CN220510162U - Control equipment of cabinet type energy storage energy management system - Google Patents

Abstract

The utility model discloses control equipment of a cabinet type energy storage energy management system, which comprises a cabinet body, wherein door plates are hinged to two sides of the cabinet body, and the control equipment is characterized in that a plurality of battery modules are arranged in the cabinet body, an inner groove is arranged in the door plates, a lifting plate which is lifted is arranged in one door plate, the lifting plate is driven by a driving device in the inner groove to lift, a swinging turning plate is hinged in the lifting plate, the swinging turning plate is connected with a lifting device in the door plate on the other side in a matched manner, a telescopic device which is used for conveniently pulling the battery modules is arranged in the swinging turning plate, and the lifting plate is arranged at the lowest position.

Description

Control equipment of cabinet type energy storage energy management system

Technical Field

The utility model relates to the technical field of cabinet type energy storage equipment, in particular to control equipment of a cabinet type energy storage energy management system.

Background

In the cabinet type energy storage, an energy management system is generally arranged for managing battery units in the cabinet type energy storage equipment to control the charge and discharge of the battery units, the existing control equipment is generally arranged in a cabinet body, the control equipment formed by the structure is troublesome in maintenance, one or more battery units need to be gradually taken out from an internal division cell when the battery units are taken out for maintenance, and because the battery units are heavier, the maintenance of personnel is inconvenient, and a great deal of researches are carried out on the control equipment;

for example, a chinese patent document "cabinet energy storage system" with application number CN201932397314.0 includes a control cabinet and a plurality of battery cabinets arranged in the same direction, where the control cabinet includes a first cabinet body, a battery management main control module and a pre-flushing resistor arranged in the first cabinet body; the battery cabinet comprises a second cabinet body, a battery module, a radiator and a battery management slave control module, wherein the radiator is arranged on the battery module to radiate heat of the battery module, the battery module is electrically connected with the battery management slave control module, and the battery management slave control module is electrically connected with the battery management master control module; the plurality of battery management slave control modules are arranged in one-to-one correspondence with the plurality of battery modules; a plurality of battery cabins are arranged in the second cabinet body along the vertical direction, and a plurality of battery modules are distributed in the battery cabins; by adopting the scheme, the occupied space of the energy storage system can be reduced, and centralized management and maintenance are convenient.

Therefore, in the prior art, when maintenance is performed, the battery unit in the equipment is troublesome and inconvenient to take and place, and the labor burden of personnel is large.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide a control device of a cabinet type energy storage energy management system, which can solve the problems in the prior art.

The utility model is realized by the following technical scheme: the utility model relates to control equipment of a cabinet type energy storage energy management system, which comprises a cabinet body, wherein door plates are hinged to two sides of the cabinet body, and the control equipment is characterized in that a plurality of battery modules are arranged in the cabinet body, an inner groove is arranged in the door plates, a lifting plate which is lifted is arranged in one door plate, the lifting plate is driven by a driving device in the inner groove to lift, a swinging turning plate is hinged in the lifting plate, the swinging turning plate is connected with a lifting device in the door plate at the other side in a matched manner, and a telescopic device which is used for carrying out gasket on the battery modules and is convenient for pulling the battery modules is arranged in the swinging turning plate.

Further technical scheme, drive arrangement includes the rear side inslot that sets up in the inside groove, be provided with the rotation axis in the rear side inslot, should the inside slip of inside groove is provided with the lifter plate, the lifter plate with rear side inslot sliding fit connects, the lifter plate passes the rotation axis and with its screw thread fit connection.

According to a further technical scheme, a motor positioned in the inner groove is arranged at the end part of the rotating shaft, and the motor drives the rotating shaft to rotate.

According to a further technical scheme, the lifting plate is connected with the sliding groove on one side of the inner groove in a sliding fit mode.

Further technical scheme, rising and descending device is including setting up in the opposite side in pairs inside groove in the door plant, inside groove both sides are provided with the spout, gliding being provided with in the spout cooperates the sliding block, one of them the drive screw shaft that rotates the setting in the spout, drive screw shaft with cooperation sliding block screw thread cooperation is connected, be provided with the connecting axle between the cooperation sliding block, be provided with the card in the swing turns over the board and go into the recess.

According to a further technical scheme, a power motor for driving the driving threaded shaft to rotate is arranged at the end part of the driving threaded shaft.

