CN117430000B - Auxiliary rack-mounting device for rack-mounted server - Google Patents

Abstract

The invention discloses an auxiliary rack-mounted installation device of a rack-mounted server, which comprises: a fixing part, a lifting part and a bearing part; the fixing portion includes: a connecting member and a moving frame; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate; the movable frame is connected with the lifting part, and when the movable frame moves along the first direction of the top plate of the cabinet, the lifting part synchronously moves in and out of the cabinet; the lifting part is connected with the bearing part, the bearing part is used for bearing the server, and the lifting part is used for lifting the bearing part to different heights of the rack-mounted server. The auxiliary upper rack mounting device is fixed on the cabinet top plate through the fixing part, and the lifting part connected with the movable frame and the bearing part connected with the lifting part can enter and exit at one side of a cabinet door of the cabinet through the movement of the movable frame on the cabinet top plate, so that the server is mounted at a preset height, and the server mounting device is simple to use and applicable to the mounting of multiple types of servers.

Description

Auxiliary rack-mounting device for rack-mounted server

Technical Field

The application relates to the field of server assembly, in particular to an auxiliary rack-mounted installation device for a rack-mounted server.

Background

Rack servers are a common server format that is widely used in data centers and enterprise networks. The device has the advantages of high performance, strong reliability, easy management and maintenance, and the like, and is widely used. Rack servers typically have a large volume and weight, requiring multiple people to cooperate to complete the installation. Because rack servers need to be installed in racks, which are typically located at a higher elevation, ladders or other auxiliary tools are required to complete the installation, increasing safety risks.

Currently, installation is performed by using specialized server installation tools or using manual assistance tools. Professional server installation tools are generally large and complex to operate, and rack-mounted servers have limited installation space, so that the tools are not suitable for small data centers or enterprises. The manual auxiliary tool needs to be cooperated by multiple people, and the efficiency is low.

Disclosure of Invention

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present invention more readily apparent.

The embodiment of the invention provides an auxiliary rack-mounted installation device of a rack-mounted server, which comprises the following components: a fixing part, a lifting part and a bearing part;

the fixing portion includes: a connecting member and a moving frame; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate;

the movable frame is connected with the lifting part, and when the movable frame moves along the first direction of the cabinet top plate, the lifting part synchronously moves in and out of the cabinet;

the lifting part is connected with the bearing part, the bearing part is used for bearing the server, and the lifting part is used for lifting the bearing part to different heights of the rack-mounted server.

Optionally, the connector comprises: the sucking disc and the chute;

the sucking disc is arranged on one surface of the sliding groove and used for sucking the sliding groove on the top plate of the cabinet; the sliding groove is arranged along a first direction of the cabinet top plate.

Optionally, the moving frame includes: the cross beam and the slide rail;

the sliding rail is arranged at the bottom of the cross beam and used for moving in the sliding groove.

Optionally, the beam includes: a first section, a second section, and a third section;

the first branch and the second branch are respectively arranged at two sides of the cabinet top plate and are used for moving on the cabinet top plate through the sliding rail;

one end of the third part is fixedly connected with one end of the first part, and the other end of the third part is fixedly connected with one end of the second part.

Optionally, the moving frame further includes: a sleeve and a loop bar;

two ends of the third subsection are respectively provided with a sleeve, and the sleeves are vertical to the third subsection in the vertical direction;

one end of the sleeve is fixedly connected with the third subsection, and the other end of the sleeve is movably connected with the loop bar.

Optionally, a plurality of rows of through holes are respectively arranged at the corresponding positions of the sleeve and the loop bar;

the lifting part is connected with the loop bar, and the sleeve and the loop bar are connected through bolts passing through the through holes; the bolt adjusts the distance between the lifting part and the moving frame by passing through different through holes of the sleeve and the loop bar.

Optionally, the lifting part includes: the mounting frame, the bearing, the winding drum and the steel wire;

The installation frame is square hollow frame, the bearing is installed in the installation frame, the reel sets up on the bearing, the one end winding of steel wire is in on the reel, the other end of steel wire is connected the carrier part.

Optionally, the through shaft of the winding drum is rotatably connected with the bearing, one end of the through shaft of the winding drum is connected with a crank, and the crank is used for controlling the winding drum to rotate.

Optionally, two annular grooves are respectively arranged at two ends of the winding drum;

the steel wire is wound in the annular groove, and the depth of the annular groove is matched with the length of the steel wire.

Optionally, a hook is arranged at the other end of the steel wire;

hanging rings are arranged at four corners of the bearing part; the other end of the steel wire is connected with the hanging ring of the bearing part through the hook, and the bearing part is connected with the lifting part.

Optionally, the steel wires connected with the two hanging rings at the same side of one end of the winding drum in the bearing part are respectively arranged in the two annular grooves at one end of the winding drum, and the steel wires connected with the two hanging rings at the same side of the other end of the winding drum in the bearing part are respectively arranged in the two annular grooves at the other end of the winding drum.

Optionally, four fixed pulleys are symmetrically arranged at the bottom of the installation frame;

four steel wires pulled out from the winding drum respectively pass through the fixed pulleys and are connected with the bearing part.

Optionally, the mounting frame includes: a first side plate, a second side plate, a third side plate and a fourth side plate;

the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected to form a square hollow frame;

the first side plate is parallel to the third side plate, the second side plate is parallel to the fourth side plate, and two ends of the bearing are respectively arranged in the middle of the first side plate and the third side plate;

and the through shaft is rotationally connected with the winding drum on the bearing.

Optionally, a mounting hole is formed in a position, corresponding to the bearing, on the third side plate;

one end of a crank passes through the mounting hole and is connected with the through shaft of the winding drum, and the crank is used for driving the winding drum to rotate.

Optionally, the width of the carrying part is smaller than the width of the cabinet.

