CN-224225795-U - Energy storage container mounting rack

Abstract

The utility model relates to the technical field of installation frames and discloses an energy storage container installation frame which comprises an outer frame, wherein a plurality of positioning holes are formed in two sides of the outer frame and distributed up and down, a plurality of sliding frame assemblies are arranged in the outer frame in a sliding mode, and each sliding frame assembly comprises two longitudinal square tubes which are slidably arranged on the inner side edge of the outer frame. According to the utility model, through the transverse sliding connection between the sliding frame components and the outer frame, the number of the sliding frame components can be increased or decreased, the transverse distance between the sliding frame components is adjusted by matching with the fixed components and the positioning holes, and meanwhile, the distance between the bearing plates can be longitudinally adjusted by matching with the through holes and the movable partition plate components.

Inventors

• CHENG KANG
• HU WEI
• YANG YI

Assignees

• 武汉德盛机械制造有限公司

Dates

Publication Date

20260512

Application Date

20250422

Claims (7)

1. 1. The utility model provides an energy storage container mounting bracket, its characterized in that includes outer frame, a plurality of locating holes of upper and lower distribution have all been seted up to the both sides of outer frame, the inside slip of outer frame is provided with a plurality of carriage subassemblies, the carriage subassembly includes that two slidable mounting have the vertical side pipe of outer frame medial border, the welding has two H type pipes of upper and lower distribution between the vertical side pipe, the inside of vertical side pipe all runs through and is provided with a plurality of through-holes, the both sides of vertical side pipe all weld a plurality of reinforcing seat, reinforcing seat all is located the below of adjacent through-hole, and the front and back is adjacent connect with movable baffle subassembly between the through-hole, be connected with fixed subassembly between the both sides of H type pipe and the adjacent locating hole.
2. 2. The energy storage container mounting frame according to claim 1, wherein the fixing assembly comprises a fixing plate A and a fixing plate B welded on the outer side of the H-shaped pipe, the fixing plate A and the fixing plate B are distributed in a front-back parallel mode, a reinforcing bolt is connected between the fixing plate A and the fixing plate B in a penetrating mode, one end of the reinforcing bolt penetrates into the adjacent positioning hole, one end of the reinforcing bolt, close to the positioning hole, is connected with a locking nut in a threaded mode, and the inner side of the locking nut abuts against the outer side wall of the outer frame.
3. 3. The energy storage container mounting frame as claimed in claim 2, wherein the diameter of the reinforcing bolt is matched with the inner diameter of the positioning hole, and the reinforcing bolt is movably connected with the fixing plate A and the fixing plate B.
4. 4. The energy storage container mounting frame according to claim 1, wherein the movable partition plate assembly comprises a bearing plate, connecting plates are fixed at the left end and the right end of the inner side of the bearing plate, the inner sides of the connecting plates penetrate through the adjacent through holes and are fixed with limiting plates, and the bottom ends of the bearing plate are propped against the top ends of the reinforcing seats.
5. 5. The energy storage container mounting rack of claim 4, wherein the bearing plate, the limiting plate and the connecting plate are of an integrated structure, and the bearing plate is horizontally distributed on the sliding frame assembly.
6. 6. The energy storage container mounting rack of claim 4 wherein the connecting plate is located at one quarter of the length of the limiting plate, the length of the limiting plate is greater than the length of the through hole, and the length of the through hole is less than three-quarters of the limiting plate and greater than one-quarter of the limiting plate.
7. 7. The energy storage container mounting frame as claimed in claim 4, wherein a plurality of reinforcing rings are uniformly sleeved on the outer portion of the bearing plate, the reinforcing rings slide up and down along the outer wall of the bearing plate, and the reinforcing rings and the reinforcing seats are alternately distributed.

Description

Energy storage container mounting rack Technical Field The utility model relates to the technical field of mounting frames, in particular to an energy storage container mounting frame. Background The energy storage container is a box structure with a plurality of battery modules arranged inside, wherein in order to ensure that a plurality of battery modules are stored as much as possible, a special mounting frame is generally arranged inside the energy storage container, and the battery packs are orderly placed on the mounting frame for centralized storage. The patent publication number CN220290989U discloses an adjustable mounting rack for an energy storage container, which comprises sliding brackets, wherein the sliding brackets are provided with two rows, each row is provided with a plurality of sliding brackets, the two rows of sliding brackets are sequentially distributed from top to bottom, a limit box is fixed at the bottom of the sliding bracket above the sliding brackets through bolts, battery packs with different sizes are borne, scissor type expansion brackets connected with a transverse plate are subjected to resistance of the transverse plate, the sliding brackets are convenient to pull the scissor type expansion brackets to stretch, and the limit box plays a limit role on the battery packs, so that the battery packs are prevented from shifting towards two sides. The device mainly realizes the adjustment effect on the space between limit boxes through the transverse telescopic movement of the scissor type telescopic frame, but the scissor type telescopic frame in the structure can only carry out transverse adjustment, but can not carry out longitudinal space adjustment, so that the adjustable range of the mounting frame is limited, and the device is not easy to adapt to battery packs with more specifications, and therefore, certain improvement space exists. Disclosure of utility model The utility model provides an energy storage container mounting rack, which aims to overcome the defect that the transverse and longitudinal multidirectional adjustment of the placement distance on the mounting rack is difficult to realize in the prior art. The technical scheme includes that the energy storage container mounting frame comprises an outer frame, a plurality of locating holes are formed in two sides of the outer frame, a plurality of sliding frame assemblies are arranged in the outer frame in a sliding mode, the sliding frame assemblies comprise two longitudinal square tubes which are slidably arranged on the inner side edges of the outer frame, two H-shaped tubes which are vertically distributed are welded between the longitudinal square tubes, a plurality of through holes are formed in the longitudinal square tubes in a penetrating mode, a plurality of reinforcing seats are welded on two sides of the longitudinal square tubes, the reinforcing seats are located below the adjacent through holes, movable partition plate assemblies are connected between the front adjacent through holes and the rear adjacent through holes, and fixing assemblies are connected between two sides of the H-shaped tubes and the adjacent locating holes. Preferably, the fixed subassembly is including welding fixed plate A, fixed plate B in the H type pipe outside, and fixed plate A, fixed plate B are front and back parallel distribution, and through-connection has the reinforcing bolt between fixed plate A and the fixed plate B, and reinforcing bolt's one end runs through to adjacent locating hole's inside, and reinforcing bolt is close to the one end threaded connection of locating hole has lock nut, and lock nut's inboard offsets with the lateral wall of outer frame. Preferably, the diameter of the reinforcing bolt is matched with the inner diameter of the positioning hole, and the reinforcing bolt is movably connected with the fixing plate A and the fixing plate B. Preferably, the movable partition plate assembly comprises a bearing plate, the left end and the right end of the inner side of the bearing plate are respectively fixed with a connecting plate, the inner side of each connecting plate penetrates through the inner part of each adjacent through hole and is fixed with a limiting plate, and the bottom end of the bearing plate is propped against the top end of the reinforcing seat. Preferably, the bearing plate, the limiting plate and the connecting plate are of an integrated structure, and the bearing plate is horizontally distributed on the sliding frame assembly. Preferably, the connecting plate is located at a quarter of the length of the limiting plate, the length of the limiting plate is greater than the length of the through hole, and the length of the through hole is less than three quarters of the limiting plate and greater than one quarter of the limiting plate. Preferably, a plurality of reinforcing rings are uniformly sleeved on the outer part of the bearing plate, and slide up and down along the outer wall