CN220077568U

CN220077568U - Server disassembling line

Info

Publication number: CN220077568U
Application number: CN202321105217.XU
Authority: CN
Inventors: 李智专; 李志�; 郭子亮; 叶方园; 熊威
Original assignee: Inner Mongolia Xinchuang Resource Regeneration Co ltd; Wuhan Green Recycling Electronic Waste Disposal Co ltd
Current assignee: Inner Mongolia Xinchuang Resource Regeneration Co ltd; Wuhan Green Recycling Electronic Waste Disposal Co ltd
Priority date: 2023-05-09
Filing date: 2023-05-09
Publication date: 2023-11-24
Anticipated expiration: 2033-05-09

Abstract

The utility model relates to a server disassembling line, which comprises a conveying assembly and two material moving assemblies, wherein the conveying assembly comprises two conveying lines, bearing plates and a turntable, the two conveying lines are fixedly connected, conveying surfaces are formed at the tops of the two conveying lines, the conveying directions of the two conveying surfaces are parallel and reversely arranged, the turntable is horizontally arranged and rotationally connected with the corresponding bearing plates, the two material moving assemblies comprise material moving frames, lifting tables and pushing pieces, the two lifting tables are respectively and slidably connected with the two material moving frames along the direction vertical to the conveying surfaces, the two lifting tables can be respectively and fixedly connected to the position coplanar with any conveying surface, and the two pushing pieces are respectively connected with the two material moving frames; the problem of current line of disassembling is mostly belt type line of disassembling, simultaneously, server internals is many, and the part exists and need disassembles in proper order through a plurality of stations of disassembling to disassemble the in-process, stack the spare part arrangement mess on the line of disassembling of belt type, take inconvenient, influence disassemble efficiency is solved.

Description

Server disassembling line

Technical Field

The utility model relates to the technical field of server disassembly, in particular to a server disassembly line.

Background

Servers, also called servers, are devices that provide computer services. The computer is equivalent to a client for sending a request, and the server is used as a transfer station for receiving a service request and transmitting the service request to the server and a processor for processing the service, and has the capability of bearing the service and guaranteeing the service.

For example, a server and a server casing are proposed in CN201110378067.5, where the server casing includes a GPU graphics card and a server motherboard with a CPU, where a supporting board parallel to a bottom surface of the server and dividing an internal space of the server into an upper layer and a lower layer is disposed in the server, the server motherboard is installed in a space of one layer of the server, the GPU graphics card is installed in a space of another layer of the server, and the GPU graphics card is in communication with the server motherboard through a connection device disposed in the server.

The server is generally composed of a housing, a motherboard, a CPU, an internal memory, a hard disk drive, an adapter, a fan, and the like, and when the server is disassembled, the plurality of components are required to be recycled.

However, most of existing disassembling lines are belt-type disassembling lines, meanwhile, the number of parts in the server is large, and the parts are required to be disassembled in sequence through a plurality of disassembling stations, so that in the disassembling process, parts stacked on the belt-type disassembling lines are arranged in disorder, the taking is inconvenient, and the disassembling efficiency is affected.

Disclosure of Invention

In view of this, it is necessary to provide a server disassembling line for solve current disassembling line and most be the belt type disassembling line, simultaneously, server internals are many, and the part exists and need disassemble in proper order through a plurality of stations of disassembling, so that disassemble the in-process, stack the spare part arrangement messy on the belt type disassembling line, take inconvenient, influence the problem of disassembling efficiency.

The utility model provides a server disassembling line, which comprises a conveying assembly and two material moving assemblies, wherein the conveying assembly comprises two conveying lines, at least one bearing plate and a rotary table corresponding to the bearing plate one by one, the two conveying lines are fixedly connected, conveying surfaces are formed at the tops of the two conveying lines, the conveying directions of the two conveying surfaces are parallel and are reversely arranged, the bearing plate is placed on the conveying surface of one conveying line, the rotary table is horizontally arranged and is rotationally connected with the corresponding bearing plate, the two material moving assemblies comprise material moving frames, lifting frames and pushing pieces, one material moving frame, the two conveying lines and the other material moving frame are sequentially arranged along the conveying direction of one conveying surface, the two lifting frames are respectively connected with the two material moving frames in a sliding manner along the direction perpendicular to the conveying surface, the two lifting frames can be respectively slid to the position coplanar with any conveying surface, the two pushing pieces are respectively connected with the conveying lines, one pushing piece is arranged at the position opposite to the lifting frame, and the pushing piece is arranged at the position opposite to the other pushing piece, and the pushing piece is arranged at the pushing end opposite to the pushing end of the conveying line.

