CN216982272U - Aluminum cabinet - Google Patents

Abstract

The utility model provides an aluminum cabinet, which is provided with an accommodating cavity and comprises: a frame structure; the shell component comprises a door panel component and a plurality of plate components, the plate components are connected with the frame structure through the connecting component, the plate components are coated on the outer peripheral surface of the frame structure to form an accommodating cavity, and the door panel component is arranged on the frame structure in an openable and closable manner to plug or open an opening of the accommodating cavity; wherein, frame construction, door plant subassembly and a plurality of plate body subassembly are aluminium system structure. By adopting the scheme, the aluminum cabinet is integrally spliced and molded in an assembling mode, the overall structural strength and the service life of the aluminum cabinet are improved, and the manufacturing difficulty of the aluminum cabinet is reduced. And the aluminum material is adopted, so that the aluminum material cabinet has reliable corrosion resistance and rust resistance, the reliability of the aluminum material cabinet is further improved, and the application range of the aluminum material cabinet is expanded.

Description

Aluminum cabinet

Technical Field

The utility model relates to the technical field of cabinets, in particular to an aluminum cabinet.

Background

The cabinet is used as an infrastructure for bearing the power distribution unit, can provide a carrying platform for equipment such as a base station, a power supply, a storage battery and a temperature controller, provides reliable mechanical and environmental protection for normal operation of internal equipment, and plays an important role in development of the communication industry. Along with the continuous expansion of communication station networks, the application of the cabinet in coastal environments, environments with isothermal humidity in dense forests, severe salt spray conditions and the like is also increased. At present, in a severe natural environment condition, local or overall corrosion can occur in a common steel cabinet along with the accumulation of time, so that the overall performance and the service life of the steel cabinet are influenced; the existing aluminum cabinet is usually manufactured by welding and assembling, is influenced by the performance of aluminum materials, has high welding difficulty and high welding reject ratio in the manufacturing process, has weak overall strength, and is limited by the internal loading weight of the cabinet.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aluminum cabinet, which aims to improve the structural strength of the aluminum cabinet in the prior art.

In order to solve the above problems, the present invention provides an aluminum cabinet, the aluminum cabinet having an accommodating chamber, the aluminum cabinet comprising: a frame structure; the shell component comprises a door panel component and a plurality of plate components, the plate components are connected with the frame structure through the connecting component, the plate components are coated on the outer peripheral surface of the frame structure to form an accommodating cavity, and the door panel component is arranged on the frame structure in an openable and closable manner to plug or open an opening of the accommodating cavity; wherein, frame construction, door plant subassembly and a plurality of plate body subassembly are aluminium system structure.

Furthermore, the frame structure is a cuboid structure, the plurality of plate body assemblies comprise a top plate assembly, a first side plate assembly, a second side plate assembly, a bottom plate assembly and a back plate assembly, the top plate assembly is arranged at the upper end of the frame structure, the bottom plate assembly is arranged at the lower end of the frame structure, the first side plate assembly and the second side plate assembly are respectively arranged at two opposite sides of the frame structure, the door plate assembly and the back plate assembly are both positioned between the first side plate assembly and the second side plate assembly, and the door plate assembly and the back plate assembly are oppositely arranged; wherein, the both ends of roof subassembly are connected with the upper end of first side board subassembly, second side board subassembly respectively, and the both ends of bottom plate subassembly are connected with the lower extreme of first side board subassembly, second side board subassembly respectively.

Furthermore, the connecting assembly comprises a plurality of first connecting pieces, the first connecting pieces are distributed on two opposite sides of the frame structure, the top plate assembly and the first side plate assembly are sequentially connected through the first connecting pieces, and the frame structure, the top plate assembly and the second side plate assembly are sequentially connected through the first connecting pieces.

Furthermore, the connecting assembly comprises a plurality of second connecting pieces, the second connecting pieces are distributed on two opposite sides of the frame structure, the bottom plate assembly and the first side plate assembly are sequentially connected through the second connecting pieces, and the frame structure, the bottom plate assembly and the second side plate assembly are sequentially connected through the second connecting pieces.

Furthermore, the first side plate assembly comprises a first plate body and a first side plate arranged around the first plate body, and the connecting assembly further comprises a first connecting column arranged on one side, facing the frame structure, of the first plate body; the second side plate assembly comprises a second plate body and a second side plate arranged around the second plate body, and the connecting assembly further comprises a second connecting column arranged on one side, facing the frame structure, of the second plate body; the top plate assembly comprises a third plate body and a third enclosing plate arranged around the third plate body, and first connecting holes are formed in the two sides of the third enclosing plate, which face the first plate body and the second plate body; wherein at least one first connecting piece penetrates through the frame structure and the first connecting hole and is in threaded connection with the first connecting column; at least one first connector passes through the frame structure, the first connecting hole and is in threaded connection with the second connecting column.

Further, the aluminum material rack still includes: the first sealing strip is arranged between the first enclosing plate and the third enclosing plate; and the second sealing strip is arranged between the second enclosing plate and the third enclosing plate.