The invention discloses an auxiliary rack-mounted installation device of a rack-mounted server, which comprises a fixing part, a lifting part and a bearing part; the fixing portion includes: a connecting member and a moving frame; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate; the movable frame is connected with the lifting part, and when the movable frame moves along the first direction of the top plate of the cabinet, the lifting part synchronously moves in and out of the cabinet; the lifting part is connected with the bearing part, the bearing part is used for bearing the server, and the lifting part is used for lifting the bearing part to different heights of the rack-mounted server. The utility model provides an assist rack-mounted installation device of rack-mounted server is fixed in the rack roof through the fixed part in this application, through the activity of moving the frame at the rack roof, make the lifting unit who is connected with moving the frame and the loading part that is connected with lifting unit can business turn over in cabinet door one side of rack, when moving the frame and pulling out, after moving the frame and moving along first direction activity promptly, loading part and lifting unit pull out the rack in step, loading part can bear the server, along with the height adjustment of lifting unit to loading part, adjust loading part to rack-mounted server's installation height, at this moment, through the activity of moving the frame, make loading part get into the rack, install the server in predetermineeing the height. The auxiliary rack-mounted installation device for the rack-mounted server is small in size and simple to use, and can be suitable for installation of multiple types of servers, and the installation efficiency is improved.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present invention more readily apparent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 shows an auxiliary rack-mounted device for rack-mounted servers according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a pulled-out state of a moving frame according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a reset state of a moving frame according to an embodiment of the present invention;

fig. 4 is a diagram of a lifting part according to an embodiment of the present invention.

Reference numerals:

11-fixed parts, 111-movable frames, 112-suckers, 113-sleeves, 114-loop bars, 115-sliding grooves, 116-sliding rails, 12-lifting parts, 13-bearing parts, 121-hooks, 122-steel wires, 123-fixed pulleys, 124-crank handles, 125-reels, 126-mounting frames, 127-bearings and 20-cabinets; 21-cabinet door.

Detailed Description

Exemplary embodiments of the present invention, however, it should be understood that the present invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The following explains the scheme provided by the embodiment of the application related to the rack server.

Rack mounted servers look like computers, but rather switches, and have gained popularity in recent years due to their standardized, customizable, and scalability advantages. The high performance demands have also led rack-mounted servers to become increasingly larger in size from 1U, 2U to 4U, 8U, and heavier, which places higher demands on the handling and installation of the servers. The rack-mounted server is installed in a standard 19-inch cabinet, and the rack is as high as 2 meters, so that the quick and safe rack-mounted server is not small in technical problem. The rack server is installed in the cabinet and is directly fixed to the rack by adopting common fixing lugs and bolts, the hard connection is realized, the access machine room of the server equipment in the large-scale application scene such as the data center and the upper and lower racks are all completed by large-scale professional auxiliary equipment, but a plurality of rows of racks are tightly arranged in the data center machine room, the front channels of the racks are narrow, the large size of the auxiliary equipment and the length of a cable limit the use in a compact environment, and the forced use can damage the running server in the opposite rack, so that unnecessary loss is caused.

And for small-scale construction of a rack scene, the cost is greatly increased by using professional auxiliary equipment, so that the test installation and the test uninstallation of the server are completed by manual and non-professional auxiliary equipment. However, the greater the weight of the server, the higher the position of the server in the rack, the more difficult the installation process, and the unstable lifting easily occurs in the lifting process, so that structural members are damaged due to the fact that the server is not installed in place, and the dangers such as injury of staff are caused. Therefore, the application designs a rack-mounted server auxiliary rack-mounting device which is small in size and convenient to mount and use, so that the problems of large equipment size, inconvenience in use and high use cost in the existing rack-mounted server rack-mounting process are solved. The device simple structure, convenient operation can effectively improve rack-mounted server's installation effectiveness, reduces installation cost, and is concrete as follows.

Referring to fig. 1, an embodiment of the present invention provides an auxiliary rack-mounted device for rack-mounted servers, including: a fixing portion 11, a lifting portion 12, and a bearing portion 13; the fixing portion 11 includes: a link and a moving frame 111; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame 111 is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate; the movable frame 111 is connected with the lifting part 12, and when the movable frame 111 moves along the first direction of the top plate of the cabinet, the lifting part 12 synchronously moves in and out of the cabinet; the lifting part 12 is connected with the bearing part 13, the bearing part 13 is used for bearing the server, and the lifting part 12 is used for lifting the bearing part 13 to different heights of the rack-mounted server.

Specifically, the auxiliary rack-mounted mounting device of the rack-mounted server is detachable and flexible to use, when a server needs to be placed in a cabinet of the rack-mounted server, the fixing portion 11 is fixedly connected with a cabinet top plate of the rack-mounted server, the fixing portion 11 is used for fixing the auxiliary rack-mounted mounting device of the rack-mounted server on the cabinet top plate, and the fixing portion 11 comprises: a link and a moving frame 111; the connecting piece can be a part connected with the cabinet top plate, and the connecting piece can be connected with the cabinet top plate in a magnetic attraction and adhesion manner, so that the invention is not limited. By taking magnetic attraction connection as an example, when the cabinet is needed, the connecting piece can be magnetically attracted to the cabinet top plate, and after the cabinet top plate is used, the connecting piece can be separated from the cabinet top plate. The moving frame 111 is movably connected with the connecting piece, and is used for moving along a first direction of the top plate of the cabinet, wherein the first direction can be a direction perpendicular to a surface where the cabinet door is when the cabinet door is closed, namely, the first direction can be a direction in which the server enters and exits the cabinet door, and a user can pull out the moving frame outwards.

The moving frame 111 is connected to the lifting part 12, the lifting part 12 is connected to the carrying part 13, and the lifting part 12 is used for controlling the height of the carrying part 13 relative to the rack server so as to convey the server to racks with different heights.