Further, two the transfer chain all includes carriage, a plurality of pivot and a plurality of delivery wheel, a plurality of pivot parallel arrangement just locates relatively the both sides of carriage, a plurality of the delivery wheel is installed respectively to a plurality of in the pivot, a plurality of the top of delivery wheel forms the transport face.

Further, the two conveying lines also comprise a driving piece, the driving piece is fixedly connected with the conveying frame, and the output end of the driving piece is connected with a plurality of rotating shafts and used for driving a plurality of rotating shafts to synchronously and co-rotate.

Further, the driving piece comprises a plurality of transmission shafts, a plurality of first bevel gears and a plurality of second bevel gears, wherein the transmission shafts are arranged in parallel with the rotating shafts, the transmission shafts are respectively arranged at positions between two adjacent rotating shafts in the rotating shafts, the first bevel gears are respectively arranged on the transmission shafts, the second bevel gears are respectively arranged on the rotating shafts, and each first bevel gear is respectively connected with two adjacent second bevel gears in a meshed manner.

Further, the driving piece further comprises two motors, the two motors are fixedly connected with the conveying frame, wherein the output end of one motor is connected with any rotating shaft positioned on one side of the conveying frame, and the output end of the other motor is connected with any rotating shaft positioned on the other side of the conveying frame.

Further, a groove is formed on the bearing plate, the turntable is arranged in the groove, a fixed shaft is fixedly connected to the center of the bottom of the turntable, and the fixed shaft is rotationally connected with the bearing plate.

Further, annular sliding grooves are formed in the top of the bearing plate, a plurality of sliding blocks are fixedly connected to the bottom of the rotary table along the circumferential direction, and the sliding blocks are in sliding connection with the annular sliding grooves.

Further, the material moving assembly further comprises a lifting cylinder, wherein the lifting cylinder is fixedly connected with the material moving frame and is arranged at the bottom of the lifting frame, and the output end of the lifting cylinder is connected with the lifting frame and is used for driving the lifting frame to slide.

Further, a plurality of guide rollers are arranged at the top of the lifting frame.

Further, the pushing piece comprises a pushing cylinder and a pushing plate, the pushing cylinder is fixedly connected with the material moving frame, the output end of the pushing piece is fixedly connected with the pushing plate, the pushing plate is arranged on one side, far away from the conveying line, of the lifting frame, and the pushing plate forms the pushing end.

Compared with the prior art, the server can be placed on the turntable, and the disassembled parts are sequentially placed along the circumference of the turntable, so that all the parts of a single server can be orderly placed, when an operator stands beside a conveying line, the turntable can be rotated to select the disassembled parts of the corresponding station, the taking is convenient, in order to realize the circulating conveying of the bearing plate, the conveying directions of the two conveying surfaces are parallel and reversely arranged, the two material moving assemblies comprise a material moving frame, a lifting frame and a pushing piece, the two lifting frames can slide to the position coplanar with any conveying surface and are used for bearing the bearing plate falling from the conveying line and move to the position opposite to another conveying line, and under the action of the pushing piece, the bearing plate is pushed onto the other conveying line, so that the circulating conveying process of the bearing plate is completed.