Furthermore, the connecting assembly also comprises a plurality of riveting pieces, and the frame structure is provided with a plurality of fifth riveting holes; the first side plate assembly further comprises two first side plates which are vertically arranged, the two first side plates are respectively arranged on two opposite sides of the first side plate, the two first side plates are respectively provided with a first riveting hole, and at least one riveting piece penetrates through the first riveting hole and the fifth riveting hole so as to rivet the first side plates and the frame structure; the second side plate assembly further comprises two second side plates which are vertically arranged, the two second side plates are respectively arranged on two opposite sides of the second enclosing plate, the two second side plates are respectively provided with a second riveting hole, and at least one riveting piece penetrates through the second riveting hole and the fifth riveting hole so as to rivet the second side plates and the frame structure; and the opposite two sides of the third enclosing plate are provided with third riveting holes, and at least one riveting piece penetrates through the third riveting holes and the fifth riveting holes so as to rivet the third enclosing plate and the frame structure.

Furthermore, the first side plate assembly also comprises a first reinforcing cross beam, the first reinforcing cross beam is arranged on the first plate body, and two ends of the first reinforcing cross beam are respectively connected with the first enclosing plate; the second side plate component further comprises a second reinforcing cross beam, the second reinforcing cross beam is arranged on the second plate body, and two ends of the second reinforcing cross beam are connected with the second enclosing plates respectively.

Furthermore, the bottom plate assembly comprises a fourth plate body and a fourth enclosing plate arranged around the fourth plate body, and a plurality of second connecting holes are formed in the two sides of the fourth enclosing plate, which face the first plate body and the second plate body; the connecting assembly further comprises a plurality of second connecting pieces, and at least one second connecting piece penetrates through the frame structure and the second connecting hole and is in threaded connection with the first connecting column; at least one second connecting piece penetrates through the frame structure and the second connecting hole and is in threaded connection with the second connecting column; and the opposite two sides of the fourth enclosing plate are provided with fourth riveting holes, and at least one riveting piece penetrates through the fourth riveting holes and the fifth riveting holes so as to rivet the fourth enclosing plate and the frame structure.

Further, the aluminum cabinet further comprises a first inner layer board assembly, a second inner layer board assembly and a third inner layer board assembly which are arranged in the containing cavity and connected with the frame structure, wherein the first inner layer board assembly and the first side board assembly are arranged correspondingly, the second inner layer board assembly and the second side board assembly are arranged correspondingly, the third inner layer board assembly and the rear board assembly are arranged correspondingly, and the first inner layer board assembly, the second inner layer board assembly and the third inner layer board assembly surround the area for containing and installing the electrical appliance assembly.

Further, the aluminum cabinet further comprises a plurality of first bearing blocks and a plurality of hoisting pieces, the first bearing blocks are welded to the upper portion of the frame structure respectively, and the hoisting pieces and the first bearing blocks are connected in a one-to-one correspondence mode.

Furthermore, the aluminum cabinet also comprises a sun-shading assembly and a base assembly, wherein the sun-shading assembly is positioned above the top plate assembly and comprises a top cover main body and a plurality of mounting columns arranged on the top cover main body, one ends of the mounting columns are in threaded connection with the first bearing block, and the other ends of the mounting columns are in threaded connection with the hoisting piece; the aluminum cabinet is characterized in that the bottom plate assembly is located below the bottom plate assembly, the base assembly comprises a base main body and a plurality of third connecting pieces arranged on the base main body, the aluminum cabinet further comprises a plurality of second bearing blocks, the second bearing blocks are welded to the lower portion of the frame structure respectively, and the second bearing blocks and the third connecting pieces are in one-to-one threaded connection.

Further, the door panel assembly comprises a hinge assembly, a fifth plate body and a fifth enclosing plate arranged around the fifth plate body, the aluminum cabinet further comprises an adapter, the adapter is fixedly arranged on the first side plate assembly or the second side plate assembly, the hinge assembly comprises a hinge reinforcing plate and a hinge, the hinge reinforcing plate is fixedly connected with the fifth plate body, and the hinge reinforcing plate is hinged with the adapter through the hinge.

Further, the frame structure comprises a plurality of vertically arranged side beams, a plurality of horizontally arranged top beams for connecting the top ends of the side beams, and a plurality of horizontally arranged bottom beams for connecting the bottom ends of the side beams, wherein the top beams and the bottom beams are arranged in one-to-one correspondence; the frame structure further comprises a fastening structure, any one side beam is connected with the top beam adjacent to the side beam through the fastening structure, and any one side beam is connected with the bottom beam adjacent to the side beam through the fastening structure.

The technical scheme of the utility model is applied to provide an aluminum cabinet, wherein the aluminum cabinet is provided with an accommodating cavity, and the aluminum cabinet comprises: a frame structure; the shell component comprises a door panel component and a plurality of plate components, the plate components are connected with the frame structure through the connecting component, the plate components are coated on the outer peripheral surface of the frame structure to form an accommodating cavity, and the door panel component is arranged on the frame structure in an openable and closable manner to plug or open an opening of the accommodating cavity; wherein, frame construction, door plant subassembly and a plurality of plate body subassembly are aluminium system structure. Adopt this scheme, make frame construction as the structure skeleton of aluminum product rack, connect door plant subassembly and a plurality of plate body subassemblies in proper order on a plurality of outer peripheral faces of frame construction through coupling assembling for the whole mode concatenation shaping that adopts the assembly of aluminum product rack, the bearing of aluminum product rack mainly relies on frame construction moreover, can guarantee that the aluminum product rack has better bearing capacity. Set up like this, the door plant subassembly and a plurality of plate body subassemblies of having avoided aluminum product rack among the prior art pass through welded connection, and the bad condition of connection easily appears, has improved the overall structure intensity and the life of aluminum product rack, has reduced the manufacturing degree of difficulty of aluminum product rack. And frame construction, door plant subassembly and a plurality of plate body subassemblies all adopt the aluminum product, have reliable anticorrosive, antirust property, have further improved the reliability of aluminum product rack, have enlarged the application scope of aluminum product rack.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 shows a schematic structural diagram of an aluminum cabinet provided by an embodiment of the present invention;

