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CN-224209930-U - Metal material frame capable of realizing multi-layer adjustment

CN224209930UCN 224209930 UCN224209930 UCN 224209930UCN-224209930-U

Abstract

The utility model belongs to the technical field of material frames, and in particular relates to a metal material frame capable of realizing multi-layer adjustment, which comprises a material frame main body, the device comprises a bottom plate provided with a bottom side, upright rods connected to the surfaces of four corner sides of the bottom plate, and a top plate connected to the top of the inner wall of the upright rods; the adjusting component comprises a middle layer partition plate arranged between the bottom plate and the top plate and positioned at the inner side of the vertical rod, a linkage part arranged at the bottom side of the bottom plate and penetrating through the middle layer partition plate, and a fixing part connected between the middle layer partition plate and the linkage part. According to the utility model, through the use of the first knob, the linkage rod, the driving bevel gear, the driven bevel gear, the threaded rod and the inner spiral tube, the height of the middle layer partition plates in two layers can be adjusted at the same time, so that the efficiency of adjusting the height of the middle layer partition plates can be improved, and the manual labor capacity is reduced.

Inventors

  • BAO CUIZHU
  • Wang Cishui
  • WANG LEI

Assignees

  • 芜湖浩安金属材料制品有限公司

Dates

Publication Date
20260508
Application Date
20250604

Claims (6)

  1. 1. A metal material frame capable of realizing multi-layer adjustment is characterized by comprising, The material rack main body (100) comprises a bottom plate (101) provided with a bottom side, upright rods (102) connected to the four corner side surfaces of the bottom plate (101) and a top plate (103) connected to the top of the inner wall of the upright rods (102); The adjusting assembly (200) comprises a middle layer partition plate (201) arranged between the bottom plate (101) and the top plate (103) and positioned at the inner side of the vertical rod (102), a linkage part (202) arranged at the bottom side of the bottom plate (101) and penetrating through the middle layer partition plate (201), and a fixing part (203) connected between the middle layer partition plate (201) and the linkage part (202).
  2. 2. The metal material rack capable of achieving multi-layer adjustment according to claim 1, wherein the linkage part (202) comprises a first bearing (202 a) penetrating through and connected to the side surface of the bottom plate (101), a linkage rod (202 b) penetrating and connected to the inside of the first bearing (202 a), a first knob (202 c) connected to the end part of the linkage rod (202 b), and a drive bevel gear (202 d) connected to the surface of the linkage rod (202 b).
  3. 3. A multi-layer adjustable metal material holder according to claim 2, wherein the linkage part (202) further comprises a second bearing (202 e) penetrating through the surface of the base plate (101), a threaded rod (202 f) penetrating through the inside of the second bearing (202 e) and penetrating through the end of the middle layer partition plate (201), a driven bevel gear (202 g) connected to the end of the threaded rod (202 f) and meshed with the driving bevel gear (202 d), and an inner screw tube (202 h) sleeved on the surface of the threaded rod (202 f) and matched in size.
  4. 4. The metal material rack capable of achieving multi-layer adjustment according to claim 3, wherein the driving bevel gear (202 d), the driven bevel gear (202 g), the threaded rod (202 f) and the inner spiral tube (202 h) are symmetrically arranged at two ends of the middle layer partition plate (201), and the threaded rod (202 f) and the inner spiral tube (202 h) are in threaded butt joint.
  5. 5. A multi-layered adjustable metallic material holder according to claim 1, wherein the fixing portion (203) comprises a third bearing (203 a) which is sleeved on top of the inner screw tube (202 h) and is installed inside the middle spacer (201), and a second knob (203 b) which is connected to the bottom end of the inner screw tube (202 h).
  6. 6. The metal material rack capable of achieving multi-layer adjustment according to claim 5, wherein the fixing portion (203) further comprises a fixing screw (203 c) penetrating through and connected to the side surface of the inner screw (202 h), a fixing hole (203 d) formed in the side surface of the middle layer partition plate (201), a fixing bolt (203 e) penetrating through the fixing hole (203 d) and matched with the inner screw (202 h), and a third knob (203 f) connected to the end portion of the fixing bolt (203 e).

