CN219366246U - Gravity energy storage block assembled in modularized mode - Google Patents

Abstract

The utility model provides a gravity energy storage block assembled in a modularized mode, and belongs to the technical field of gravity energy storage. The utility model relates to a well-shaped bracket formed by four fixing rods, wherein the well-shaped bracket is fixed in a frame, the periphery of the well-shaped bracket passes through the frame to be fixed, and the front side and the rear side of the frame are provided with cover plates to form an energy storage module; limiting blocks are arranged on two adjacent surfaces in the metal bin, adjustable limiting blocks are arranged on the other two adjacent surfaces in the metal bin, a notch corresponding to the adjustable limiting blocks is arranged on the surface of the adjustable limiting blocks on the metal bin, and the energy storage module is placed in the metal bin. The gravity energy storage block is formed by assembling a plurality of energy storage modules and the metal bin, is assembled by adopting a modularized structure, is convenient to replace and recycle, selects the size of the metal bin according to actual conditions, is suitable for different conditions, and saves cost; the energy storage module is fixed through the combination of the limiting block and the adjustable limiting block, so that the stability of the energy storage module in the metal bin is ensured, and the overall stability of the gravity energy storage block is improved.

Description

Gravity energy storage block assembled in modularized mode

Technical Field

The utility model relates to a gravity energy storage block assembled in a modularized manner, and belongs to the field of gravity energy storage.

Background

The gravity energy storage, in particular to the gravity tower gravity energy storage, is a novel energy storage technology, and is becoming a hot spot technology in the energy storage field due to the advantages of low electricity cost, flexible site selection and the like.

The gravity energy storage block is an energy storage medium unit for gravity tower type gravity energy storage, belongs to a motion component and has the characteristics of large volume and large weight. The traditional gravity energy storage block generally adopts a cuboid structure, uses single materials such as concrete and the like, is manufactured by adopting a pouring or pressing process, has higher production cost, is subjected to friction collision for a long time in the use process, is easy to generate loss and breakage, and can only be replaced integrally. The size is fixed after the casting or pressing process is generally manufactured, but under different conditions, the size and the weight requirements of the gravity energy storage block are different, and the gravity energy storage block with proper weight and size is not adopted to seriously influence the stable operation of the whole energy storage system, and cause great potential safety hazard.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and further provides a gravity energy storage block assembled in a modularized mode.

The utility model aims at realizing the following technical scheme:

the utility model provides a gravity energy storage block of modularization equipment, includes apron, dead lever, frame, filler, metal storehouse, stopper and adjustable stopper, the well style of calligraphy support that four dead levers constitute, well style of calligraphy support is fixed in the inside of frame and the frame is passed around the well style of calligraphy support and is fixed, the inside of frame is provided with the filler, the front and back both sides of frame are provided with the apron and constitute energy storage module; grooves are formed on each edge of the cover plate, and the intervals of the grooves are the same as the intervals of the fixing rods in the same direction in the cross-shaped bracket; limiting blocks are arranged on two adjacent surfaces in the metal bin, adjustable limiting blocks are arranged on the other two adjacent surfaces in the metal bin, a notch corresponding to the adjustable limiting blocks is arranged on the surface of the adjustable limiting blocks on the metal bin, and the energy storage module is placed in the metal bin.

The utility model relates to a modularized assembled gravity energy storage block, which further comprises supporting legs, wherein the supporting legs are arranged on the notch surface of a metal bin.

According to the modularized assembled gravity energy storage block, the lengths of the four fixing rods are divided into two groups, and the lengths of the two groups of fixing rods are respectively equal to the length and the width of the cover plate.

According to the modularized assembled gravity energy storage block, the cover plate, the fixing rods and the frame are made of metal.

According to the gravity energy storage block assembled in a modularized mode, the positions of the limiting block and the adjustable limiting block in the metal bin correspond to the positions of the grooves on the energy storage module.

According to the modularized assembled gravity energy storage block, the adjustable limiting block is inserted through the notch at the outer side of the metal bin.

According to the modularized assembled gravity energy storage block, the adjustable limiting block is a quadrangular prism, and the adjustable limiting block and the metal bin are welded and fixed.