figure 2 shows an exploded view of the plate assembly and frame structure of the aluminum cabinet of figure 1;

fig. 3 shows a schematic structural view of a frame structure of the aluminum cabinet of fig. 1;

fig. 4 shows a cross-sectional view of a first side plate assembly, a top plate assembly and a frame structure connection location of the aluminum cabinet of fig. 1;

fig. 5 shows a partial enlarged view of a first side plate assembly, a frame structure and a connection position of the top plate assembly and the frame structure of the aluminum cabinet of fig. 1;

fig. 6 shows a schematic structural view of a first inner deck assembly, a second inner deck assembly and a third inner deck assembly of the aluminum cabinet of fig. 1;

FIG. 7 shows an enlarged partial view of the first inner deck assembly of FIG. 6;

FIG. 8 shows a schematic structural view of a sun shade assembly of the aluminum cabinet of FIG. 1;

FIG. 9 shows a cross-sectional view of the connection locations of the sunshade assembly, the top plate assembly, the frame structure and the first side plate assembly of the aluminum cabinet of FIG. 1;

figure 10 shows a cross-sectional view of the connection locations of the base assembly, floor assembly, frame structure and first side panel assembly of the aluminum enclosure of figure 1;

fig. 11 shows a schematic structural view of a door panel assembly and a first side panel assembly of the aluminum cabinet of fig. 1;

fig. 12 shows a partial enlarged view of the frame structure of fig. 3.

Wherein the figures include the following reference numerals:

10. a frame structure; 11. a side beam; 12. a top beam; 13. a bottom beam; 14. a fastening structure; 15. an accommodating chamber; 151. an equipment bin; 152. a battery compartment;

21. a door panel assembly; 211. a hinge assembly; 2111. a hinged reinforcing plate; 2112. a hinge; 212. a fifth plate body; 213. a fifth coaming; 22. a top plate assembly; 221. a third plate body; 222. a third coaming; 23. a first side panel assembly; 231. a first plate body; 232. a first coaming; 233. a first side plate; 234. a first reinforcing cross member; 24. a second side panel assembly; 25. a base plate assembly; 251. a fourth plate body; 252. a fourth coaming; 26. a back plate assembly; 261. a third reinforcing cross member;

31. a first connecting member; 32. a first connecting column; 33. riveting a connecting piece;

41. a first inner deck assembly; 411. a first upper inner deck assembly; 4111. a first upper inner-layer plate; 4112. a first upper connecting plate; 4113. a seventh upper connecting member; 412. a first lower inner deck assembly; 42. a second inner deck assembly; 421. a second upper inner decking member; 422. a second lower inner deck assembly; 43. a third inner deck assembly; 431. a third upper inner deck assembly; 432. a third lower inner deck assembly;

51. a first bearing block; 52. hoisting a piece; 53. a second bearing block; 54. an adapter; 551. a first seal strip; 552. a second seal strip; 553. a third seal strip; 554. a fourth seal strip; 555. a fifth seal ring;

60. a sunshade assembly; 61. a cap body; 62. mounting a column;

70. a base assembly; 71. a base body; 72. and a third connecting member.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the utility model, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 12, an embodiment of the present invention provides an aluminum cabinet having a receiving cavity 15, the aluminum cabinet including: a frame structure 10; the outer shell component comprises a door panel component 21 and a plurality of plate components, the plate components are connected with the frame structure 10 through the connecting component, the plate components are coated on the outer peripheral surface of the frame structure 10 to form an accommodating cavity 15, and the door panel component 21 is arranged on the frame structure 10 in an openable and closable manner to plug or open an opening of the accommodating cavity 15; the frame structure 10, the door panel assembly 21 and the plurality of plate assemblies are all made of aluminum.

In this embodiment, make frame construction 10 as the structural framework of aluminum product rack, connect door plant subassembly 21 and a plurality of plate body subassemblies in proper order on a plurality of outer peripheral faces of frame construction through coupling assembling for the whole mode concatenation shaping that adopts the assembly of aluminum product rack, the bearing of aluminum product rack mainly relies on frame construction 10 in addition, can guarantee that the aluminum product rack has better bearing capacity. Set up like this, the door plant subassembly 21 and the plurality of plate body subassemblies of having avoided aluminum product rack among the prior art pass through welded connection, the easy bad condition of connection that appears has improved the overall structure intensity and the life of aluminum product rack, has reduced the manufacturing degree of difficulty of aluminum product rack. And frame construction 10, door plant subassembly 21 and a plurality of plate body subassemblies all adopt the aluminum product, have reliable anticorrosive, antirust property, have further improved the reliability of aluminum product rack, have enlarged the application scope of aluminum product rack.

Alternatively, the frame structure 10, the door panel assembly 21 and the plurality of plate assemblies of the aluminum cabinet may also be made of other materials with reliable corrosion resistance and rust resistance, such as glass fiber reinforced plastics, stainless steel, etc.