Further, one side of the lifting part 12 is connected to the moving frame 111, and after the connection, the plane of the lifting part 12 is parallel to the plane of the moving frame 111. When the movable frame is in a non-pulled state, the lifting part is positioned in the cabinet and close to the top plate in the cabinet. A connecting member connected to the lifting part may be provided on a side of the moving frame 111 adjacent to the cabinet door, and the moving frame 111 is fixedly connected to the lifting part 12. The lifting part 12 is connected with the bearing part 13, for example, the lifting part 12 may be provided with a reel, on which a steel wire is provided, and the steel wire is connected with four corners of the bearing part, and at this time, the bearing part 13 can be driven to move up and down in the vertical direction by rotating the rotating shaft. Specifically, the lifting part 12 may include: mounting frame 126, bearings 127, reel 125 and wire 122; the installation frame 126 is square cavity frame, and bearing 127 installs in installation frame 126, sets up the middle part position at two curb plates that are opposite of installation frame, and bearing 127 is used for installing reel 125, and reel 125 sets up on bearing 127, and the one end winding of steel wire 122 is on reel 125, and the rotation of reel can change the length of releasing the steel wire, and the carrier 13 is connected to the other end of steel wire 122, through the rotation of reel, adjusts the length of steel wire for carrier 13 can reciprocate in the vertical direction.

For example, when a server needs to be installed in the cabinet 20, firstly, the connecting piece of the fixing portion 11 is adsorbed and fixed on the top of the cabinet 20, the distance between the surface of the moving frame and the surface of the lifting portion is adjusted according to the thickness of the top plate of the cabinet, so that the lifting portion 12 can enter the cabinet, the moving frame 111 moves on the connecting piece along the first direction, the moving frame is pulled out to one side of the cabinet door, the carrying portion 13 is lowered to the ground through the lifting operation of the lifting portion, the server is placed on the carrying portion 13, then the carrying portion 13 is lifted through the operation of the lifting portion, after the lifting portion rises to the designated height for installing the server, the moving frame is pushed inwards in the opposite direction to the pulling out, at this time, the lifting portion 12 and the carrying portion 13 are both located in the cabinet, the designated height in the cabinet is provided with a clamping groove for fixing the server, after the server is placed in the clamping groove, the carrying portion 13 and the fixing portion 11 are removed, and when the next server needs to be installed, the top plate is placed on the top plate for installing the server.

The movable frame in this application can be swiftly fixed at the frame top through strong magnetic chuck, and the installation is swift high-efficient to the movable frame can be realized the business turn over in cabinet door one side of rack, realizes server mechanical sliding formula business turn over rack. The lifting of the bearing part is controlled through the winding drum winding steel wire, so that the server on the bearing part is controlled to carry out height adjustment according to the installation position, and the movement of two dimensions of the X axis (first direction) and the Z axis direction (cabinet height direction) of the server is realized. The overall size of the movable frame is smaller than that of the cabinet, and the movable frame is suitable for various cabinet installation servers. The auxiliary rack-mounted installation device for the rack-mounted server is small in size and convenient to carry and use. Can improve rack-mounted server's installation effectiveness, reduce installation time and cost, can simplify rack-mounted server's installation, reduce the difficulty of installation, can reduce rack-mounted server's installation risk, improve the security, have simple structure and convenient operation, easily use, be applicable to small-size data center and enterprise, satisfy the installation demand of different scales.

In summary, the invention discloses an auxiliary rack-mounted installation device for a rack-mounted server, which comprises a fixing part, a lifting part and a bearing part; the fixing portion includes: a connecting member and a moving frame; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate; the movable frame is connected with the lifting part, and when the movable frame moves along the first direction of the top plate of the cabinet, the lifting part synchronously moves in and out of the cabinet; the lifting part is connected with the bearing part, the bearing part is used for bearing the server, and the lifting part is used for lifting the bearing part to different heights of the rack-mounted server. The utility model provides an assist rack-mounted installation device of rack-mounted server is fixed in the rack roof through the fixed part in this application, through the activity of moving the frame at the rack roof, make the lifting unit who is connected with moving the frame and the loading part that is connected with lifting unit can business turn over in cabinet door one side of rack, when moving the frame and pulling out, after moving the frame and moving along first direction activity promptly, loading part and lifting unit pull out the rack in step, loading part can bear the server, along with the height adjustment of lifting unit to loading part, adjust loading part to rack-mounted server's installation height, at this moment, through the activity of moving the frame, make loading part get into the rack, install the server in predetermineeing the height. The auxiliary rack-mounted installation device for the rack-mounted server is small in size and simple to use, and can be suitable for installation of multiple types of servers, and the installation efficiency is improved.

Optionally, referring to fig. 1 and 2, the connector comprises: suction cups 112 and runners 115; the sucking disc 112 is arranged on one surface of the chute 115 and is used for sucking the chute 115 to the top plate of the cabinet; the chute 115 is disposed along a first direction of the cabinet ceiling.

Specifically, referring to fig. 1 and 2, the connector includes: the sucker 112 and the chute 115, the sucker 112 is arranged on one surface of the chute 115 facing the cabinet top plate, the chute 115 can be fixedly arranged on the cabinet top plate through the sucker 112, for example, two chutes 115 can be arranged on two sides of the cabinet top plate, the arrangement direction of the chute 115 is the first direction, at this time, the position of the movable frame 111 corresponding to the chute 115 can be provided with a sliding rail, the movable frame 111 can be movably arranged in the sliding rail, and the sliding rail of the movable frame 111 slides in the chute 115 so that the movable frame can slide along the first direction.

Further, in order to ensure the connection stability of the movable frame 111 and the connecting piece, a plurality of sliding grooves may be provided, so that the movable frame can bear a larger weight, and the server is prevented from falling off in the installation process, so that the server is prevented from being damaged. For example, three sliding grooves can be formed, all the three sliding grooves are formed along the first direction, the moving frame can be correspondingly provided with three sliding rails, and the three sliding rails are respectively arranged in the three sliding grooves. The present invention is not limited in this regard.