The gravity energy storage block assembled in a modularized way is assembled by adopting a modularized structure through the plurality of energy storage modules and the metal bin, so that the gravity energy storage block is convenient to replace and recycle, the size of the metal bin can be selected according to actual conditions, the gravity energy storage block is suitable for different conditions, and the cost is fundamentally saved; the energy storage module is fixed through the combination of the limiting block and the adjustable limiting block, so that the stability of the energy storage module in the metal bin is ensured, and the overall stability of the gravity energy storage block is improved.

Drawings

Fig. 1 is a block diagram of an energy storage module in a modularly assembled gravity energy storage block according to the present utility model.

Fig. 2 is a schematic view of a cover plate in a modularly assembled gravity energy storage block according to the present utility model.

Fig. 3 is a schematic view of a fixing rod and a frame in a modularly assembled gravity energy storage block according to the utility model.

Fig. 4 is an overall schematic of a modularly assembled gravity energy storage block according to the present utility model.

Fig. 5 is a schematic diagram of a second embodiment of the present utility model.

Reference numeral 1 in the drawings is a cover plate; 2 is a fixed rod; 3 is a frame; 4 is a filler; 5 is a metal bin; 6, limiting the position block; 7 is an adjustable limiting block; 1-1 is a groove.

Detailed Description

The utility model will be described in further detail with reference to the accompanying drawings: the present embodiment is implemented on the premise of the technical solution of the present utility model, and a detailed implementation is given, but the scope of protection of the present utility model is not limited to the following embodiments.

Embodiment one: as shown in fig. 1-5, a modular assembled gravity energy storage block according to this embodiment includes: the energy storage device comprises a cover plate, fixing rods, a frame, fillers, a metal bin, a limiting block and an adjustable limiting block, wherein the four fixing rods form a cross-shaped bracket, the cross-shaped bracket is fixed in the frame, the periphery of the cross-shaped bracket penetrates through the frame to be fixed, the fillers are arranged in the frame, and the cover plates are arranged on the front side and the rear side of the frame to form an energy storage module; grooves are formed on each edge of the cover plate, and the intervals of the grooves are the same as the intervals of the fixing rods in the same direction in the cross-shaped bracket; limiting blocks are arranged on two adjacent surfaces in the metal bin, adjustable limiting blocks are arranged on the other two adjacent surfaces in the metal bin, a notch corresponding to the adjustable limiting blocks is arranged on the surface of the adjustable limiting blocks in the metal bin, and the energy storage module is placed in the metal bin.

The gravity energy storage of modularization equipment still includes the stabilizer blade, and the breach face in metal storehouse is provided with the stabilizer blade. Because the side of metal bin has the adjustable stopper that hammers into from the outside, in order to protect the sturdiness of metal bin and adjustable stopper junction, four angle installation stabilizer blades at that side that the metal bin is biggest support, protection adjustable stopper.

The length of the four fixing rods is divided into two groups, and the length of the two groups of fixing rods is respectively equal to the length and the width of the cover plate. The filler in the frame is firmly matched with the fixing rod, and the fixing rod can also play a limiting role.

The cover plate, the fixing rod and the frame are made of metal. The whole energy storage module is mostly made of metal materials, and the energy storage module can be lifted by an electromagnet crane to be installed in the metal bin in the process of installing the energy storage module in the metal bin.

The positions of the limiting block and the adjustable limiting block in the metal bin correspond to the positions of the grooves on the energy storage module. The limiting block and the adjustable limiting block are clamped into the groove of the energy storage module to fix the position.

The adjustable limiting block is inserted through a notch at the outer side of the metal bin. In order to ensure that the energy storage module is fixed in the metal bin and does not move, if four fixed limiting blocks are adopted, the energy storage module can slightly move in the metal bin due to deformation and size problems, and therefore the two limiting blocks and the two adjustable limiting blocks are adopted to fix the position of the energy storage module, and the position of the energy storage module in the metal bin is not moved due to the adjustment of the position of the adjustable limiting blocks.