As shown in fig. 2, the frame structure 10 is a rectangular parallelepiped structure, the plurality of plate assemblies include a top plate assembly 22, a first side plate assembly 23, a second side plate assembly 24, a bottom plate assembly 25 and a back plate assembly 26, the top plate assembly 22 is disposed at the upper end of the frame structure 10, the bottom plate assembly 25 is disposed at the lower end of the frame structure 10, the first side plate assembly 23 and the second side plate assembly 24 are respectively disposed at two opposite sides of the frame structure 10, the door plate assembly 21 and the back plate assembly 26 are both located between the first side plate assembly 23 and the second side plate assembly 24, and the door plate assembly 21 and the back plate assembly 26 are disposed oppositely; wherein, the two ends of the top plate assembly 22 are respectively connected with the upper ends of the first side plate assembly 23 and the second side plate assembly 24, and the two ends of the bottom plate assembly 25 are respectively connected with the lower ends of the first side plate assembly 23 and the second side plate assembly 24. Set up like this, a plurality of plate body subassemblies form and have the open-ended and hold chamber 15, and the reliability of the cabinet body is guaranteed to holding the open-ended opening in chamber 15 or shutoff through door panel subassembly 21 realization. Moreover, the two ends of the top plate assembly 22 are respectively connected with the upper ends of the first side plate assembly 23 and the second side plate assembly 24, the two ends of the bottom plate assembly 25 are respectively connected with the lower ends of the first side plate assembly 23 and the second side plate assembly 24, the installation accuracy between the top plate assembly 22, the first side plate assembly 23, the second side plate assembly 24 and the bottom plate assembly 25 in the installation process is guaranteed, meanwhile, the top plate assembly 22 and the bottom plate assembly 25 between the first side plate assembly 23 and the second side plate assembly 24 are limited to a certain extent, the installation reliability is guaranteed, and the structural strength of the shell component is improved.

As shown in fig. 4, the connecting assembly includes a plurality of first connecting members 31, the plurality of first connecting members 31 are distributed on two opposite sides of the frame structure 10, the top plate assembly 22 and the first side plate assembly 23 are sequentially connected through the first connecting members 31, and the frame structure 10, the top plate assembly 22 and the second side plate assembly 24 are sequentially connected through the first connecting members 31. With this arrangement, the first side plate assembly 23, the frame structure 10, the second side plate assembly 24 and the top plate assembly 22 are connected together by the first connecting member 31, and the mounting accuracy and structural strength of the housing members are improved. Optionally, the first connector 31 is a pan head thread forming screw.

Specifically, the connecting assembly includes a plurality of second connecting members, the plurality of second connecting members are distributed on two opposite sides of the frame structure 10, the bottom plate assembly 25 and the first side plate assembly 23 are sequentially connected by the second connecting members, and the frame structure 10, the bottom plate assembly 25 and the second side plate assembly 24 are sequentially connected by the second connecting members. This arrangement, by connecting the second side panel assembly 24, the first side panel assembly 23, the frame structure 10 and the base panel assembly 25 together via the second connecting member, improves the mounting accuracy and structural strength of the housing components. Optionally, the second attachment is a pan head thread forming screw.

As shown in fig. 2 and 4, the first side plate assembly 23 includes a first plate 231 and a first enclosing plate 232 disposed around the first plate 231, and the connecting assembly further includes a first connecting pillar 32, the first connecting pillar 32 is disposed on a side of the first plate 231 facing the frame structure 10; the second side plate assembly 24 includes a second plate body and a second side plate arranged around the second plate body, and the connecting assembly further includes a second connecting column arranged on one side of the second plate body facing the frame structure 10; the top plate assembly 22 includes a third plate 221 and a third surrounding plate 222 disposed around the third plate 221, and the third surrounding plate 222 is provided with first connection holes facing the first plate 231 and both sides of the second plate; wherein at least one first connecting piece 31 passes through the frame structure 10, the first connecting hole and is in threaded connection with the first connecting column 32; at least one first connector 31 passes through the frame structure 10, the first connection hole and is threadedly connected with the second connection post.

Optionally, the connecting assembly includes a plurality of fourth connecting members, the plurality of fourth connecting members are distributed on one side of the frame structure 10 facing the back plate assembly 26, the back plate assembly 26 includes a sixth plate body and a sixth shroud plate disposed around the sixth plate body, the connecting assembly further includes a third connecting column, the third connecting column is disposed on one side of the sixth plate body facing the frame structure 10, and at least one fourth connecting member passes through the frame structure 10 and is in threaded connection with the third connecting column.

Optionally, the first connecting column 32 and the second connecting column are both multiple and are respectively arranged along the contour of the first enclosing plate 232 and the second enclosing plate at intervals. The connecting assembly further comprises a plurality of first adapter seats and a plurality of fifth connecting pieces, the first adapter seats are arranged on one side, facing the first side plate assembly 23, of the frame structure 10, the first adapter seats are arranged at intervals along the height direction of the frame structure 10, at least one fifth connecting piece penetrates through the first adapter seats and is in threaded connection with the first connecting column 32, and the frame structure 10 and the first side plate assembly 23 are connected and tensioned through the fifth connecting pieces of the first adapter seats. The connecting assembly further comprises a plurality of second adapter seats and a plurality of sixth connecting pieces, the second adapter seats are arranged on one side, facing the second side plate assembly 24, of the frame structure 10, the second adapter seats are arranged at intervals along the height direction of the frame structure 10, at least one sixth connecting piece penetrates through the second adapter seats and is in threaded connection with the second connecting column, and the frame structure 10 and the second side plate assembly 24 are connected and tensioned through the sixth connecting pieces of the second adapter seats. And the fifth connecting piece and the sixth connecting piece are pan head self-tapping locking screws.

Optionally, the first enclosing plate 232, the second enclosing plate and the sixth enclosing plate are edge covering structures, and the first enclosing plate 232, the second enclosing plate and the sixth enclosing plate are annular structures.