Further technical scheme, telescoping device including set up in offset inner chamber in the offset flange, offset inner intracavity is provided with fixed connection block, fixed connection block with hold chamber fixed fit connection, fixed connection block internal rotation is provided with the driving gear, the driving gear by drive motor drive rotates in the fixed connection block, driving gear one side meshing is provided with driven gear, driven gear with fixed connection block normal running fit is connected, fixed connection block with offset inner chamber sliding fit is connected, the connection screw thread axle passes driven gear, the connection screw thread axle with driven gear screw thread fit is connected.

The beneficial effects of the utility model are as follows:

1. this equipment is through having set up inside groove and putting into the groove, through the mode that rotates the swing and turns over the board, makes the swing turns over the board and hides in the inside groove, and the expansion plate hides in put into the inslot, make the door plant can not receive the influence when opening.

2. Utilize the swing turns over the mode of board after expanding horizontal lift, makes the expansion plate for after the swing turns over the board and stretches out and draws back, make the expansion plate with the gyro wheel of rear side groove downside offsets, and be convenient for personnel will after the battery module pulling is located the expansion plate and offset the upside of flange, and the expansion plate resets after making the battery module is located after the upside of swing turns over the board, along with when the swing turns over the board and descends to the eminence, can be convenient for personnel will the battery module carries out the lift, more laborsaving.

Drawings

For ease of illustration, the utility model is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of the overall structure of a control device of a cabinet energy storage energy management system of the present utility model;

FIG. 2 is a schematic diagram of FIG. 1 at A;

FIG. 3 is a schematic diagram of another view of the apparatus of FIG. 1;

FIG. 4 is a schematic diagram at B in FIG. 3;

FIG. 5 is a schematic diagram of FIG. 3 at C;

FIG. 6 is a schematic bottom view of the apparatus of FIG. 1;

FIG. 7 is a schematic diagram at D in FIG. 6;

FIG. 8 is a schematic diagram at E in FIG. 7;

FIG. 9 is a schematic diagram of FIG. 6 at F;

in the figure, an inner cavity 11, a battery placing cavity 12, a battery module 13, a cabinet 14, an inner groove 15, an inserting groove 16, a door plate 17, a roller 21, a rear side groove 32, a telescopic plate 23, an inner chute 24, a swinging turning plate 25, a butting convex plate 26, a lifting plate 31, a rear side groove 32, a rotating shaft 33, a chute 35, a containing cavity 41, a butting inner cavity 42, a connecting threaded shaft 43, a driven gear 44, a fixed connecting block 45, a driving gear 46, a connecting shaft 51, a clamping groove 52 and a matching sliding block 53.

Detailed Description

The present utility model will be described in detail with reference to fig. 1 to 9, and for convenience of description, the following orientations will be defined as follows: the control device of the cabinet type energy storage energy management system disclosed by the utility model comprises a cabinet body 14, wherein an inner cavity 11 is arranged in the cabinet body 14, a plurality of battery placing cavities 12 are further arranged in the cabinet body 14, a battery module 13 is arranged in the battery placing cavities 12, rear side grooves 32 are formed in two sides of the battery module 13, a plurality of rollers 21 are rotatably arranged in the rear side grooves 32, door plates 17 are hinged to two sides of the cabinet body 14, the door plates 17 are used for closing and opening the front side of the cabinet body 14 after opening and closing, a plurality of placing grooves 16 are formed in the door plates 17, and the placing grooves 16 are communicated with the inner grooves 15.

Advantageously, wherein the door panel 17 is provided with an inner tank 15, wherein one end of the inner tank 15 on one side and two ends of the inner tank 15 on the other side are provided with a chute arrangement comprising a chute 35, the chute 35 being arranged in the inner tank 15.

Advantageously, wherein, rear side groove 32 is provided in inner groove 15 of one side, rear side groove 32 is provided with rotation axis 33, lift plate 31 is provided with in the sliding of this inner groove 15, lift plate 31 and rear side groove 32 sliding fit connection, lift plate 31 passes rotation axis 33 and screw thread fit connection with it, the tip position of rotation axis 33 is provided with the motor that is located in inner groove 15, motor drive rotation axis 33 rotates, lift plate 31 and the spout 35 sliding fit connection in inner groove 15, lift plate 31 surface pivoted is provided with swing flap 25, be provided with connecting axle 51 in the inside groove 15 of the opposite side, connecting axle 51 both sides are provided with the cooperation slider 53, cooperation slider 53 and spout 35 sliding fit connection, be provided with the card and go into recess 52 in the swing flap 25, card goes into recess 52 and connecting axle 51 looks setting, be located one of the spout 35 internal rotation of connecting axle 51 both sides and be provided with drive screw thread axle 34, drive screw thread axle 34 and cooperation slider 53 are connected, drive screw thread axle 34 tip is provided with the power motor that makes drive screw thread axle 34 rotate.