In addition, the suction cup 112 in the present application may be a ferromagnetic suction cup, which has a magnetic attraction function. Can be used for various occasions such as guide rails of machine tools, manipulators, sliding grooves of automatic lines and the like. When the strong magnetic chuck is placed in the strong magnetic field area, the metal part of the strong magnetic chuck is attracted to the working surface due to strong attraction force generated by electromagnetic induction, and the strong magnetic chuck can be used for ensuring the stable nails connected between the rack-mounted server auxiliary rack-mounted mounting device and the cabinet, so that the safety of the mounted server is ensured.

Alternatively, the moving frame 111 includes: cross beams and slide rails 116; a slide rail 116 is provided at the bottom of the cross beam for movement within a chute 115.

Specifically, referring to fig. 1 and 2, the moving frame 111 includes: the cross beam and the slide rail 116, the cross beam is used for constituting the moving frame body structure, and the slide rail 116 is used for setting up in the one side of cross beam towards the rack roof for the moving frame can follow the first direction and remove. Taking two slide rails 116 as an example, the two slide rails 116 are respectively arranged at the bottom of the cross beam in the first direction, and correspond to the positions of the slide grooves arranged on the top plate of the cabinet, and the two slide rails 116 are respectively arranged in the slide grooves of the top plate of the cabinet, so that the movable frame can be driven by the slide rails to move.

Referring to fig. 2 and 3, fig. 2 shows a drawing state schematic diagram of a moving frame provided by the embodiment of the present invention, and fig. 3 shows a resetting state schematic diagram of a moving frame provided by the embodiment of the present invention, when a server needs to be installed in a rack 20, the moving frame is drawn out to a cabinet door side by moving a slide rail of the moving frame 111 along a slide groove in a first direction, and after a carrying part 13 is raised to a designated height for installing the server, the moving frame 111 is pushed inwards in the first direction along the slide groove in a reverse direction, so that the server can be placed on a designated rack of a rack-type server.

In the present application, one side of the lifting portion 12 is connected to the moving frame 111, and after the connection, the plane in which the lifting portion 12 is located is parallel to the plane in which the moving frame 111 is located. When the movable frame is in a non-pulled state, the lifting part is positioned in the cabinet and close to the top plate in the cabinet. A connecting member connected to the lifting part may be provided on a side of the moving frame 111 adjacent to the cabinet door, and the moving frame 111 is fixedly connected to the lifting part 12. The lifting part 12 is connected with the bearing part 13, for example, the lifting part 12 may be provided with a reel, on which a steel wire is provided, and the steel wire is connected with four corners of the bearing part, and at this time, the bearing part 13 can be driven to move up and down in the vertical direction by rotating the rotating shaft. The utility model provides an assist rack-mounted installation device of rack-mounted server is fixed in the rack roof through the fixed part in this application, through the activity of moving the frame at the rack roof, make the lifting unit who is connected with moving the frame and the loading part that is connected with lifting unit can business turn over in cabinet door one side of rack, when moving the frame and pulling out, after moving the frame and moving along first direction activity promptly, loading part and lifting unit pull out the rack in step, loading part can bear the server, along with the height adjustment of lifting unit to loading part, adjust loading part to rack-mounted server's installation height, at this moment, through the activity of moving the frame, make loading part get into the rack, install the server in predetermineeing the height. The auxiliary rack-mounted installation device for the rack-mounted server is small in size and simple to use, and can be suitable for installation of multiple types of servers, and the installation efficiency is improved. The auxiliary rack-mounted installation device for the rack-mounted server is small in size and convenient to carry and use. Can improve rack-mounted server's installation effectiveness, reduce installation time and cost, can simplify rack-mounted server's installation, reduce the difficulty of installation, can reduce rack-mounted server's installation risk, improve the security, have simple structure and convenient operation, easily use, be applicable to small-size data center and enterprise, satisfy the installation demand of different scales.

Optionally, the beam comprises: a first section, a second section, and a third section; the first branch part and the second branch part are respectively arranged at two sides of the cabinet top plate and are used for moving on the cabinet top plate through the sliding rail; one end of the third part is fixedly connected with one end of the first part, and the other end of the third part is fixedly connected with one end of the second part.

Specifically, referring to fig. 1 and 2, the cross member constituting the moving frame includes: a first section, a second section, and a third section; the first branch and the second branch are respectively arranged at two sides of the cabinet top plate and are used for arranging sliding rails and moving in the sliding grooves along the first direction in the cabinet top plate through the sliding rails. One end of the third part is fixedly connected with one end of the first part, the other end of the third part is fixedly connected with one end of the second part to form a movable frame body which is prone to be regarded as a C shape, wherein the third part can be used as a handle, a user can pull the movable frame 111 to one side of a cabinet door by pulling the third part, and the movable frame can be reset to the top plate of the cabinet by pushing the third part. The lengths of the first section, the second section and the third section can be set according to actual requirements, and the embodiments of the present application are not limited herein.

Further, the connection mode between the one end of third branch and first branch, the one end of second branch can be swing joint, first branch, second branch and third branch can be provided with the through-hole respectively, the one end of third branch passes through-hole fixed connection with the one end of first branch through the bolt, the other end of third branch passes through-hole fixed connection with the one end of second branch through the bolt, in order to satisfy different service scenarios, for example the width of rack is narrower, can set up a plurality of through-holes on the third branch, through the hookup location of the one end of first branch or the one end of second branch and the through-hole on the third branch, adjust the distance between first branch and the second branch, make the device of this application can satisfy the user demand of different scenarios.

Optionally, the moving frame 111 further includes: a sleeve 113 and a stem 114; two ends of the third subsection are respectively provided with a sleeve 113, and the sleeves 113 are vertical to the third subsection in the vertical direction; one end of the sleeve 113 is fixedly connected with the third part, and the other end of the sleeve 113 is movably connected with the loop bar 114.

Specifically, referring to fig. 1 and 2, the moving frame 111 further includes: a sleeve 113 and a stem 114; the sleeve 113 may be fixedly connected to the moving frame, the sleeve 113 may be disposed in a vertical direction, and the loop bar 114 is used to connect the sleeve of the moving frame and the lifting part 12.