Specifically, the aluminum cabinet still includes: a first sealing strip 551, the first sealing strip 551 being arranged between the first enclosing plate 232 and the third enclosing plate 222; a second sealing strip 552, the second sealing strip 552 being disposed between the second enclosure and the third enclosure 222. Set up like this, realize through the sealing strip sealed between to different plate body subassemblies, can also prevent simultaneously between the different plate body subassemblies, or the laminating tension leads to plate body subassembly hookup location to appear the condition of damaging when connecting between plate body subassembly and the frame construction 10, plays the slow effect to the fastening atress of the hookup location of plate body subassembly, guarantees the reliability of plate body subassembly.

In this embodiment, the aluminium enclosure further comprises a third sealing strip 553, a fourth sealing strip 554 and a fifth sealing ring 555, the third sealing strip 553 being disposed between the first enclosure 232 and the fourth enclosure 252, the fourth sealing strip 554 being disposed between the second enclosure and the fourth enclosure 252, and the fifth sealing ring 555 being disposed between the sixth enclosure and the third enclosure 222 and the sixth enclosure and the fourth enclosure.

As shown in fig. 5, the connecting assembly further includes a plurality of riveting members 33, and the frame structure 10 has a plurality of fifth riveting holes; the first side plate assembly 23 further includes two vertically arranged first side plates 233, the two first side plates 233 are respectively arranged at two opposite sides of the first side plate 232, the two first side plates 233 are respectively provided with a first riveting hole, and at least one riveting member 33 passes through the first riveting hole and the fifth riveting hole to rivet the first side plates 233 and the frame structure 10; the second side plate assembly 24 further includes two second side plates vertically disposed, the two second side plates are respectively disposed on two opposite sides of the second side plate, the two second side plates are respectively provided with a second riveting hole, and at least one riveting member 33 passes through the second riveting hole and the fifth riveting hole to rivet the second side plate and the frame structure 10; the third surrounding plate 222 has third riveting holes on opposite sides thereof, and at least one riveting member 33 passes through the third riveting hole and the fifth riveting hole to rivet the third surrounding plate 222 and the frame structure 10. Set up like this, can reduce the aluminum product rack and to joint strip's use, the installation is simple. Optionally, rivet 33 is a blind rivet.

As shown in fig. 2, the first side plate assembly 23 further includes a first reinforcing beam 234, the first reinforcing beam 234 is disposed on the first plate 231, and two ends of the first reinforcing beam 234 are respectively connected to the first enclosing plate 232; the second side plate assembly 24 further includes a second reinforcing beam disposed on the second plate body, and two ends of the second reinforcing beam are connected to the second enclosing plate respectively. By the arrangement, the structural strength of the first side plate assembly 23 and the second side plate assembly 24 is improved, and the reliability of the aluminum cabinet is improved. Optionally, the back plate assembly 26 has a third reinforcing beam 261 thereon, the third reinforcing beam 261 is disposed on the sixth plate body, and both ends of the third reinforcing beam 261 are respectively connected with the sixth enclosing plate. By the arrangement, the structural strength of the back plate assembly 26 is improved, and the reliability of the aluminum cabinet is improved.

Specifically, the bottom plate assembly 25 includes a fourth plate 251 and a fourth surrounding plate 252 disposed around the fourth plate 251, and a plurality of second connection holes are disposed on both sides of the fourth surrounding plate 252 facing the first plate 231 and the second plate; wherein the connection assembly further comprises a plurality of second connection members, at least one of which passes through the frame structure 10, the second connection holes and is threadedly connected with the first connection post 32; at least one second connecting piece penetrates through the frame structure 10 and the second connecting hole and is in threaded connection with the second connecting column; the fourth enclosing plate 252 has fourth riveting holes on opposite sides thereof, and at least one riveting member 33 passes through the fourth riveting hole and the fifth riveting hole to rivet the fourth enclosing plate 252 and the frame structure 10. Set up like this, can reduce the aluminum product rack and to joint strip's use, the installation is simple.

As shown in fig. 6, the aluminum cabinet further includes a first inner board assembly 41, a second inner board assembly 42 and a third inner board assembly 43 which are disposed in the accommodating cavity 15 and are connected to the frame structure 10, wherein the first inner board assembly 41 and the first side board assembly 23 are disposed correspondingly, the second inner board assembly 42 and the second side board assembly 24 are disposed correspondingly, the third inner board assembly 43 and the back board assembly 26 are disposed correspondingly, and the first inner board assembly 41, the second inner board assembly 42 and the third inner board assembly 43 surround to form an area for accommodating and mounting electrical components.

Optionally, the first inner deck assembly 41 includes a first upper inner deck assembly 411 and a first lower inner deck assembly 412, the first upper inner deck assembly 411 and the first lower inner deck assembly 412 being located on both sides of the first reinforcing cross member; the second inner deck assembly 42 includes a second upper inner deck assembly 421 and a second lower inner deck assembly 422, the second upper inner deck assembly 421 and the second lower inner deck assembly 422 being located on both sides of the second reinforcing beam; the third inner deck assembly 43 includes a third upper inner deck assembly 431 and a third lower inner deck assembly 432, and the third upper inner deck assembly 431 and the third lower inner deck assembly 432 are located on both sides of the third reinforcement beam 261. Wherein, first strengthening beam, second strengthening beam and third strengthening beam 261 set up on same horizontal plane, have the joint spout in the middle of the three strengthening beam, and the aluminum product rack still includes the joint board, and the joint board gets into from first strengthening beam, second strengthening beam's joint spout and holds in the chamber 15 and finally block in the joint spout of third strengthening beam 261, will hold chamber 15 and separate into equipment storehouse 151 and battery storehouse 152 two parts. The first upper inner plate assembly 411, the second upper inner plate assembly 421 and the third upper inner plate assembly 431 surround to form the device compartment 151, and the first lower inner plate assembly 412, the second lower inner plate assembly 422 and the third lower inner plate assembly 432 surround to form the battery compartment 152.