Drawings

Fig. 1 is a schematic top view of an entirety of a server disassembly line according to an embodiment of the present utility model;

fig. 2 is a front schematic view of the whole server disassembly line according to the embodiment of the present utility model;

fig. 3 is a schematic structural diagram of connection between a carrier plate and a turntable in a server disassembly line according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a driving member in a server disassembly line according to an embodiment of the present utility model.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1-2, the server disassembling line provided by the utility model comprises a conveying assembly 100 and two material moving assemblies 200, wherein the conveying assembly 100 comprises two conveying lines 110, at least one bearing plate 120 and a rotary table 130 corresponding to the bearing plates 120 one by one, the two conveying lines 110 are fixedly connected, conveying surfaces are formed on the tops of the two conveying lines 110, the conveying directions of the two conveying surfaces are parallel and reversely arranged, the bearing plates 120 are placed on the conveying surface of one conveying line 110, the rotary table 130 is horizontally arranged and is rotationally connected with the corresponding bearing plate 120, the two material moving assemblies 200 comprise a material moving frame 210, a lifting frame 220 and a pushing piece 230, one material moving frame 210, the two conveying lines 110 and the other material moving frame 210 are sequentially arranged along the conveying direction of one conveying surface, the two lifting frames 220 are respectively connected with the two material moving frames 210 in a sliding manner along the direction perpendicular to the conveying surface, the two lifting frames 220 can slide to the position coplanar with any conveying surface, the two pushing members 230 are respectively connected with the two material moving frames 210, one pushing member 230 is arranged at the position opposite to the feeding end of one conveying line 110, the other pushing member 230 is arranged at the position opposite to the feeding end of the other conveying line 110, and the moving paths of the pushing ends of the two pushing members 230 are respectively arranged through the corresponding lifting frames 220 so as to push the bearing plate 120 on the lifting frames 220 to the feeding end of the opposite conveying line 110.

In practice, the server may be placed on the turntable 130, and the disassembled parts are placed sequentially along the circumference of the turntable 130, so that all the parts of a single server may be placed orderly, when an operator stands beside the conveying line 110, the turntable 130 may be rotated to select the disassembled parts of the corresponding station, the taking is convenient, in order to realize the cyclic conveying of the carrying plate 120, the two material moving assemblies 200 include the material moving rack 210, the lifting rack 220 and the pushing piece 230, and the two lifting racks 220 may slide to the position coplanar with any conveying surface, so as to receive the carrying plate 120 falling from the conveying line 110, move to the position opposite to the other conveying line 110, and push the carrying plate 120 onto the other conveying line 110 under the action of the pushing piece 230, thereby completing the cyclic conveying process of the carrying plate 120.

The transport assembly 100 in this embodiment is used to orderly carry the structure of the components removed by the server machine. Specifically, the conveying assembly 100 includes two conveying lines 110, at least one carrying board 120 and a turntable 130 corresponding to the carrying boards 120 one by one, the two conveying lines 110 are fixedly connected, conveying surfaces are formed at the tops of the two conveying lines 110, conveying directions of the two conveying surfaces are parallel and reversely arranged, the carrying boards 120 are placed on the conveying surface of one of the conveying lines 110, and the turntable 130 is horizontally arranged and is rotationally connected with the corresponding carrying board 120.

The two conveying lines 110 are respectively configured to move the carrier plate 120 from the first position to the second position and move the carrier plate 120 from the second position to the first position.

In one embodiment, the two conveying lines 110 each include a conveying frame 111, a plurality of rotating shafts 112 and a plurality of conveying wheels 113, the plurality of rotating shafts 112 are arranged in parallel and are oppositely arranged at two sides of the conveying frame 111, the plurality of conveying wheels 113 are respectively mounted on the plurality of rotating shafts 112, and conveying surfaces are formed at the tops of the plurality of conveying wheels 113.

In order to facilitate driving the plurality of conveying wheels 113 to rotate, in one embodiment, each of the two conveying lines 110 further includes a driving member 140, the driving member 140 is fixedly connected to the conveying frame 111, and an output end of the driving member 140 is connected to the plurality of rotating shafts 112 for driving the plurality of rotating shafts 112 to rotate synchronously and in the same direction.

As shown in fig. 4, the driving member 140 includes a plurality of driving shafts 141, a plurality of first bevel gears 142 and a plurality of second bevel gears 143, the plurality of driving shafts 141 are disposed parallel to the rotating shafts 112, the plurality of driving shafts 141 are respectively disposed at positions between two adjacent rotating shafts 112 in the plurality of rotating shafts 112, the plurality of first bevel gears 142 are respectively mounted on the plurality of driving shafts 141, the plurality of second bevel gears 143 are respectively mounted on the plurality of rotating shafts 112, and each first bevel gear 142 is respectively engaged with and connected with two adjacent second bevel gears 143.