Further, one end of the sleeve 113 is fixedly connected with the third section, the sleeve 113 may be provided with a mounting hole mounted with the third section, and the sleeve 113 may be fixedly connected with the third section by penetrating through the mounting hole with a bolt, or the sleeve may be adhered to a preset position of the third section, or the sleeve 113 may be integrally formed with the third section, so as to ensure the stability of connection.

The other end of the sleeve 113 is movably connected with the loop bar 114, the sleeve 113 can be provided with a plurality of through holes, the loop bar 114 can also be provided with a plurality of through holes, and the positions of the through holes for connecting the sleeve 113 with the loop bar 114 can be freely selected so as to meet the installation requirements of cabinet top plates with different thicknesses.

Alternatively, the corresponding positions of the sleeve 113 and the stem 114 are provided with a plurality of rows of through holes, respectively; the lifting part 12 is connected with the loop bar 114, and the sleeve 113 and the loop bar 114 are connected through the through holes by bolts; the bolts adjust the distance between the lifting part 12 and the moving frame 111 by different through holes passing through the sleeve 113 and the stem 114.

Specifically, referring to fig. 1, the corresponding positions of the sleeve 113 and the stem 114 are provided with a plurality of rows of through holes, respectively; the lifting part 12 is movably connected with the loop bar 114, the sleeve 113 and the loop bar 114 are connected through the through holes by bolts, the lifting part is connected at the through holes of the loop bar 114, and the distance between the lifting part 12 and the movable frame 111 is adjusted by adjusting the connection position of the lifting part and the through holes of the loop bar 114.

Further, the loop bar 114 and the lifting part 12 may be integrally formed components, and in this case, the distance between the lifting part 12 and the moving frame 111 is adjusted by adjusting the connection of the sleeve 113 and the loop bar 114.

That is, the bolts pass through different through holes of the sleeve 113 and the loop bar 114, and the distance between the lifting part 12 and the movable frame 111 is adjusted, so that the lifting part can enter and exit the cabinet, and the server installation requirements of the top plates of the cabinets with different thicknesses are met.

Alternatively, the lifting part 12 includes: mounting frame 126, bearings 127, reel 125 and wire 122;

the mounting frame 126 is a square hollow frame, the bearing 127 is mounted in the mounting frame 126, the reel 125 is arranged on the bearing 127, one end of the steel wire 122 is wound on the reel 125, and the other end of the steel wire 122 is connected with the bearing part 13.

Specifically, referring to fig. 1 and 4, the lifting unit 12 includes: mounting frame 126, bearings 127, reel 125 and wire 122; the installation frame 126 is square cavity frame, and bearing 127 installs in installation frame 126, sets up the middle part position at two curb plates that are opposite of installation frame, and bearing 127 is used for installing reel 125, and reel 125 sets up on bearing 127, and the one end winding of steel wire 122 is on reel 125, and the rotation of reel can change the length of releasing the steel wire, and the carrier 13 is connected to the other end of steel wire 122, through the rotation of reel, adjusts the length of steel wire for carrier 13 can reciprocate in the vertical direction.

According to the method, the inverted C-shaped movable frame is installed at the top of the cabinet where the server is required to be installed, the inverted C-shaped movable frame is quickly and efficiently fixed at the top of the rack through the strong magnetic chuck, the inverted C-shaped frame can pass through the sliding groove and the sliding rail device to realize the access of one side of the cabinet door of the cabinet, the mechanical sliding type access of the cabinet of the server is realized, the winding drum rolling steel wire is used for controlling the lifting of the bearing part of the bearing server, the server on the bearing part is controlled to be adjusted according to the height of the installation position, the movement of two dimensions of the X axis (first direction) and the Z axis (height direction) of the server is realized, the server is conveniently and laborsaving to enter the cabinet to be installed in an upper frame, the whole size of the inverted C-shaped movable frame is smaller than that of the cabinet, the method is applicable to various cabinet installation servers, the structure is small, the structure is flexible, the use is simple, the cost is low, and the use cost is low.

Optionally, the through shaft of the reel 125 is rotatably connected to a bearing 127, and one end of the through shaft of the reel 125 is connected to a crank 124 for controlling the rotation of the reel.

Specifically, referring to fig. 1 and 4, the through shaft of the drum 125 is rotatably connected with the bearing 127, one end of the through shaft of the drum 125 is connected with the crank 124, and the crank is used for controlling the drum 125 to rotate, and the drum 125 rotates to drive the bearing part 13 to move up and down, so as to place the server on the racks with different heights.

Optionally, two annular grooves are respectively arranged at two ends of the winding drum 125; the steel wire is wound in the annular groove, and the depth of the annular groove is matched with the length of the steel wire.

Specifically, the spool 125 is provided with four annular grooves; four steel wires can set up respectively in four annular grooves, the degree of depth of recess can with the length adaptation of steel wire for restrict the activity space of steel wire, when the crank rotates, along with the rotation of reel 125, the steel wire can be released and make carrier 13 descend, perhaps withdraw the steel wire, make carrier 13 rise. If the surface of the drum is smooth, rotation of the drum may cause the wire to slip on the surface of the drum or even to come off the surface of the drum. Therefore, in order to avoid sliding of the steel wires on the surface of the winding drum 125, four grooves can be formed in the surface of the winding drum 125, and the steel wires connected with the four corners of the bearing part 13 can be respectively wound in the four grooves, so that each steel wire corresponds to an independent groove, entanglement of different steel wires in the moving process is avoided, and smooth winding and unwinding of the steel wires is ensured.

In addition, two grooves can be formed on the surface of the winding drum 125, namely, two grooves are respectively formed at two ends of the winding drum, and the steel wires at the same end of the winding drum share one groove, so that the limitation of the movable space of the steel wires is realized. The embodiments of the present invention are not limited herein.

Alternatively, the other end of the wire 122 is provided with a hook 121; hanging rings are arranged at four corners of the bearing part 13, and the other ends of the steel wires 122 are connected with the hanging rings of the bearing part 13 through hooks 121 to connect the bearing part 13 with the lifting part 12.