Alternatively, as shown in fig. 7, the first upper inner deck assembly 411 is located in the frame structure 10 and connected to the frame structure 10, the first upper inner deck assembly 411 includes a first upper inner deck 4111 and a plurality of first upper connecting plates 4112 arranged along the edge of the first upper inner deck 4111, the first upper connecting plates 4112 have first upper mounting holes thereon, the first upper deck assembly 411 further includes a seventh upper connecting member 4113, at least one seventh upper connecting member 4113 passes through the first upper mounting holes and is screwed to the frame structure 10, and a side of the first upper deck 4111 remote from the accommodating chamber 15 is flush with the outer peripheral surface of the frame structure 10. The first lower inner plate assembly 412, the second upper inner plate assembly 421, the second lower inner plate assembly 422, the third upper inner plate assembly 431, and the third lower inner plate assembly 432 are similar.

Optionally, the first inner-layer plate assembly 41, the second inner-layer plate assembly 42, and the third inner-layer plate assembly 43 are made of aluminum plates, so that the heat insulation performance of the aluminum cabinet can be improved better. Optionally, the seventh upper connecting member 4113 is a pan head thread tapping screw.

As shown in fig. 12, the aluminum cabinet further includes a plurality of first bearing blocks 51 and a plurality of hanging pieces 52, the plurality of first bearing blocks 51 are respectively welded on the upper portion of the frame structure 10, and the plurality of hanging pieces 52 and the plurality of first bearing blocks 51 are connected in a one-to-one correspondence manner. By the arrangement, the hoisting piece 52 does not need to be connected with the shell component, but passes through the shell component to be connected with the first bearing block 51 on the frame structure 10, so that the external force applied to the aluminum cabinet during hoisting is applied to the frame structure 10, the situation that the connection between the shell component and the frame structure 10 is unstable due to the external force applied to the hoisting piece 52 is avoided, and the stability of the installation of the shell component is ensured.

As shown in fig. 8 to 10, the aluminum cabinet further includes a sunshade assembly 60 and a base assembly 70, the sunshade assembly 60 is located above the top plate assembly 22, the sunshade assembly 60 includes a top cover main body 61 and a plurality of mounting posts 62 arranged on the top cover main body 61, one end of each mounting post 62 is in threaded connection with the first bearing block 51, and the other end of each mounting post 62 is in threaded connection with the lifting piece 52; the bottom plate assembly 25 is located below the bottom plate assembly 25, the base assembly 70 includes a base main body 71 and a plurality of third connecting members 72 disposed on the base main body 71, the aluminum cabinet further includes a plurality of second bearing blocks 53, the plurality of second bearing blocks 53 are respectively welded to the lower portion of the frame structure 10, and the plurality of second bearing blocks 53 and the plurality of third connecting members 72 are in one-to-one threaded connection.

In the present embodiment, the mounting post 62 sequentially passes through the top cover main body 61 and the third plate 221 and is screwed with the first bearing block 51; the third connecting member 72 sequentially passes through the base main body 71, the fourth plate 251 and is connected to the second bearing block 53. By the arrangement, the sunshade assembly 60 can not be subjected to external force when the aluminum cabinet is hoisted, and the situation that the connection between the top cover main body 61 and the top plate assembly 22 is unstable due to the external force applied by the hoisting piece 52 on the top cover main body 61 of the sunshade assembly 60 is avoided.

Optionally, the third connector 72 is a stainless steel combination bolt; hoist and mount piece 52 and erection column 62 are structure as an organic whole, and sunshade component 60 still includes the rubber gasket to play sealed and buffering effect to the hookup location of top cap main part 61 and third plate body 221, the rubber gasket setting is close to one side of roof subassembly 22 at top cap main part 61, erection column 62 pass top cap main part 61, rubber gasket, third plate body 221 in proper order and with first carrier block 51 threaded connection.

As shown in fig. 11, the door panel assembly 21 includes a hinge assembly 211, a fifth panel 212 and a fifth enclosure 213 disposed around the fifth panel 212, the aluminum cabinet further includes an adapter 54, the adapter 54 is fixedly disposed on the first side panel assembly 23 or the second side panel assembly 24, the hinge assembly 211 includes a hinge reinforcing plate 2111 and a hinge 2112, the hinge reinforcing plate 2111 and the fifth panel 212 are fixedly connected, and the hinge reinforcing plate is hinged to the adapter 54 through the hinge 2112. By means of the hinge assembly 211, the fifth plate body 212 can rotate around the rotating part 54, and therefore the accommodating cavity 15 of the aluminum cabinet can be opened and closed.

In this embodiment, the adaptor 54 is fixedly disposed on the first side plate assembly 23, the fifth plate 212 and the hinge reinforcing plate 2111 are fixedly connected together by a nut structure, the hinge 2112 is welded to the hinge reinforcing plate 2111, and then bolts are used to pass through the frame structure 10 and the first side plate 233 of the first side plate assembly 23 and fasten to the threaded holes of the hinge 2112.