Description

Metal material frame capable of realizing multi-layer adjustment Technical Field The utility model belongs to the technical field of material frames, and particularly relates to a metal material frame capable of realizing multi-layer adjustment. Background The metal material frame is generally made of steel, aluminum alloy, or other metal, and has high strength, durability, and corrosion resistance. The structural design can be customized according to actual requirements, such as modular design for assembly and disassembly, or stability enhancement by welding, bolting, etc. Part of the material rack is also provided with an adjustable laminate, a roller or a guide rail so as to adapt to the storage requirements of articles with different sizes and weights. The metal material rack can be used for storing mechanical parts, metal plates, tools and the like in the industrial field, supports mechanized carrying and automatic storage, is used as a heavy goods rack in the logistics and storage field, stores a large amount of goods and improves the space utilization rate. In the actual use process of the existing metal material frame, a bolt fixing structure is generally adopted for the connection mode of the partition plate and the upright rod, namely, the partition plate is directly locked on the side surface of the upright rod through bolts. This conventional design results in the necessity of removing the fixing bolts one by one, manually raising or lowering the partition to a target position, and then re-tightening the bolts to complete the fixing when the user needs to adjust the height of the partition according to the storage requirement. Because the number of bolts is more and accurate alignment is needed, the whole adjusting process is complex in operation steps, and also needs to consume a great deal of time and labor, especially in the scene of a multi-layer shelf or a heavy partition board, frequent dismounting operation is extremely easy to cause the problems of bolt sliding wire, abrasion of vertical rod hole sites and the like, and the maintenance cost and the potential safety hazard are further increased. Disclosure of utility model The utility model aims to provide a metal material frame capable of realizing multi-layer adjustment, and aims to solve the problems that when the existing metal material frame in the prior art is used, a partition plate is usually connected to the side surface of a vertical rod through bolts, so that when the height of the partition plate of the metal material frame needs to be adjusted, the bolts are required to be detached, then the height of the partition plate is adjusted and fixed through the bolts, and the adjustment process is complex and time and labor are wasted. In order to achieve the aim, the utility model provides a technical scheme that the metal material frame capable of realizing multi-layer adjustment comprises, The material frame main body comprises a bottom plate provided with a bottom side, upright rods connected to the surfaces of four corner sides of the bottom plate and a top plate connected to the top of the inner wall of the upright rods; the adjusting component comprises a middle layer partition plate arranged between the bottom plate and the top plate and positioned at the inner side of the vertical rod, a linkage part arranged at the bottom side of the bottom plate and penetrating through the middle layer partition plate, and a fixing part connected between the middle layer partition plate and the linkage part. As one of the metallic material frames capable of realizing the multi-layered adjustment of the present utility model, it is preferable that the interlocking part includes a first bearing penetratingly connected to a side surface of the base plate, an interlocking bar penetratingly connected inside the first bearing, a first knob connected to an end of the interlocking bar, and a drive bevel gear connected to a surface of the interlocking bar. Preferably, the linkage part further comprises a second bearing penetrating through the surface of the bottom plate, a threaded rod penetrating through the inside of the second bearing and penetrating through the end part of the middle layer partition plate, a driven bevel gear connected to the end part of the threaded rod and meshed with the driving bevel gear, and an inner screw pipe sleeved on the surface of the threaded rod and matched in size. As a metal material frame capable of realizing multi-layer adjustment, the driving bevel gear, the driven bevel gear, the threaded rod and the inner spiral tube are symmetrically arranged at two ends of the middle layer partition plate, and the threaded rod and the inner spiral tube are in threaded butt joint. Preferably, the fixing part comprises a third bearing sleeved on the top of the inner screw pipe and arranged in the middle layer partition plate, and a second knob connected to the bottom end of the inner screw pipe. The fixing part also compri