Specifically, referring to fig. 1 and 4, the other end of the steel wire 122 is provided with hooks 121, four corners of the bearing part 13 are provided with hanging rings, and the hooks and the hanging rings can be movably connected, so that the lifting part 12 can lift the bearing part 13 through rotation of the crank to the winding drum.

Further, the other end of the steel wire 122 is provided with a hook 121 for being connected with hanging rings at four corners of the bearing part, when the hanging rings are used, the hook can be detached from the hanging rings after the hanging rings are used, so that the bearing part is detached, and further, the hook and the hanging rings are movably connected, so that the bearing part can be replaced according to actual use requirements, different bearing parts can be provided with different length and width designs, and the bearing part can realize bearing functions of servers with different sizes.

The process of installing and using the rack server auxiliary rack-mounted installation device and disassembling the rack server auxiliary rack-mounted installation device in actual use can comprise the following steps: when the server needs to be installed in the cabinet 20, firstly, the chute 115 is adsorbed and fixed on the top of the cabinet 20 through the suction cup 112, according to the thickness of the top plate of the cabinet, the distance between the surface of the movable frame and the surface of the lifting part is adjusted through adjusting the heights of the sleeve 1.5 and the sleeve rod 1.6, so that the lifting part 12 can stably enter the cabinet 20, the C-shaped movable frame 111 is pulled, the movable frame is pulled out to one side of the cabinet door, the hooks 121 at one end of the four steel wires 122 are hooked on the hanging rings at the four corners of the bearing part 13, the rocking crank 124 controls the bearing part 13 to descend, the server is placed on the bearing part 13, the rocking crank 124 reversely controls the bearing part 13 to lift the server to the designated installation height, the movable frame 111 is pushed inwards, the server is controlled to enter the cabinet 20 through one side of the cabinet door 21, after the installation of the server is completed, the connection between the hooks 122 and the hanging rings is detached, the bearing part 13 is detached, the suction cup 112 is detached, and the server installation is completed. When the next server to be installed is encountered, the fixing portion is installed on the top plate of the cabinet where the server is to be placed in the above manner.

Optionally, the steel wires connected with the two hanging rings at the same side of one end of the winding drum in the bearing part are respectively arranged in the two annular grooves at one end of the winding drum, and the steel wires connected with the two hanging rings at the same side of the other end of the winding drum in the bearing part are respectively arranged in the two annular grooves at the other end of the winding drum.

Specifically, referring to fig. 4, the spool 125 is provided with four annular grooves; wherein, two annular grooves set up in the one end of reel, two other annular grooves set up in the other end of reel 125, four steel wires are fixed respectively to be set up in four annular grooves, wherein, two steel wires that are close to the crank can set up in two annular grooves that are close to the crank, two other steel wires that keep away from the crank can set up in two other annular grooves that keep away from the crank, in order to avoid the steel wire to slide on the surface of reel 125, guide the neat winding of steel wire on the reel, guarantee that the position of steel wire can not change easily at the reel, guarantee the security of server installation, can avoid interweaving winding or friction damage each other between the steel wire simultaneously, the life of extension steel wire. The end of the steel wire and the winding drum can be fixed by means of a clamp or threads, etc., and the embodiment of the application is not limited herein. In addition, because the included angle between the steel wire and the bearing part is too small, the steel wire can be sheared and deformed in friction, and the steel wire is broken. Therefore, the steel wire is connected to the two ends of the winding drum, the included angle between the steel wire and the bearing part is properly increased, and the safety and stability of the hoisting server are guaranteed.

Alternatively, four fixed pulleys 123 are symmetrically arranged at the bottom of the mounting frame 126, and four steel wires 122 pulled out from the winding drum respectively pass through the fixed pulleys 123 and are connected with the bearing part 13.

Specifically, the central shaft of the fixed pulley is fixed. The fixed pulley has the function of changing the direction of force, but can not save labor. When the weight is pulled, the force application direction can be converted into a direction easy to be pulled out by using the fixed pulley. The bottom of installing frame 126 is provided with fixed pulley 123, and the number of fixed pulley can be 4, and the fixed pulley can set up in four angles departments of installing frame 126, and the distance of fixed pulley from the curb plate of installing frame can set up according to actual demand, and this application embodiment does not do not limit here. In actual use, in order to make things convenient for hard more, can change the direction of force through the fixed pulley, through the cooperation of fixed pulley and steel wire, reduce the degree of difficulty that the server goes up and down.

Optionally, the mounting frame 126 includes: a first side plate, a second side plate, a third side plate and a fourth side plate; the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected to form a square hollow frame; the first side plate is parallel to the third side plate, the second side plate is parallel to the fourth side plate, and two ends of the bearing 127 are respectively arranged in the middle of the first side plate and the third side plate; the through shaft of the reel is rotationally connected on the bearing.

Specifically, referring to fig. 4, the mounting frame 126 includes: a first side plate, a second side plate, a third side plate and a fourth side plate; the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected to form a square hollow frame; the first side plate, the second side plate, the third side plate and the fourth side plate can be movably connected or fixedly connected, and the first side plate, the second side plate, the third side plate and the fourth side plate can be of an integrated structure.

The first side plate is parallel to the third side plate, the second side plate is parallel to the fourth side plate, the first side plate and the third side plate are provided with mounting holes for mounting bearings, the mounting holes can be formed in the middle of the first side plate and the third side plate, and two ends of the bearings 127 are respectively arranged in the middle of the first side plate and the middle of the third side plate. The through shaft of the winding drum 125 is rotationally connected with the bearing 127, one end of the through shaft of the winding drum 125 is connected with the crank 124, the crank is used for controlling the winding drum 125 to rotate, the winding drum 125 rotates to drive the bearing part 13 to move up and down, and the server is placed on racks with different heights. According to the lifting server, the first side plate, the second side plate, the third side plate and the fourth side plate form the winding drum frame for assembling the winding drum, the winding drum is arranged on the two opposite side plates of the winding drum frame, lifting of the bearing part is achieved through matching of the winding drum and the steel wire, and the lifting server can be safely and accurately lifted in a small space, so that working efficiency and safety are improved.