As shown in fig. 3 and 12, the frame structure 10 includes a plurality of vertically arranged side sills 11, a plurality of horizontally arranged top sills 12 connecting top ends of the plurality of side sills 11, and a plurality of horizontally arranged bottom sills 13 connecting bottom ends of the plurality of side sills 11, the plurality of top sills 12 and the plurality of bottom sills 13 being arranged in one-to-one correspondence; the frame structure 10 further comprises fastening structures 14, each side beam 11 and its adjacent top beam 12 are connected by a fastening structure 14, and each side beam 11 and its adjacent bottom beam 13 are connected by a fastening structure 14. Due to the arrangement, the frame structure 10 is formed by assembling and connecting, the problem that the strength of a welding and forming structure of an aluminum structure is low in the prior art is solved, and the bearing capacity of the frame structure 10 is further improved.

Optionally, the number of the side beams 11, the top beams 12 and the bottom beams 13 is 4, the number of the side beams 11, the top beams 12 and the bottom beams 13 is C-shaped, and the joints of the side beams 11 and the top beams 12 and the joints of the side beams 11 and the bottom beams 13 are reinforced by welding to improve the load-bearing capacity of the frame structure 10. The fastening structure 14 includes a coupling socket and a pan head self-tapping lock screw on the coupling socket.

Optionally, the frame structure 10 further includes a plurality of auxiliary side beams and a plurality of auxiliary cross beams to enhance the structural strength of the frame structure 10.

Alternatively, the first bearing block 51 is disposed inside the upper end of the side sill 11, and the end surface of the first bearing block 51 facing the roof panel assembly 22 is flush with the upper end surface of the frame structure 10. A second bearing block is provided inside the lower end of the side beam 11, the end face of the second bearing block facing the floor assembly 25 being flush with the lower end face of the frame structure 10.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. An aluminum cabinet having a receiving cavity (15), comprising:

a frame structure (10);

the outer shell part comprises a door panel component (21) and a plurality of plate components, the plate components are connected with the frame structure (10) through the connecting component, the plate components are coated on the outer peripheral surface of the frame structure (10) to form the accommodating cavity (15), and the door panel component (21) can be arranged on the frame structure (10) in an opening-closing mode to plug or open the opening of the accommodating cavity (15);

the frame structure (10), the door panel assembly (21) and the plurality of plate body assemblies are all aluminum structures.

2. The aluminum cabinet of claim 1,

the frame structure (10) is a cuboid structure, the plurality of plate body assemblies comprise a top plate assembly (22), a first side plate assembly (23), a second side plate assembly (24), a bottom plate assembly (25) and a back plate assembly (26), the top plate assembly (22) is arranged at the upper end of the frame structure (10), the bottom plate assembly (25) is arranged at the lower end of the frame structure (10), the first side plate assembly (23) and the second side plate assembly (24) are respectively arranged at two opposite sides of the frame structure (10), the door plate assembly (21) and the back plate assembly (26) are both positioned between the first side plate assembly (23) and the second side plate assembly (24), and the door plate assembly (21) and the back plate assembly (26) are oppositely arranged;

the two ends of the top plate assembly (22) are respectively connected with the upper ends of the first side plate assembly (23) and the second side plate assembly (24), and the two ends of the bottom plate assembly (25) are respectively connected with the lower ends of the first side plate assembly (23) and the second side plate assembly (24).

3. The aluminum cabinet of claim 2,

the connecting assembly comprises a plurality of first connecting pieces (31), the first connecting pieces (31) are distributed on two opposite sides of the frame structure (10), the frame structure (10) is provided with the top plate assembly (22) and the first side plate assembly (23) which are sequentially connected through the first connecting pieces (31), and the frame structure (10) is provided with the top plate assembly (22) and the second side plate assembly (24) which are sequentially connected through the first connecting pieces (31).

4. The aluminum cabinet of claim 2,

the connecting assembly comprises a plurality of second connecting pieces, the second connecting pieces are distributed on two opposite sides of the frame structure (10), the bottom plate assembly (25) and the first side plate assembly (23) are sequentially connected through the second connecting pieces, and the frame structure (10), the bottom plate assembly (25) and the second side plate assembly (24) are sequentially connected through the second connecting pieces.

5. The aluminum cabinet of claim 3,

the first side plate assembly (23) comprises a first plate body (231) and a first side plate (232) arranged around the first plate body (231), and the connecting assembly further comprises a first connecting column (32), wherein the first connecting column (32) is arranged on one side, facing the frame structure (10), of the first plate body (231);

the second side plate assembly (24) comprises a second plate body and a second side plate arranged around the second plate body, and the connecting assembly further comprises a second connecting column arranged on one side, facing the frame structure (10), of the second plate body;

the top plate assembly (22) comprises a third plate body (221) and a third enclosing plate (222) arranged around the third plate body (221), and first connecting holes are formed in two sides, facing the first plate body (231) and the second plate body, of the third enclosing plate (222);

wherein at least one of said first connectors (31) passes through said frame structure (10), said first connection holes and is threadedly connected with said first connection posts (32); at least one of said first connectors (31) passes through said frame structure (10), said first connection holes and is screwed to said second connection studs.

6. The aluminum cabinet of claim 5, further comprising:

a first sealing strip (551), the first sealing strip (551) being disposed between the first enclosure (232) and the third enclosure (222);

a second sealing bead (552), the second sealing bead (552) disposed between the second enclosure and the third enclosure (222).

