CN-224223868-U - Liquefied gas steel bottle stacking rack

Abstract

The utility model relates to a liquefied gas steel cylinder stacking rack, and belongs to the technical field of storage racks. The lifting jack comprises a base, a frame, a placing mechanism, a connecting rod and a lifting jack, wherein the frame is fixed on the base, the placing mechanism is rotatably arranged on the frame through a swivel seat, adjacent placing mechanisms are connected through the connecting rod, and the lifting jack drives the bottom placing mechanism to rotate and link the upper layer to incline synchronously. The placing mechanism comprises a bearing plate, a cross beam, bearing parts, a limiting plate, an adjusting driving assembly and a linkage assembly, wherein the cross beam is arranged in the bearing plate in a central shaft manner, the bearing parts are symmetrically arranged, the adjusting driving assembly is matched with the linkage assembly, the steel bottle is driven by gravity to adjust the bearing seat to slide, and the edge of the bearing plate is covered by the linkage limiting plate in a rotating manner, so that the steel bottle is automatically limited. The jack resets when getting and putting, and compression spring promotes the steel bottle return, and the limiting plate resets in step. The utility model improves stacking safety and operation convenience through linkage adjustment and automatic limiting design, and is suitable for storage and transportation scenes of the liquefied gas steel cylinders.

Inventors

• HU JIAN

Assignees

• 神木市益隆液化气有限公司

Dates

Publication Date

20260512

Application Date

20250529

Claims (8)

1. 1. The liquefied gas steel cylinder stacking rack is characterized by comprising a base (1), wherein a frame (2) is fixedly arranged on the base (1), a plurality of placing mechanisms (3) are rotatably arranged through the frame (2), and an upper adjacent placing mechanism and a lower adjacent placing mechanism (3) are connected through a connecting rod (4), wherein one end of a jack (5) is fixedly arranged on the base (1), and the other end of the jack (5) is abutted with the placing mechanism (3) close to the base (1); The placement mechanism (3) comprises a bearing plate (31), the bearing plate (31) is rotatably arranged on the frame (2) through a swivel mount (38), a cross beam (32) is fixedly arranged on the central axis of the bearing plate (31), two groups of bearing pieces (35) are symmetrically and fixedly arranged on the bearing plate (31) by taking the cross beam (32) as an axis, and a limiting plate (34) is further rotatably arranged on the bearing plate (31); The placing mechanism (3) further comprises an adjusting driving assembly (36) and a linkage assembly (37), the adjusting driving assembly (36) and the linkage assembly (37) are both arranged on the bearing plate (31), one end of the linkage assembly (37) is connected with the adjusting driving assembly (36), and the other end of the linkage assembly is connected with the limiting plate (34).
2. 2. The liquefied gas steel cylinder stacking rack as set forth in claim 1, wherein the adjusting driving assembly (36) comprises a limit sliding rail (361), the limit sliding rail (361) is fixedly arranged on the bearing plate (31), an adjusting bearing seat (362) is slidably arranged on the limit sliding rail (361), one end of a compression spring (363) is arranged through the adjusting bearing seat (362), and the other end of the compression spring (363) is fixedly arranged on the bearing plate (31); the adjusting drive assembly (36) further comprises a connecting groove (364), and the connecting groove (364) is formed in the bearing plate (31) in a penetrating mode.
3. 3. The liquefied gas steel cylinder stacking rack as set forth in claim 2, wherein the linkage assembly (37) comprises a slide way (371), the slide way (371) is fixedly arranged on the back of the bearing plate (31), a connecting rod (372) is slidably arranged in the slide way (371), one end of the connecting rod (372) is connected with the adjusting bearing seat (362) through the connecting groove (364), the other end of the connecting rod is connected with one end of an adjusting spring (374), a T-shaped rod (373) is arranged at the other end of the adjusting spring (374), and the T-shaped rod (373) is slidably arranged in the slide way (371).
4. 4. The liquefied gas steel cylinder stacking rack as set forth in claim 3, wherein said linkage assembly (37) further comprises two sliding grooves (375), said two sliding grooves (375) are formed on said carrying plate (31) with said sliding grooves (371) as symmetry axes, a rack (378) is slidably disposed in said sliding grooves (375), and said rack (378) is connected to said T-shaped rod (373).
5. 5. The liquefied gas cylinder stacking rack as set forth in claim 4, wherein a base is provided on said carrying plate (31), said limiting plate (34) is rotatably provided on said base, a gear (376) is provided on a connecting shaft of said limiting plate (34) and said base, and said gear (376) is engaged with said rack (378).
6. 6. A liquefied gas steel cylinder stacking rack as claimed in claim 1, wherein a plurality of connection turntables (6) are provided on the frame (2) corresponding to the bearing plates (31), and the bearing plates (31) are rotatably provided on the connection turntables (6).
7. 7. A liquefied gas cylinder stacking rack as claimed in claim 2, wherein a barrier strip is provided on said adjustment bearing seat (362).
8. 8. The liquefied gas steel cylinder stacking rack as set forth in claim 1, wherein a clamping groove (33) is formed in the cross beam (32) in a penetrating mode, and the connecting rod (4) is connected with the upper adjacent bearing plate (31) and the lower adjacent bearing plate (31) through the clamping groove (33).