The driving member 140 further includes two motors, where the two motors are fixedly connected to the carriage 111, an output end of one motor is connected to any one of the rotating shafts 112 located on one side of the carriage 111, and an output end of the other motor is connected to any one of the rotating shafts 112 located on the other side of the carriage 111.

As shown in fig. 3, in one embodiment, a groove is formed on the carrier plate 120, the turntable 130 is disposed in the groove, a fixed shaft 131 is fixedly connected to the center of the bottom of the turntable 130, and the fixed shaft 131 is rotatably connected to the carrier plate 120.

In order to enable the turntable 130 to stably rotate and avoid the phenomenon of inclination, in one embodiment, the top of the bearing plate 120 is provided with an annular chute 121, and the bottom of the turntable 130 is fixedly connected with a plurality of sliding blocks 132 along the circumferential direction, and the sliding blocks 132 are all in sliding connection with the annular chute 121.

In order to enable the carrier plate 120 to stably slide on the conveying line 110, in one embodiment, an auxiliary support 150 is disposed at a middle portion of the conveying frame 111, the auxiliary support 150 includes a support frame 151 and a plurality of auxiliary wheels 152, the support frame 151 is fixedly connected with the conveying frame 111, and the plurality of auxiliary wheels 152 are sequentially arranged along an extending direction of the conveying surface and are abutted to a middle portion of a bottom portion of the carrier plate 120 so as to ensure stable conveying of the carrier plate 120.

The material transferring assembly 200 in this embodiment is a structure for transferring the carrier plate 120 from one conveyor line 110 to another conveyor line 110, so as to implement the cyclic conveying process of the carrier plate 120 in the two conveyor lines 110. Specifically, the two material moving assemblies 200 each include a material moving frame 210, a lifting frame 220 and a pushing member 230, where one material moving frame 210, two conveying lines 110 and the other material moving frame 210 are sequentially arranged along the conveying direction of one conveying surface, the two lifting frames 220 are respectively connected with the two material moving frames 210 in a sliding manner along the direction perpendicular to the conveying surface, the two lifting frames 220 are respectively slidable to a position coplanar with any conveying surface, the two pushing members 230 are respectively connected with the two material moving frames 210, one pushing member 230 is disposed at a position opposite to the feeding end of one conveying line 110, the other pushing member 230 is disposed at a position opposite to the feeding end of the other conveying line 110, and the moving paths of the pushing ends of the two pushing members 230 are all disposed through the corresponding lifting frames 220, so as to push the bearing plate 120 on the lifting frames 220 onto the feeding end of the opposite conveying line 110.

In one embodiment, the material moving assembly 200 further includes a lifting cylinder fixedly connected to the material moving frame 210 and disposed at the bottom of the lifting frame 220, and an output end of the lifting cylinder is connected to the lifting frame 220 for driving the lifting frame 220 to slide.

In one embodiment, the top of the elevator 220 is provided with a plurality of guide rollers.

In one embodiment, the pushing member 230 includes a pushing cylinder and a pushing plate, the pushing cylinder is fixedly connected with the material moving frame 210, the output end of the pushing member 230 is fixedly connected with the pushing plate, the pushing plate is disposed on one side of the lifting frame 220 away from the conveying line 110, and the pushing plate forms a pushing end.

Compared with the prior art: the server can be placed on the turntable 130, and the disassembled parts are placed in turn along the circumference of the turntable 130, so that all the parts of a single server can be placed orderly, when an operator stands beside the conveying line 110, the turntable 130 can be rotated to select the disassembled parts of the corresponding station, the picking is convenient, in order to realize the cyclic conveying of the bearing plate 120, the conveying directions of the two conveying surfaces are parallel and reversely arranged, the two material moving assemblies 200 comprise a material moving frame 210, a lifting frame 220 and a pushing piece 230, the two lifting frames 220 can slide to the position coplanar with any conveying surface, are used for receiving the bearing plate 120 falling from the conveying line 110, move to the position opposite to the other conveying line 110, and push the bearing plate 120 onto the other conveying line 110 under the action of the pushing piece 230, so that the cyclic conveying process of the bearing plate 120 is completed.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims

1. The server disassembling line is characterized by comprising a conveying assembly and two material moving assemblies;

the conveying assembly comprises two conveying lines, at least one bearing plate and a rotary table corresponding to the bearing plates one by one, wherein the two conveying lines are fixedly connected, conveying surfaces are formed at the tops of the two conveying lines, the conveying directions of the two conveying surfaces are parallel and are reversely arranged, the bearing plate is arranged on the conveying surface of one conveying line, and the rotary table is horizontally arranged and is in rotary connection with the corresponding bearing plate;

the two material moving assemblies comprise material moving frames, lifting frames and pushing pieces, wherein one material moving frame, two conveying lines and the other material moving frame are sequentially arranged along the conveying direction of one conveying surface, the two lifting frames are respectively connected with the two material moving frames in a sliding mode along the direction perpendicular to the conveying surface, the two lifting frames can slide to the position coplanar with any conveying surface, the two pushing pieces are respectively connected with the two material moving frames, one pushing piece is arranged at the position opposite to the feeding end of one conveying line, the other pushing piece is arranged at the position opposite to the feeding end of the other conveying line, and the moving paths of the pushing ends of the two pushing pieces are respectively arranged through the corresponding lifting frames and are used for pushing the bearing plate on the lifting frames to the feeding end opposite to the conveying line.

2. The server dismantling line according to claim 1, wherein the two conveying lines each include a conveying frame, a plurality of rotating shafts and a plurality of conveying wheels, the rotating shafts are arranged in parallel and are arranged on two sides of the conveying frame relatively, the conveying wheels are respectively mounted on the rotating shafts, and the top portions of the conveying wheels form the conveying surface.

3. The server dismantling line according to claim 2, wherein both the conveyor lines further comprise a driving member, the driving member is fixedly connected with the conveying frame, and an output end of the driving member is connected with the plurality of rotating shafts for driving the plurality of rotating shafts to synchronously and co-directionally rotate.

4. A server dismantling line according to claim 3, wherein the driving member comprises a plurality of transmission shafts, a plurality of first bevel gears and a plurality of second bevel gears, the plurality of transmission shafts are arranged in parallel with the rotation shafts, the plurality of transmission shafts are respectively arranged at positions between two adjacent rotation shafts in the plurality of rotation shafts, the plurality of first bevel gears are respectively arranged on the plurality of transmission shafts, the plurality of second bevel gears are respectively arranged on the plurality of rotation shafts, and each first bevel gear is respectively connected with two adjacent second bevel gears in a meshed manner.

5. The server unwind of claim 4, wherein said drive further comprises two motors, both of which are fixedly connected to said carriage, wherein an output of one of said motors is connected to any one of said shafts on one side of said carriage and an output of the other of said motors is connected to any one of said shafts on the other side of said carriage.

6. The server dismantling line according to claim 1, wherein a groove is formed on the bearing plate, the turntable is placed in the groove, a fixed shaft is fixedly connected to the center of the bottom of the turntable, and the fixed shaft is rotatably connected with the bearing plate.

7. The server dismantling line according to claim 6, wherein an annular chute is formed in the top of the bearing plate, a plurality of sliding blocks are fixedly connected to the bottom of the turntable along the circumferential direction, and the sliding blocks are slidably connected to the annular chute.

8. The server dismantling line according to claim 1, wherein the material moving assembly further comprises a lifting cylinder fixedly connected with the material moving frame and arranged at the bottom of the lifting frame, and an output end of the lifting cylinder is connected with the lifting frame to drive the lifting frame to slide.

9. The server unwind of claim 1, wherein a plurality of guide rollers are provided on top of said lift.

10. The server dismantling line according to claim 1, wherein the pushing member comprises a pushing cylinder and a pushing plate, the pushing cylinder is fixedly connected with the material moving frame, an output end of the pushing member is fixedly connected with the pushing plate, the pushing plate is arranged on one side, far away from the conveying line, of the lifting frame, and the pushing plate forms the pushing end.