The adjustable limiting block is a quadrangular prism, and the adjustable limiting block is welded and fixed with the metal bin. The side of adjustable stopper is trapezoidal, and in the breach of metal storehouse was inserted to the last side of adjusting the stopper, can fix through the downside of the adjustable stopper of weight hammering, can't remove the back in the breach when adjustable stopper, fix through welded mode.

Embodiment two: as shown in fig. 1-5, the gravity energy storage block assembled in a modularized manner according to the embodiment has the following specific working processes: four dead levers constitute well style of calligraphy structure, and eight extreme points of well style of calligraphy structure pass the frame and pass through welded fastening, and welded fastening apron is passed through to the bottom of frame, fills filler (concrete or other materials) in the frame, and welded fastening apron again at the top of frame, the recess of apron corresponds with the position of dead lever, and the dead lever is in the both sides of recess, finally constitutes energy storage module.

The energy storage module can move through the mode that the electromagnet crane lifted by crane, insert adjustable stopper in the breach of metal storehouse earlier, put into the metal storehouse with energy storage module, the recess of energy storage module is corresponding with stopper in the metal storehouse and adjustable stopper, after energy storage module all put into the metal storehouse in the opening part welding shrouding, hammer into energy storage module's recess with adjustable stopper through the mode of weight in, after adjustable stopper fixed position, fix through welded mode, finally constitute the energy storage block.

The energy storage block can be supported through the stabilizer blade, wholly lift by crane etc. through the electro-magnet hoist and remove, because often carry out the activity of gravity energy storage, the metal bin or the inside energy storage module can appear wearing and tearing or damage the condition, only need unpack apart to change the damage part can, can reuse. The shape of the energy storage block is selected according to specific conditions, and the energy storage module is filled in the energy storage block, and the specific shape can be referred to as fig. 4 and 5.

The energy storage block has two hoisting modes, one is to directly hoist the energy storage block body by using the electromagnet crane

In the foregoing, the present utility model is merely preferred embodiments, which are based on different implementations of the overall concept of the utility model, and the protection scope of the utility model is not limited thereto, and any changes or substitutions easily come within the technical scope of the present utility model as those skilled in the art should not fall within the protection scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (7)

1. The gravity energy storage block is characterized by comprising a cover plate (1), fixing rods (2), a frame (3), fillers (4), a metal bin (5), limiting blocks (6) and adjustable limiting blocks (7), wherein the four fixing rods (2) form a cross-shaped bracket, the cross-shaped bracket is fixed in the frame (3) and penetrates through the frame (3) to be fixed at the periphery of the cross-shaped bracket, the fillers (4) are arranged in the frame (3), and the cover plates (1) are arranged on the front side and the rear side of the frame (3) to form an energy storage module; grooves (1-1) are formed in each edge of the cover plate (1), and the distance between the grooves (1-1) is the same as the distance between the fixing rods (2) in the same direction in the cross-shaped bracket; limiting blocks (6) are arranged on two adjacent surfaces in the metal bin (5), adjustable limiting blocks (7) are arranged on the other two adjacent surfaces in the metal bin (5), notches corresponding to the adjustable limiting blocks (7) are arranged on the surfaces of the adjustable limiting blocks (7) in the metal bin (5), and the energy storage module is placed in the metal bin (5).

2. The modular assembled gravity energy storage block according to claim 1, further comprising legs (8), wherein the metal bin (5) is provided with legs (8) on a notched surface.

3. The modular assembled gravity energy storage block according to claim 1, wherein the four fixing rods (2) are divided into two groups, the lengths of the two groups of fixing rods (2) being equal to the length and the width of the cover plate (1), respectively.

4. The modular assembled gravity energy storage block according to claim 1, wherein the cover plate (1), the fixing rod (2) and the frame (3) are made of metal.

5. The modular assembled gravity energy storage block according to claim 1, characterized in that the position of the limit block (6) and the adjustable limit block (7) in the metal bin (5) corresponds to the position of the groove on the energy storage module.

6. The modular assembled gravity energy storage block according to claim 5, characterized in that the adjustable stop block (7) is inserted through a notch outside the metal bin (5).

7. The modular assembled gravity energy storage block according to claim 6, wherein the adjustable limiting block (7) is a quadrangular prism, and the adjustable limiting block (7) and the metal bin (5) are fixed by welding.