Optionally, a mounting hole is formed in a position, corresponding to the bearing, on the third side plate; one end of a crank 124 is connected to the through shaft of the spool 125 through a mounting hole, and the crank is used to rotate the spool.

Specifically, referring to fig. 4, the third side plate is provided with a mounting hole; one end of the crank 124 passes through the mounting hole and is connected with the through shaft of the winding drum 125, and the crank 124 is rocked to drive the winding drum 125 to rotate on the bearing 127, so that the length of the steel wire 122 wound on the winding drum is changed, the bearing part 13 connected with the steel wire moves up and down in the vertical direction, and the server is placed on the racks with different heights. The cooperation design of crank and reel is adopted in this application, and simple structure is easy to operate, and the operation of turning to the crank is comparatively easy to control the lifting height and the upgrading speed of loading part, has promoted the security and the convenience of operation.

When the server needs to be installed in the cabinet 20, the process of controlling the lifting of the bearing part through the crank can be that firstly, the chute 115 is adsorbed and fixed on the top of the cabinet 20 through the sucker 112, according to the thickness of the top plate of the cabinet, the distance between the surface of the moving frame and the surface of the lifting part is adjusted through adjusting the height of the sleeve 1.5 and the sleeve rod 1.6, so that the lifting part 12 can stably enter the cabinet 20, the C-shaped moving frame 111 is pulled, the moving frame is pulled out to one side of the cabinet door, the hooks 121 at one end of the four steel wires 122 are hooked on the hanging rings at four corners of the bearing part 13, the crank 124 is rocked to control the bearing part 13 to descend, the server is placed on the bearing part 13, the crank 124 is rocked reversely to control the bearing part 13 to lift the server to the designated installation height, the moving frame 111 is pushed inwards, the server is controlled to enter the cabinet 20 through one side of the cabinet door 21, after the installation of the server is completed, the connection between the hooks of the steel wires 122 and the hanging rings, and the bearing part 13 and the sucker 112 are pulled down, and the server installation is completed. When the next server to be installed is encountered, the fixing portion is installed on the top plate of the cabinet where the server is to be placed in the above manner.

Optionally, the width of the carrying portion 13 is smaller than the width of the cabinet 20.

Specifically, the width of the carrying portion 13 is smaller than the width of the cabinet 20, the width of the cabinet 20 may be the length of the cabinet in the second direction, the second direction is the direction perpendicular to the first direction, that is, the direction parallel to the top plate of the cabinet with the front of the cabinet as a reference, and the width of the carrying portion 13 may be smaller than the width of the cabinet 20, so that after the server is mounted on the rack, the carrying portion 20 is conveniently detached, and when the cabinet is narrower, the use requirement can be met. The guide rail for fixing the server is arranged at each layer of rack in the cabinet, so that the width of the bearing part 13 can be smaller than that of the cabinet 20, so that when the bearing part rises to the position of the rack, the bearing part can not contact with the guide rail, and after the server is installed on the guide rail, the bearing part can be smoothly disassembled.

The auxiliary rack-mounted installation device for the rack-mounted server is small in size and convenient to carry and use. Can improve rack-mounted server's installation effectiveness, reduce installation time and cost, can simplify rack-mounted server's installation, reduce the difficulty of installation, can reduce rack-mounted server's installation risk, improve the security, have simple structure and convenient operation, easily use, be applicable to small-size data center and enterprise, satisfy the installation demand of different scales.

In addition, the design concept of the rack server auxiliary rack mounting device can be applied to the mounting of other equipment, such as network equipment, storage equipment and the like, and the application range of the rack server auxiliary rack mounting device is enlarged. Or the design concept of the rack server auxiliary rack mounting device is applied to other fields, such as the mounting of industrial equipment, the mounting of medical equipment and the like, and the commercial application field of the rack server auxiliary rack mounting device is expanded. Or the design concept of the rack-mounted server auxiliary rack-mounted mounting device is applied to a home environment, such as the mounting of intelligent home equipment, so that the user experience and convenience are improved. Or the design concept of the rack-mounted server auxiliary on-rack mounting device is applied to the aerospace field, such as satellite mounting and maintenance, and the working efficiency and the safety are improved. Or the design concept of the rack-mounted server auxiliary rack-mounted mounting device is applied to the education field, such as the mounting and maintenance of multimedia equipment of schools, so that the teaching effect and the learning environment are improved. Or the design concept of the rack-mounted server auxiliary rack-mounted mounting device is applied to the medical field, such as the mounting and maintenance of medical equipment, so that the quality and the efficiency of medical service are improved. Or the design concept of the rack-mounted server auxiliary rack-mounted mounting device is applied to the energy field, such as the mounting and maintenance of a solar device, so that the development and the utilization of renewable energy sources are promoted. The method and the device are applicable to various fields, solve the installation problems in different fields, and have higher practicability.

Through this device, make the server convenient, laborsaving entering rack in carry out the overhead installation, be applicable to multiple rack installation server, the structure is small and exquisite, the installation is nimble, simple to use, the cost is low, use cost is low. In addition, the rack-mounted server auxiliary rack-mounted mounting device can be further optimized, and the rack-mounted server auxiliary rack-mounted device can be designed into a robot capable of automatically completing server mounting, so that the mounting efficiency is improved, and the labor cost is reduced. For example, the rack-mounted server auxiliary rack mounting device is combined with an intelligent management system, so that remote monitoring and control of the server are realized, and management and maintenance efficiency of the server is improved.

