CN221466663U - Lithium iron phosphate battery energy storage power cabinet - Google Patents

Abstract

The utility model discloses a lithium iron phosphate battery energy storage power supply cabinet, which relates to the technical field of power supply cabinets, including a power supply cabinet, a structural baffle fixedly connected inside the power supply cabinet, a component box installed on the top of the structural baffle, a liquid storage box installed inside the power supply cabinet, a U-shaped cooling box installed on the outside of the component box, a liquid pump installed on one side of the liquid storage box, a liquid outlet pipe installed on the top of the liquid pump, a return pipe connected through the bottom of the U-shaped cooling box, a plurality of groups of cooling pipes installed at the bottom of the return pipe, and the plurality of groups of cooling pipes are linearly distributed at the bottom of the return pipe. The utility model extracts the coolant in the liquid storage box by the liquid pump and transports it to the U-shaped cooling box through the liquid outlet pipe to cool the component box, and cools the coolant with a higher temperature by the cooling pipe and the heat dissipation fins, thereby greatly improving the cooling effect of the device and avoiding the situation where the heat dissipation effect is poor in a confined space or when the temperature of the use environment is high.

Description

Lithium iron phosphate battery energy storage power cabinet

Technical Field

The utility model relates to the technical field of power supply cabinets, in particular to an energy storage power supply cabinet for a lithium iron phosphate battery.

Background

A cabinet is a freestanding or self-supporting enclosure for housing electrical or electronic equipment. The cabinet is generally provided with a door, a detachable side plate and a back plate, and the battery is accommodated in the energy storage power cabinet, but the filter screen filters dust particles in the air when the existing energy storage power cabinet ventilates, the filter screen can block the dust particles on the back surface of the dust particles after long-time filtration, and the device can be normally cooled only by replacing the filter screen or cleaning the filter screen.

The prior Chinese patent is searched: a high-precision lithium iron phosphate battery energy storage power cabinet (publication number: CN 212874624U) comprises a power cabinet body, wherein filter bellows are arranged on two sides of the power cabinet body, a filter screen is fixed in the middle of the inner side of the power cabinet body, an air inlet plate is fixed on the inner side of one end face of the filter bellows, a base is fixed at the bottom end of the air inlet plate, the base is located the inner side of the filter bellows, a motor is fixed at the top end of the filter bellows, and a threaded rod is fixed at the output end of the motor. The device is through translation piece, threaded rod, gag lever post, translation piece and cleaning brush cooperation for the device can clean the dust of the surface blocking of filter screen, avoids the dust to block up the filter screen, guarantees the radiating effect of device, cooperates through pneumatic cylinder, U type support and universal wheel, makes the device can promote the universal wheel to the bottom of device, props up the device, and it is more convenient to remove.

The above-mentioned chinese patent is done the dust that blocks up the surface of filter screen and is cleaned, avoids the dust to block up the filter screen, guarantees the radiating effect of device, but the device carries out radiating mode radiating effect through the fan not good, when service environment temperature is higher, and single mode of cooling of blowing obviously can't reach expected radiating effect.

Therefore, it is necessary to invent a lithium iron phosphate battery energy storage power supply cabinet to solve the above problems.

Disclosure of utility model

The utility model aims to provide a lithium iron phosphate battery energy storage power supply cabinet, which aims to solve the problem that the heat dissipation effect is poor in the heat dissipation mode in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a lithium iron phosphate battery energy storage power cabinet, includes the power cabinet body, one side swing joint of the power cabinet body has the cabinet door that opens and shuts, the inside fixedly connected with structure breast board of the power cabinet body, the component case is installed at the top of structure breast board, the internally mounted of the power cabinet body has the liquid reserve tank, U-shaped cooling box is installed in the outside of component case, the drawing liquid pump is installed to one side of liquid reserve tank, the drain pipe is installed at the top of drawing liquid pump, the bottom through connection of U-shaped cooling box has the back flow, multiunit cooling tube is installed to the bottom of back flow, multiunit the cooling tube is linear distribution in the bottom of back flow, two sets of install communicating pipe between the cooling tube, driving motor is installed to the bottom of structure breast board, the drive shaft is installed to driving motor's bottom.

Preferably, a plurality of groups of universal wheels are installed at the bottom of the power cabinet body, and the universal wheels are distributed in a rectangular shape at the bottom of the power cabinet body.

Preferably, the bottom of the component box is provided with a plurality of groups of heat dissipation holes, a plurality of groups of heat dissipation holes are distributed in a rectangular shape at the bottom of the component box, the bottom of the power cabinet body is provided with a plurality of groups of ventilation grooves, and a plurality of groups of ventilation grooves are distributed in a linear shape at the bottom of the power cabinet body.