The swing turning plate 25 is internally provided with a plurality of accommodating cavities 41, one side of each accommodating cavity 41 is provided with an inner chute 24 positioned at the top side of the swing turning plate 25, a telescopic plate 23 is arranged in each inner chute 24 in a sliding manner, one side of each telescopic plate 23 is provided with two propping convex plates 26, each propping convex plate 26 stretches into each rear side groove 32, each roller 21 and the upper side of each propping convex plate 26 are propped against and roll, each accommodating cavity 41 is internally provided with a telescopic device for driving each telescopic plate 23 to perform telescopic movement, and each propping convex plate 26 is connected with each inner chute 24 in a sliding fit manner.

The telescopic device comprises an abutting inner cavity 42 arranged in the abutting convex plate 26, a fixed connecting block 45 is arranged in the abutting inner cavity 42, the fixed connecting block 45 is fixedly matched and connected with the accommodating cavity 41, a driving gear 46 is arranged in the fixed connecting block 45 in a rotating mode, the driving gear 46 is driven to rotate by a driving motor in the fixed connecting block 45, a driven gear 44 is arranged on one side of the driving gear 46 in a meshed mode, the driven gear 44 is connected with the fixed connecting block 45 in a rotating mode, the fixed connecting block 45 is connected with the abutting inner cavity 42 in a sliding mode, a connecting threaded shaft 43 penetrates through the driven gear 44, the connecting threaded shaft 43 is connected with the driven gear 44 in a threaded mode, and after the driving gear 46 is used for driving the driven gear 44 to rotate, the connecting threaded shaft 43 is connected with the driven gear 44 in a threaded mode, and then the abutting convex plate 26 and the telescopic plate 23 are made to stretch in the inner sliding groove 24.

In the initial state, the device, the assembly and the structure are in the stop working state, the device is provided with a plurality of battery modules 13 through placing in the cabinet type energy storage control device, when the battery modules 13 are maintained, the device is provided with the swinging turning plate 25 capable of turning over through the door plate 17, after the swinging turning plate 25 is lifted, a person can conveniently place the battery modules 13 on the telescopic plate 23 through the telescopic plate 23, and the telescopic plate 23 can carry out telescopic movement relative to the swinging turning plate 25, so that the battery modules 13 can be placed on the swinging turning plate 25 under the dragging of the person.

Initially, since the door panel 17 is provided with the plurality of insertion grooves 16 therein, the elevating plate 31 is in the lowermost position, and the swing flap 25 is vertically disposed upward, so that the swing flap 25 is placed into the inner groove 15, and the expansion plate 23 is in the position in the insertion groove 16.

After the door plate 17 is swung by a person, the door plate 17 is opened, then the swinging turning plate 25 is in a horizontal state after being swung, the clamping groove 52 on the other side of the swinging turning plate 25 is propped against the connecting shaft 51 in the door plate 17 on the other side, at the moment, the swinging turning plate 25 can be stably and horizontally arranged between the door plates 17 on the two sides, the rotating shaft 33 can be in threaded fit connection with the lifting plate 31 after working, the swinging turning plate 25 is driven to lift and move, and after the swinging turning plate 25 is propped against the connecting shaft 51, the threaded shaft 34 is driven to rotate and then drive the matched sliding block 53 and the connecting shaft 51 to lift and move, and in the process, the swinging turning plate 25 is kept to lift and move horizontally, so that the swinging turning plate 25 can move to one side of the battery module 13 with different heights.

After that, the driving gear 46 works to drive the driven gear 44 to rotate, and as the fixed connecting block 45 slides against the inner abutting cavity 42, the driven gear 44 is in threaded fit connection with the connecting threaded shaft 43, the abutting convex plate 26 and the telescopic plate 23 are in telescopic movement in the inner sliding groove 24, the abutting convex plate 26 stretches into the rear side groove 32 after sliding, at the moment, the roller 21 rolls against the top of the abutting convex plate 26, after that, a person can pull the battery module 13, the roller 21 rolls against the telescopic plate 23, the battery module 13 is pulled and placed on the telescopic plate 23, and as the number of the telescopic plates 23 is the same as that of the inner sliding groove 24, the inner sliding groove 24 is provided with a plurality of telescopic plates, and at least two telescopic plates 23 are arranged on the lower side of the battery module 13, so that the battery module 13 can be stably pulled.