Description

Liquefied gas steel bottle stacking rack Technical Field The utility model belongs to the technical field of storage racks, and particularly relates to a liquefied gas steel cylinder stacking rack. Background The liquefied gas steel cylinder is used as a common gas storage container, and the safe stacking and convenient management of the liquefied gas steel cylinder are key requirements of storage, transportation and use links. At present, the common liquefied gas steel bottle stacking rack in the market adopts fixed structural design more, mainly has following technical defect: Firstly, the safety and stability are not enough. The steel cylinders are usually fixed through simple limiting blocks, grooves or binding bands, when the stacking frame is inclined due to carrying, transporting or external vibration, the steel cylinders are easy to slide or even topple due to gravity center deviation, potential safety hazards such as steel cylinder collision and gas leakage exist, and the fixed limiting structure cannot be dynamically adjusted according to the actual positions of the steel cylinders, so that the limiting effect is limited. Secondly, the space utilization rate is low. The number of layers and interlayer spacing of the existing stacking rack are mostly of fixed design, are difficult to flexibly adjust according to the space or the number of steel cylinders, and especially in storage or transportation scenes with limited vertical space, the multi-layer steel cylinders cannot be stacked compactly through an inclined or linked structure, so that space resource waste is caused. Thirdly, the operation convenience is poor. When the steel cylinders are taken and placed, the limiting structures (such as the disassembly of the binding bands and the adjustment of the limiting blocks) are manually removed or installed one by one, and the steel cylinders at the bottom or deep layer are taken and placed by one to move the upper layer of the steel cylinders, so that the operation is tedious, time is consumed, and the operation efficiency is reduced. Fourth, the suitability is single. The spacing size and inclination of traditional stack are fixed, are difficult to adapt to the liquefied gas steel bottle of different specifications (such as height, diameter) or weight, need change special stack to special size steel bottle, increase use cost and management complexity. To sum up, the existing liquefied gas steel cylinder stacking frame has obvious defects in the aspects of safety stability, space utilization rate, operation convenience, suitability and the like, and a novel stacking frame design which can be dynamically limited, adjusted in a linkage mode and is high in suitability is needed. Disclosure of utility model The liquefied gas steel cylinder stacking rack comprises a base, wherein a frame is fixedly arranged on the base, a plurality of placing mechanisms are rotatably arranged through the frame, an upper adjacent placing mechanism and a lower adjacent placing mechanism are connected through a connecting rod, one end of a jack is fixedly arranged on the base, and the other end of the jack is abutted with the placing mechanism close to the base. The placing mechanism comprises a bearing plate, the bearing plate is rotatably arranged on the frame through a swivel mount, a cross beam is fixedly arranged on the axis of the bearing plate, two groups of bearing pieces are symmetrically and fixedly arranged on the bearing plate by taking the cross beam as an axis, and a limiting plate is further rotatably arranged on the bearing plate. The placing mechanism further comprises an adjusting driving assembly and a linkage assembly, wherein the adjusting driving assembly and the linkage assembly are arranged on the bearing plate, one end of the linkage assembly is connected with the adjusting driving assembly, and the other end of the linkage assembly is connected with the limiting plate. As a further improvement of the utility model, the adjusting driving assembly comprises a limiting sliding rail which is fixedly arranged on the bearing plate, an adjusting bearing seat is arranged on the limiting sliding rail in a sliding manner, one end of a compression spring is arranged through the adjusting bearing seat, and the other end of the compression spring is fixedly arranged on the bearing plate. The adjusting driving assembly further comprises a connecting groove, and the connecting groove is arranged on the bearing plate in a penetrating mode. As a further improvement of the utility model, the linkage assembly comprises a slideway, the slideway is fixedly arranged on the back surface of the bearing plate, a connecting rod is slidably arranged in the slideway, one end of the connecting rod is connected with the adjusting bearing seat through the connecting groove, the other end of the connecting rod is connected with one end of the adjusting spring, the other end of the adjusting spring is provided with a T-shaped rod