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CN-224233998-U - Auxiliary structure of layer rack

CN224233998UCN 224233998 UCN224233998 UCN 224233998UCN-224233998-U

Abstract

A layer frame auxiliary structure comprises a first supporting piece, a second supporting piece, a first adapter piece, a second adapter piece, a first connecting rod, a first quick-dismantling connecting assembly and a second quick-dismantling connecting assembly. The first support piece and the second support piece are fixed on the outer frame of the layer frame and are separated from each other, and the first adapter piece is fixed on the first support piece. The second adapter is fixed on the second support. The first connecting rod spans between the first supporting piece and the second supporting piece and forms a first acute angle and a second acute angle with the first supporting piece and the second supporting piece respectively. The first quick-release connecting component is arranged at the first end of the first connecting rod and is detachably connected with the first transfer piece. The second quick-dismantling connecting component is arranged at the second end of the first connecting rod and is detachably connected with the second adapter.

Inventors

  • CHEN ZHENGZONG
  • XU HONGQI
  • YANG QIHONG

Assignees

  • 光宝科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250324
Priority Date
20240916

Claims (16)

  1. 1. A layer frame auxiliary structure, characterized by comprising: the first supporting piece is fixed on an outer frame of a layer of frame; The second supporting piece is fixed on the outer frame of the layer frame and is separated from the first supporting piece; a first transfer element fixed on the first support element; the second adapter piece is fixed on the second support piece; The first connecting rod spans between the first supporting piece and the second supporting piece and forms a first acute angle and a second acute angle with the first supporting piece and the second supporting piece respectively; A first quick-release connecting component which is arranged at a first end of the first connecting rod and is detachably connected with the first transfer piece, and The second quick-dismantling connecting component is arranged at a second end of the first connecting rod and is detachably connected with the second adapter.
  2. 2. The multi-layered structure of claim 1, wherein the first quick release connection assembly and the second quick release connection assembly have the same structure.
  3. 3. The multi-layer stand assist structure of claim 1, The first support member is a first tube shell structure having a first joint surface facing the outer frame and a first transfer surface opposite to the first joint surface, and the first transfer surface has a first opening through which the first transfer member can be mounted in the first tube shell structure, and The second supporting piece is a second tube shell structure and is provided with a second combining surface facing the outer frame and a second switching surface opposite to the second combining surface, and the second switching surface is provided with a second opening through which the second switching piece can be arranged in the second tube shell structure.
  4. 4. The multi-layer stand assist structure of claim 3, The first adapter has a rectangular housing with a size substantially smaller than the first opening, the rectangular housing having a first upper plate, a first side plate and a second side plate parallel to a first long axis of the first shell structure, and a third side plate and a fourth side plate perpendicular to the first long axis, and The second adapter is substantially smaller than a rectangular housing of the second opening, the rectangular housing having a second upper plate, a fifth side plate and a sixth side plate parallel to a second long axis of the second shell structure, and a seventh side plate and an eighth side plate perpendicular to the second long axis.
  5. 5. The multi-layer stand assist structure of claim 4, The first side plate and the second side plate are fixed on an inner side wall of the first tube shell structure through a plurality of fixing units, the first upper plate is parallel to the first transfer surface and provided with a first bolt through hole penetrating the first upper plate, and The fifth side plate and the sixth side plate are fixed on an inner side wall of the second tube shell structure through a plurality of fixing units, and the second upper plate is parallel to the second switching surface and provided with a second bolt through hole penetrating through the second upper plate.
  6. 6. The multi-layer stand assist structure of claim 5, The first adapter further comprises a first latch, one end of which is fixed on an inner bottom plate of the first shell structure, and the other end of which passes through the first latch through hole, the first upper plate and the first opening, and The second adapter further comprises a second bolt, one end of the second bolt is fixed on an inner bottom plate of the second tube shell structure, and the other end of the second bolt penetrates through the second bolt through hole, the second upper plate and the second opening.
  7. 7. The shelf assist structure of claim 6 wherein said first link further comprises: A first through hole at the first end for allowing the first bolt to pass through and detachably connected with the first adapter via the first quick-release connecting component, and The second through hole is positioned at the second end, can allow the second bolt to pass through the second through hole and is detachably connected with the second adapter through the second quick-dismantling connecting component.
  8. 8. The shelf assist structure of claim 7 wherein said first link further comprises: A first side hole vertically connected to the first through hole for accommodating the first quick-release connecting component, and And the second side hole is vertical to and communicated with the second through hole and is used for accommodating the second quick-release connecting component to penetrate through.
  9. 9. The shelf assist structure of claim 8 wherein the first side aperture and the second side aperture are disposed on opposite sides of the first link.
  10. 10. The multi-layer stand assist structure of claim 8, The first quick-release connecting component comprises a first sleeve fixed on the first side hole through a thread, a first pin movably penetrating and fixed in the first sleeve and selectively extending into the first through hole for clamping the first bolt, and The second quick-release connecting component comprises a second sleeve which is locked on the second side hole through a thread, and a second pin which is movably penetrated and fixed in the second sleeve and selectively extends into the second through hole for clamping the second bolt.
  11. 11. The multi-layer stand assist structure of claim 5, At least one of the third side plate and the fourth side plate comprises a first flange extending parallel to the first long axis and fixed on an inner bottom plate of the first tube shell structure by at least one fixing unit, and At least one of the seventh side plate and the eighth side plate comprises a second flange extending parallel to the second long axis and fixed on an inner bottom plate of the second tube shell structure through at least one fixing unit.
  12. 12. The multi-layered structure of claim 6, wherein the second adapter further comprises a third pin, one end of which is fixed in the inner bottom plate of the second shell structure, and the other end of which passes through a third pin through hole penetrating the second upper plate.
  13. 13. The shelf assist structure of claim 12, further comprising: The third adapter piece is fixed in a third opening of the first support piece and is far away from the first adapter piece, and comprises a fourth bolt, one end of the fourth bolt is fixed on the inner bottom plate of the first tube shell structure, and the other end of the fourth bolt penetrates through a fourth bolt through hole of the third adapter piece; the second connecting rod spans between the first supporting piece and the second supporting piece and forms a third acute angle and a fourth acute angle with the first supporting piece and the second supporting piece respectively; A third quick-release connecting component which is arranged at a third end of the second connecting rod and is detachably connected with the third bolt, and And the fourth quick-release connecting assembly is arranged at a fourth end of the second connecting rod and is detachably connected with the fourth bolt.
  14. 14. The shelf assist structure of claim 13 wherein said first link and said second link are interchangeably removably connectable with said first support and said second support.
  15. 15. The multi-layered structure of claim 3, further comprising at least one foolproof member protruding from at least one of the first and second engaging surfaces and corresponding to a positioning member of the outer frame.
  16. 16. The multi-layered structure of claim 15, further comprising at least one frame element for fixing the outer frame and the other outer frame of the other multi-layered structure side by side, wherein one of the first supporting member and the second supporting member adjacent to the other outer frame has a relief opening on the first bonding surface for allowing the frame element to pass therethrough.