After that, the expansion plate 23 is located on the upper side of the swing turning plate 25 after being reset, and after the swing turning plate 25 moves downwards, a person can take the battery module 13 at a low position, the person is prevented from laboriously extracting after pulling at a high position, and the working mode of the swing turning plate 25 during the downward movement refers to the working mode during the lifting movement.

The above is merely a specific embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any changes or substitutions that do not undergo the inventive work should be covered in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.

Claims (7)

1. The utility model provides a cabinet energy storage energy management system's controlgear, includes cabinet body (14), cabinet body (14) both sides are articulated to be provided with door plant (17), a serial communication port, be provided with a plurality of battery module (13) in the cabinet body (14), be provided with inside groove (15) in door plant (17), one of them be provided with lifter plate (31) of going up and down in door plant (17), lifter plate (31) are by the drive arrangement drive in inside groove (15) goes up and down, articulated in lifter plate (31) are provided with swing and turn over board (25), swing and opposite side turn over board (25) with the elevating gear cooperation in door plant (17) is connected, be provided with in swing and be used for right battery module (13) carry out the telescoping device that the liner made things convenient for its pulling.

2. The control device of a cabinet energy storage energy management system of claim 1, wherein: the driving device comprises a rear groove (32) arranged in the inner groove (15), a rotating shaft (33) is arranged in the rear groove (32), a lifting plate (31) is slidably arranged in the inner groove (15), the lifting plate (31) is connected with the rear groove (32) in a sliding fit manner, and the lifting plate (31) penetrates through the rotating shaft (33) and is connected with the rotating shaft in a threaded fit manner.

3. The control device of a cabinet energy storage energy management system of claim 2, wherein: the end part of the rotating shaft (33) is provided with a motor positioned in the inner groove (15), and the motor drives the rotating shaft (33) to rotate.

4. The control device of a cabinet energy storage energy management system of claim 1, wherein: the lifting plate (31) is connected with a sliding groove (35) on one side of the inner groove (15) in a sliding fit manner.

5. The control device of a cabinet energy storage energy management system of claim 4, wherein: the lifting device comprises inner grooves (15) which are arranged on the other side in the door plate (17) in pairs, sliding grooves (35) are formed in two sides of the inner grooves (15), matched sliding blocks (53) are arranged in the sliding grooves (35) in a sliding mode, one driving threaded shaft (34) is arranged in the sliding grooves (35) in a rotating mode, the driving threaded shaft (34) is in threaded matched connection with the matched sliding blocks (53), connecting shafts (51) are arranged between the matched sliding blocks (53), and clamping grooves (52) are formed in the swinging turning plates (25).

6. The control device of a cabinet energy storage energy management system of claim 5, wherein: the end of the driving threaded shaft (34) is provided with a power motor for driving the driving threaded shaft (34) to rotate, a plurality of accommodating cavities (41) are arranged in the swinging turning plate (25), one side of each accommodating cavity (41) is provided with an inner sliding groove (24) positioned on the top side of the swinging turning plate (25), a telescopic plate (23) is arranged in the inner sliding groove (24) in a sliding mode, and two propping convex plates (26) are arranged on one side of the telescopic plate (23).

7. The control device of a cabinet energy storage energy management system of claim 6, wherein: the telescopic device comprises an abutting inner cavity (42) arranged in the abutting convex plate (26), a fixed connecting block (45) is arranged in the abutting inner cavity (42), the fixed connecting block (45) is fixedly matched and connected with the accommodating cavity (41), a driving gear (46) is arranged in the fixed connecting block (45) in a rotating mode, the driving gear (46) is driven by a driving motor in the fixed connecting block (45) to rotate, a driven gear (44) is arranged on one side of the driving gear (46) in a meshed mode, the driven gear (44) is connected with the fixed connecting block (45) in a rotating mode, the fixed connecting block (45) is connected with the abutting inner cavity (42) in a sliding mode, a connecting threaded shaft (43) is arranged in the driven gear (44), and the connecting threaded shaft (43) penetrates through the driven gear (44) to be connected with the driven gear (44) in a threaded mode.