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Cabinet easy to disassemble, assemble and convey

A cabinet and fiberboard technology, applied in the field of furniture, can solve the problems of frame deformation, perforation deformation damage, easy bending deformation, etc., to achieve the effect of improving rigidity and bearing capacity, avoiding bending deformation, and ensuring rigidity

Inactive Publication Date: 2017-10-10
端木乐善
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Some of the existing cabinets are made of frames inlaid with plates. Typically, metal frames are used to inlay plates on the four walls of the metal frame. In this kind of cabinets, the plates play a role in stabilizing the frame. Therefore, there is no need to perform such operations on the plates. Inlaid grooves, fixing holes, etc., so that the board can choose fiberboard and wood board that are easy to process, or toughened glass that is not easy to process. However, this kind of cabinet is not easy to modify the frame, so it appears outside The frame is easy to have a negative impact on the overall look and feel of the cabinet. Since the plates are inlaid in the inlay grooves on the frame, the plates will not be very thick. In this way, it is not easy to process on the plates such as inlays for setting partitions. Supporting structures such as grooves; some use thick plates as supporting structures, typically thick fiberboards, use the good processing performance of thick fiberboards, process grooves and holes on thick fiberboards, and use quick-connect hooks, The buckle connects the left, right, upper and lower thick fiberboards that make up the frame. When assembling and connecting this kind of cabinet, it is necessary to directly screw the screws on the fiberboards. It is determined by the nature of the fiberboards. When the screws are screwed multiple times, the thread of the screw holes It will be damaged, even if the board with a relatively hard texture, such as wood, is relatively moved between the screw and the perforation of the board when the screw is tightened, the perforation will be deformed and damaged under the relative movement of pressure. In addition, the rigidity of the fiberboard Insufficient, easy to bend and deform. When used as a large span, it is easy to deform the entire frame due to bending deformation. Therefore, the pressure bearing capacity of the cabinet is insufficient, and when the connection is applied, the connecting part of the fiberboard will be deformed. Therefore, if the cabinet after assembly When it needs to be disassembled and then reassembled, it is often impossible to restore the connection firmness and accuracy of the first assembly due to the deformation of the connecting part. Moreover, as the number of disassembly and assembly increases, this situation will Continuous accumulation and enlargement lead to the loss of the meaning of reassembly. Moreover, due to the heavy weight of the thick fiberboard itself, the frame composed of at least four panels is very heavy, and it is not suitable to be suspended and fixed on the wall (such as used as a wall cabinet) , it can only be used on the ground, which limits its scope of use

Method used

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  • Cabinet easy to disassemble, assemble and convey
  • Cabinet easy to disassemble, assemble and convey
  • Cabinet easy to disassemble, assemble and convey

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 2

[0026] Embodiment two: such as Figure 5 As shown, this embodiment is based on the first embodiment. Between the thick fiberboards or thick wood boards 1 vertically placed on the two outer sides of the cabinet, a thick fiberboard or thick wood board 18 is placed vertically in the middle to divide the cabinet into horizontally arranged There are several compartments. The two sides of the thick fiberboard or thick wood board 18 vertically placed in the middle are connected with tubular aluminum profile 3, and the thick fiber board or thick wood board 18 vertically placed in the middle of the corresponding tubular aluminum profile 3 is provided with a through hole 19, the tubular aluminum profile 3 The inlaid post 9 on the plastic connector 7 inlaid at the end is inserted into the through hole 19, and the screw 15 connects the tubular aluminum profile on both sides 3 the plastic connector 7 inlaid at the end to connect the thick fiberboard or The tubular aluminum profiles 3 on both...

Embodiment 3

[0028] Example three: such as Image 6 As shown, this embodiment is based on the above embodiments. The plastic connecting piece 7 is connected to the inserting block 21 with the perforation 20 in the middle through the hook 7a on the plastic connecting piece 7 and the buckle 21a on the inserting block 21. 21 is inserted into the tubular aluminum profile 3 behind the cabinet, and the tubular aluminum profile 3 corresponding to the perforation 20 of the inlay block 21 is provided with a perforation 22. In this way, the cabinet can be firmly fixed to the wall by the bolts 23 passing through the perforations 22 of the tubular aluminum profile 3 and the perforations 20 of the inlay block 21. The inlay block 21 provided with a through hole 20 enhances the rigidity of the tube wall of the tubular aluminum profile 3, so that even under the action of the tightening force of the bolt 23, the tubular aluminum profile 3 will not be deformed, ensuring that the bolts have enough The fasteni...

Embodiment 4

[0029] Embodiment four: such as Figure 7 As shown, this embodiment is based on the above-mentioned embodiment, the thick fiberboard or thick wood board 1 vertically placed is superimposed by head and tail projection, the thick fiber board or thick wood board 1a vertically placed in front, and the thick fiberboard or thick wood board 1b vertically placed behind. It consists of a tubular aluminum profile 3, plastic connectors 7 embedded in the ends of the tubular aluminum profile 3, between the tail of the thick fiberboard or thick wood 1a placed vertically and the head of the thick fiberboard or thick wood 1b placed vertically. The screws 15 of the T-shaped inlay block 14 in the outer counterbore 12 of the thick fiberboard or thick wood board 1a set up vertically are fixedly connected together, so that the constituted cabinet has a concave step a, so that it can be placed in There is a protrusion b on the position against the wall c.

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PUM

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Abstract

Disclosed is a cabinet easy to disassemble, assemble and convey. The cabinet is characterized by comprising a thick fiber board, tubular aluminum profiles with embedded grooves and a panel; plastic connecting pieces are embedded at the two ends of the tubular aluminum profiles, an embedded column with a through hole is arranged at the outer side edge of each plastic connecting piece, a nut communicated with the through hole is arranged inside each plastic connecting piece, embedded through holes are formed in the thick fiber board, the embedded columns are embedded into the embedded through holes, counter bores are formed in the outer sides of the embedded through hole, T-shaped embedded blocks with through holes are arranged inside the counter bores, screws run through the through holes in the T-shaped embedded blocks and the through holes in the embedded columns to be screwed to the nuts, and the panel is embedded to the opposite embedded grooves of the two tubular aluminum profiles. Compared with the prior art, the cabinet has the advantages that assembling, disassembling and conveying are conveniently performed, connections are not damaged after repeated assembling and disassembling, the weight is low, the rigidity and bearing capacity are high, and the rigidity of a frame body can be kept after repeated assembling and disassembling.

Description

Technical field: [0001] The invention relates to a piece of furniture. Background technique: [0002] Some of the existing cabinets are made of frame-inlaid plates. Typically, a metal frame is used to inlay plates on the four walls of the metal frame. In this type of cabinet, the plate serves as a stable frame. Therefore, there is no need to perform such as Inlay grooves, fixing holes, etc., so that you can choose fiberboards and wood boards that are easy to process, or toughened glass that is not easy to process. However, this type of cabinet is not easy to modify the frame, so it appears outside The frame is easy to have a negative impact on the overall look and feel of the cabinet. Since the plate is embedded in the inlay groove on the frame, the plate will not be very thick. In this way, it is not easy to process the plate on the plate for setting the partition such as inlay Support structures such as grooves; some use thick plates as supporting structures, typical such as t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A47B47/00A47B47/04A47B47/06A47B96/00
Inventor 端木乐善
Owner 端木乐善