Description

Auxiliary structure of layer rack Technical Field The present disclosure relates to a rack structure, and more particularly, to a rack auxiliary structure for a server rack. Background With the development of technology, in order to meet the requirements of consumers for data processing speed, a server (server) architecture composed of a plurality of circuit boards and electronic components thereof has been developed, and the plurality of server architectures may further compose a data center (DATA CENTER). In the existing server architecture, a plurality of mainboards are installed on a server rack with a layer frame structure, and a plurality of spaces are partitioned to load the mainboards and wire windings connected with the mainboards. In order to avoid the risk of damage to the main board in the server rack caused by shaking, external collision or earthquake, how to enhance the shock absorbing effect and the structural strength of the server rack is an urgent problem to be solved. Disclosure of utility model An embodiment of the present disclosure provides a layer frame auxiliary structure, which includes a first support member, a second support member, a first adapter member, a second adapter member, a first connecting rod, a first quick-release connecting assembly and a second quick-release connecting assembly. The first support piece and the second support piece are fixed on the outer frame of the layer frame and are separated from each other, and the first adapter piece is fixed on the first support piece. The second adapter is fixed on the second support. The first connecting rod spans between the first supporting piece and the second supporting piece and forms a first acute angle and a second acute angle with the first supporting piece and the second supporting piece respectively. The first quick-release connecting component is arranged at the first end of the first connecting rod and is detachably connected with the first transfer piece. The second quick-release connecting assembly is arranged at the second end of the first connecting rod and is detachably (detachably) connected with the second adapter. According to the above embodiment, the present disclosure provides a layer frame auxiliary structure, by fixing a first supporting member and a second supporting member on an outer frame of a layer frame, and bridging a connecting rod between the first supporting member and the second supporting member through a first quick-release connecting assembly, a second quick-release connecting assembly, a first adapter and a second adapter, so that the connecting rod forms a first acute angle and a second acute angle with the first supporting member and the second supporting member respectively, thereby forming a bridging structure capable of reinforcing the layer frame, and playing a role of shock absorption and shock absorption. The number of the connecting rods can be increased according to the shock absorbing requirement, the connecting rods are assembled and disassembled in a quick-dismantling mode, and the connecting rods can be replaced and used, so that the time cost of assembling and constructing the layer frame and the auxiliary structure is greatly reduced, and meanwhile, the flexibility of the application of the auxiliary structure space is improved. Drawings For a better understanding of the above and other aspects of the present description, reference will now be made in detail to the following examples, which are illustrated in the accompanying drawings. FIG. 1A is a perspective view of a shelving system with a shelving auxiliary structure according to one embodiment of the present disclosure; FIG. 1B is a perspective view of the partially disassembled structure shown in FIG. 1A; FIG. 2A is an enlarged view of a portion of the first support member according to FIG. 1A; FIG. 2B is an enlarged view of a portion of the second support member according to FIG. 1A; FIG. 3A is a partial perspective view of a first adapter according to an embodiment of the present disclosure; FIG. 3B is a partial perspective view of a second adapter according to an embodiment of the present disclosure; FIG. 4A is an enlarged perspective view of a partial structure of the first adapter, the first quick release coupling assembly and the first end of the first link in a clamped state according to an embodiment of the present disclosure; FIG. 4B is an enlarged perspective view of a part of the first adapter, the first quick release coupling assembly and the first end of the first link according to FIG. 4A in a disengaged state; FIG. 5A is an enlarged perspective view of a portion of a second adapter, a second quick release coupling assembly, and a second end of a first link in a locked position according to one embodiment of the present disclosure, and Fig. 5B is an enlarged perspective view of a partial structure of the second adapter, the second quick release coupling assembly and the second end of the first link i