In summary, the invention discloses an auxiliary rack-mounted installation device for a rack-mounted server, which comprises a fixing part, a lifting part and a bearing part; the fixing portion includes: a connecting member and a moving frame; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate; the movable frame is connected with the lifting part, and when the movable frame moves along the first direction of the top plate of the cabinet, the lifting part synchronously moves in and out of the cabinet; the lifting part is connected with the bearing part, the bearing part is used for bearing the server, and the lifting part is used for lifting the bearing part to different heights of the rack-mounted server. The utility model provides an assist rack-mounted installation device of rack-mounted server is fixed in the rack roof through the fixed part in this application, through the activity of moving the frame at the rack roof, make the lifting unit who is connected with moving the frame and the loading part that is connected with lifting unit can business turn over in cabinet door one side of rack, when moving the frame and pulling out, after moving the frame and moving along first direction activity promptly, loading part and lifting unit pull out the rack in step, loading part can bear the server, along with the height adjustment of lifting unit to loading part, adjust loading part to rack-mounted server's installation height, at this moment, through the activity of moving the frame, make loading part get into the rack, install the server in predetermineeing the height. The auxiliary rack-mounted installation device for the rack-mounted server is small in size and simple to use, and can be suitable for installation of multiple types of servers, and the installation efficiency is improved.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type and not limited to the number of objects, e.g., the first object may be one or more.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention are included in the protection scope of the present invention.

Claims (14)

1. An auxiliary rack-mount installation device for a rack-mounted server, comprising: a fixing part, a lifting part and a bearing part;

the fixing portion includes: a connecting member and a moving frame; the connecting piece is used for being fixedly connected with a cabinet top plate of the rack-mounted server, and the movable frame is movably connected with the connecting piece and is used for moving along a first direction of the cabinet top plate;

the movable frame is connected with the lifting part, and when the movable frame moves along the first direction of the cabinet top plate, the lifting part synchronously moves in and out of the cabinet;

the lifting part is connected with the bearing part, the bearing part is used for bearing the server, and the lifting part is used for lifting the bearing part to different heights of the rack-mounted server;

the moving frame includes: a cross beam; the beam includes: a first section, a second section, and a third section; the first part, the third part and the second part are sequentially connected to form a C-shaped frame;

the moving frame further includes: a sleeve and a loop bar;

two ends of the third subsection are respectively provided with a sleeve, and the sleeves are vertical to the third subsection in the vertical direction;

One end of the sleeve is fixedly connected with the third subsection, and the other end of the sleeve is movably connected with the loop bar;

the lifting part is connected with the loop bar; the distance between the surface of the movable frame and the surface of the lifting part is adjusted by adjusting the connection position of the sleeve and the sleeve rod so as to match the thickness of the cabinet top plate;

the bearing part is detachably connected with the lifting part.

2. The rack server auxiliary racking installation apparatus of claim 1, wherein said connector comprises: the sucking disc and the chute;

the sucking disc is arranged on one surface of the sliding groove and used for sucking the sliding groove on the top plate of the cabinet; the sliding groove is arranged along a first direction of the cabinet top plate.

3. The rack server auxiliary racking installation apparatus of claim 2, wherein said moving frame comprises: a slide rail;

the sliding rail is arranged at the bottom of the cross beam and used for moving in the sliding groove.

4. A rack server auxiliary racking installation according to claim 3, wherein said first section and said second section are respectively disposed on either side of said cabinet ceiling for movement thereon by said slide rail;

One end of the third part is fixedly connected with one end of the first part, and the other end of the third part is fixedly connected with one end of the second part.

5. The rack server auxiliary rack mounting device according to claim 1, wherein a plurality of rows of through holes are provided at corresponding positions of the sleeve and the loop bar, respectively;

the sleeve and the loop bar are connected through the through hole by bolts; the bolt adjusts the distance between the lifting part and the moving frame by passing through different through holes of the sleeve and the loop bar.

6. The rack server auxiliary racking installation apparatus according to claim 1, wherein said elevating section comprises: the mounting frame, the bearing, the winding drum and the steel wire;

the installation frame is square hollow frame, the bearing is installed in the installation frame, the reel sets up on the bearing, the one end winding of steel wire is in on the reel, the other end of steel wire is connected the carrier part.

7. The rack server auxiliary racking installation apparatus according to claim 6, wherein the through shaft of the reel is rotatably connected to the bearing, and one end of the through shaft of the reel is connected to a crank for controlling the rotation of the reel.

8. The rack server auxiliary racking installation device according to claim 6, wherein two annular grooves are respectively arranged at two ends of the winding drum;

the steel wire is wound in the annular groove, and the depth of the annular groove is matched with the length of the steel wire.

9. The rack server auxiliary racking installation device according to claim 8, wherein the other end of the steel wire is provided with a hook;

hanging rings are arranged at four corners of the bearing part; the other end of the steel wire is connected with the hanging ring of the bearing part through the hook, and the bearing part is connected with the lifting part.

10. The rack server auxiliary racking installation apparatus of claim 9, wherein,

the steel wires connected with the two hanging rings on the same side of one end of the winding drum in the bearing part are respectively arranged in the two annular grooves on one end of the winding drum, and the steel wires connected with the two hanging rings on the same side of the other end of the winding drum in the bearing part are respectively arranged in the two annular grooves on the other end of the winding drum.

11. The rack server auxiliary racking installation apparatus according to claim 6, wherein four fixed pulleys are symmetrically arranged at the bottom of the installation frame;

Four steel wires pulled out from the winding drum respectively pass through the fixed pulleys and are connected with the bearing part.

12. The rack server auxiliary racking installation apparatus of claim 6, wherein said installation frame comprises: a first side plate, a second side plate, a third side plate and a fourth side plate;

the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected to form a square hollow frame;

the first side plate is parallel to the third side plate, the second side plate is parallel to the fourth side plate, and two ends of the bearing are respectively arranged in the middle of the first side plate and the third side plate;

and the through shaft is rotationally connected with the winding drum on the bearing.

13. The rack server auxiliary racking installation apparatus according to claim 12, wherein a mounting hole is provided at a position corresponding to the bearing on the third side plate;

one end of a crank passes through the mounting hole and is connected with the through shaft of the winding drum, and the crank is used for driving the winding drum to rotate.

14. The rack server auxiliary racking installation apparatus of claim 1, wherein the width of said carrier is less than the width of said cabinet.