sliding rail, a connecting frame affixed to said intermediate sliding rail of each said server sliding rail assembly, at least one engagement plate and a horizontal insertion groove arranged on said outer sliding rail of each said server sliding rail assembly, a support bar set, a first quick release detachably connecting one end of said support bar set to said engagement plate and said horizontal insertion groove at said outer sliding rail of the other said server sliding rail assembly, and a second quick release detachably connecting an opposite end of said support bar set to said connecting frame at said intermediate sliding rail of one said server sliding rail assembly, said connecting frame comprising a connecting plate having one end thereof fixedly fastened to one end of the associating said intermediate sliding rail, a lug extended from said connecting plate and having a pivot hole wherein the server sliding rail quick release mounting structure further comprises:a connection plate comprising a first connection plate wall and a second connection plate wall connected at a right angle, said first connection plate wall fixedly connected to one end of said support bar set, said second connection plate wall having a top end thereof pivotally connected to a retaining element and an adjustment member;
said retaining element having a through hole pivotally connected to said second connection plate wall of said connection plate, a protruded engagement portion spaced above the through hole of said retaining element and adapted for engaging said adjustment member, and a finger gripping strip located at a top side thereof; and
said adjustment member comprising a base panel, opposing top and bottom panels respectively and perpendicularly extended from opposing top and bottom sides of said base panel, a middle part of said base panel pivotally connected to said connection plate and said retaining element, a top retaining slot located at a junction between said base panel and said top panel and a bottom retaining slot located on the junction between said base panel and said bottom panel, said top retaining slot and said bottom retaining slot being so arranged that when said adjustment member is rotated through 180°, said engagement portion of said retaining element is selectively engaged into said top retaining slot or said bottom retaining slot, said top panel and said bottom panel of said adjustment member further being pivotally connected to said first quick release.

US Pat. No. 10,314,196

REINFORCED SERVER SLIDING RAIL MOUNTING STRUCTURE

GSLIDE CORPORATION, New ...

1. A reinforced server sliding rail mounting structure for connection to a server rack and to a server, comprising:an inner sliding rail comprising a main rail wall adapted for connection to said server and opposing upper and lower rail walls respectively and perpendicularly extended from opposing top and bottom sides of said main rail wall;
an intermediate sliding rail comprising a main rail wall, an upper rail wall and a lower rail wall respectively and perpendicularly extended from opposing top and bottom sides of said main rail wall of said intermediate sliding rail, inner ball grooves respectively longitudinally located on respective inner surfaces of the said upper and lower rail walls of said intermediate sliding rail and outer ball grooves respectively longitudinally located on respective opposing outer surfaces of said upper and lower rail walls of said intermediate sliding rail;
a first ball bushing slidably mounted between said inner sliding rail and said intermediate sliding rail;
an outer sliding rail comprising a main rail wall, upper and lower rail walls respectively and perpendicularly extended from opposing top and bottom sides of said main rail wall of said outer sliding rail and inner ball grooves respectively longitudinally located on respective inner surfaces of said upper and lower rail walls of said outer sliding rail;
a second ball bushing slidably mounted between said intermediate sliding rail and said outer sliding rail; and
a front bracket and a rear bracket respectively connected to opposing front and rear ends of said outer sliding rail by fastening members for connection to an opposing front side and rear side of the server rack, said front bracket comprising a bracket body and upper and lower bracket walls respectively extended from opposing top and bottom sides of said bracket body;
wherein said front bracket further comprises an upper reinforcing rib and a lower reinforcing rib respectively located on said upper bracket wall and said lower bracket wall such that when said intermediate sliding rail is moved outward into said front bracket, said upper reinforcing rib and said lower reinforcing rib are respectively engaged into said outer ball grooves of said intermediate sliding rail and reinforce the structural strength of said intermediate sliding rail; and
further comprising a top reinforcing component and a bottom reinforcing component respectively located on respective rear ends of said upper reinforcing rib and said lower reinforcing rib, said top reinforcing component and said bottom reinforcing component each having a portion thereof adapted for engagement with said outer ball grooves of said intermediate sliding rail respectively and an opposite portion thereof adapted for engagement with said inner ball grooves of said outer sliding rail respectively.