7. The aluminum cabinet of claim 5,

the connecting assembly further comprises a plurality of riveting pieces (33), and a plurality of fifth riveting holes are formed in the frame structure (10);

the first side plate assembly (23) further comprises two vertically arranged first side plates (233), the two first side plates (233) are respectively arranged on two opposite sides of the first side plate (232), each of the two first side plates (233) is provided with a first riveting hole, and at least one riveting piece (33) penetrates through the first riveting hole and the fifth riveting hole to rivet the first side plate (233) and the frame structure (10);

the second side plate assembly (24) further comprises two second side plates which are vertically arranged, the two second side plates are respectively arranged on two opposite sides of the second side plate, second riveting holes are formed in the two second side plates, and at least one riveting piece (33) penetrates through the second riveting holes and the fifth riveting hole to rivet the second side plates and the frame structure (10);

and the opposite sides of the third enclosing plate (222) are provided with third riveting holes, and at least one riveting piece (33) penetrates through the third riveting holes and the fifth riveting holes so as to rivet the third enclosing plate (222) and the frame structure (10).

8. The aluminum cabinet of claim 5,

the first side plate assembly (23) further comprises a first reinforcing cross beam (234), the first reinforcing cross beam (234) is arranged on the first plate body (231), and two ends of the first reinforcing cross beam (234) are respectively connected with the first enclosing plate (232);

the second side plate assembly (24) further comprises a second reinforcing cross beam, the second reinforcing cross beam is arranged on the second plate body, and two ends of the second reinforcing cross beam are connected with the second enclosing plate respectively.

9. The aluminum cabinet of claim 7,

the bottom plate assembly (25) comprises a fourth plate body (251) and a fourth enclosing plate (252) arranged around the fourth plate body (251), and a plurality of second connecting holes are formed in the fourth enclosing plate (252) towards the two sides of the first plate body (231) and the second plate body;

wherein the connection assembly further comprises a plurality of second connectors, at least one of which passes through the frame structure (10), the second connection hole and is in threaded connection with the first connection post (32); at least one second connecting piece penetrates through the frame structure (10) and the second connecting hole and is in threaded connection with the second connecting column;

and the opposite sides of the fourth enclosing plate (252) are provided with fourth riveting holes, and at least one riveting piece (33) penetrates through the fourth riveting holes and the fifth riveting holes so as to rivet the fourth enclosing plate (252) and the frame structure (10).

10. The aluminum cabinet of claim 2,

the aluminum cabinet further comprises a first inner layer board assembly (41), a second inner layer board assembly (42) and a third inner layer board assembly (43) which are arranged in the accommodating cavity (15) and connected with the frame structure (10), wherein the first inner layer board assembly (41) and the first side board assembly (23) are correspondingly arranged, the second inner layer board assembly (42) and the second side board assembly (24) are correspondingly arranged, the third inner layer board assembly (43) and the back board assembly (26) are correspondingly arranged, and the first inner layer board assembly (41), the second inner layer board assembly (42) and the third inner layer board assembly (43) surround an area for accommodating and mounting electrical components.

11. The aluminum cabinet of claim 2,

the aluminum cabinet further comprises a plurality of first bearing blocks (51) and a plurality of hoisting pieces (52), the first bearing blocks (51) are welded to the upper portion of the frame structure (10) respectively, and the hoisting pieces (52) are connected with the first bearing blocks (51) in a one-to-one corresponding mode.

12. The aluminum cabinet of claim 11,

the aluminum cabinet further comprises a sun-shading assembly (60) and a base assembly (70), wherein the sun-shading assembly (60) is positioned above the top plate assembly (22), the sun-shading assembly (60) comprises a top cover main body (61) and a plurality of mounting columns (62) arranged on the top cover main body (61), one ends of the mounting columns (62) are in threaded connection with the first bearing block (51), and the other ends of the mounting columns (62) are in threaded connection with the hoisting piece (52);

the aluminum cabinet is characterized in that the bottom plate assembly (25) is located below the bottom plate assembly (25), the base assembly (70) comprises a base main body (71) and a plurality of third connecting pieces (72) arranged on the base main body (71), the aluminum cabinet further comprises a plurality of second bearing blocks (53), the second bearing blocks (53) are welded to the lower portion of the frame structure (10) respectively, and the second bearing blocks (53) and the third connecting pieces (72) are in one-to-one threaded connection.

13. The aluminum cabinet of claim 2,

door plant subassembly (21) include hinge assembly (211), fifth plate body (212) and center on fifth bounding wall (213) that fifth plate body (212) set up, the aluminum product rack still includes adaptor (54), adaptor (54) are fixed to be set up first side board subassembly (23) or on second side board subassembly (24), hinge assembly (211) are including articulated reinforcing plate (2111) and hinge (2112), articulated reinforcing plate (2111) with fifth plate body (212) fixed connection, articulated reinforcing plate (2111) pass through hinge (2112) with adaptor (54) are articulated.

14. The aluminum cabinet of claim 2,

the frame structure (10) comprises a plurality of vertically arranged side beams (11), a plurality of horizontally arranged top beams (12) for connecting the top ends of the side beams (11), and a plurality of horizontally arranged bottom beams (13) for connecting the bottom ends of the side beams (11), wherein the top beams (12) and the bottom beams (13) are arranged in a one-to-one correspondence manner; the frame structure (10) further comprises fastening structures (14), any one of the side beams (11) and the top beam (12) adjacent to the side beam are connected through the fastening structures (14), and any one of the side beams (11) and the bottom beam (13) adjacent to the side beam are connected through the fastening structures (14).

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