Preferably, the outer wall of the cooling pipe is provided with a plurality of groups of radiating fins, the plurality of groups of radiating fins are linearly distributed on the outer wall of the cooling pipe, the bottom of the cooling pipe is provided with two groups of supporting plates, and the two groups of supporting plates are symmetrically distributed on the bottom of the cooling pipe.

Preferably, the outer side of the liquid pump is in threaded connection with a plurality of groups of mounting bolts, and the plurality of groups of mounting bolts are distributed in a rectangular shape on the outer side of the liquid pump.

Preferably, an impeller disc is installed at the bottom of the driving shaft, a plurality of groups of fan blades are fixedly connected to the outer side of the impeller disc, and a plurality of groups of fan blades are annularly distributed on the outer side of the impeller disc.

Preferably, a connecting plate is fixedly connected to the top of the driving motor.

The utility model has the technical effects and advantages that:

1. Through setting up liquid reserve tank, U-shaped cooling tank, drawing liquid pump, drain pipe, back flow, cooling tube, communicating pipe, radiating fin, backup pad and mounting bolt to make the device accessible drawing liquid pump take out the interior coolant liquid of liquid reserve tank and transport to U-shaped cooling tank through the drain pipe and cool off the component case, cool off the higher coolant liquid of temperature through cooling tube and radiating fin simultaneously, and then very big improvement the cooling effect of the device, avoided in the airtight space or use the environment temperature higher to lead to the condition that the radiating effect is not good;

2. Through setting up louvre, ventilation groove, driving motor, drive shaft, impeller dish, fan blade and connecting plate to make the device accessible driving motor drive the fan blade rotation on the impeller dish, thereby can form the wind pressure to blow to the cooling tube, thereby can improve the cooling efficiency of cooling tube, the heat that produces in the component case is discharged to accessible louvre and ventilation groove simultaneously, thereby has further improved the radiating effect of device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a lithium iron phosphate battery energy storage power supply cabinet according to the present utility model.

Fig. 2 is an exploded view of a cabinet of a lithium iron phosphate battery energy storage power supply according to the present utility model.

Fig. 3 is a schematic diagram of an internal structure of a cabinet of an energy storage power supply of a lithium iron phosphate battery according to the present utility model.

Fig. 4 is a schematic diagram of a heat dissipation assembly of a lithium iron phosphate battery energy storage power cabinet according to the present utility model.

In the figure: 1. a power supply cabinet; 2. opening and closing a cabinet door; 3. a universal wheel; 4. a structural fence; 5. an element box; 6. a liquid storage tank; 7. a U-shaped cooling box; 8. a heat radiation hole; 9. a ventilation groove; 10. a liquid pump; 11. a liquid outlet pipe; 12. a return pipe; 13. a cooling tube; 14. a communicating pipe; 15. a heat radiation fin; 16. a support plate; 17. installing a bolt; 18. a driving motor; 19. a drive shaft; 20. an impeller disc; 21. a fan blade; 22. and (5) connecting a plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a lithium iron phosphate battery energy storage power cabinet as shown in figures 1-4, which comprises a power cabinet body 1, wherein one side of the power cabinet body 1 is movably connected with an opening and closing cabinet door 2, wherein the opening and closing cabinet door 2 is convenient for a user to install and adjust internal circuit elements, the inside of the power cabinet body 1 is fixedly connected with a structural baffle plate 4, the structural baffle plate 4 supports upper equipment, a through groove arranged above the structural baffle plate is convenient for discharging heat, an element box 5 is arranged at the top of the structural baffle plate 4, a liquid storage box 6 is arranged in the power cabinet body 1, the liquid storage box 6 is a cooling liquid storage unit, a U-shaped cooling box 7 is arranged at the outer side of the element box 5, a U-shaped groove of the U-shaped cooling box 7 is contacted with the element box 5, thereby can effectively dispel the heat, the drawing liquid pump 10 is installed to one side of liquid reserve tank 6, wherein drawing liquid pump 10 provides power for the rivers function of the device, drain pipe 11 is installed at the top of drawing liquid pump 10, the bottom through connection of U-shaped cooling tank 7 has back flow 12, multiunit cooling tube 13 is installed to the bottom of back flow 12, multiunit cooling tube 13 is linear distribution in the bottom of back flow 12, install communicating pipe 14 between two sets of cooling tubes 13, wherein communicating pipe 14 provides the connection to cooling tube 13, driving motor 18 is installed to the bottom of structure breast board 4, wherein driving motor 18 provides power for the blowing function of the device, drive shaft 19 is installed to the bottom of driving motor 18, wherein drive shaft 19 is driving motor 18 main part drive unit.

The bottom of the power cabinet body 1 is provided with a plurality of groups of universal wheels 3, the plurality of groups of universal wheels 3 are distributed in a rectangular shape at the bottom of the power cabinet body 1, the plurality of groups of universal wheels 3 are convenient for a user to move the power cabinet body 1, and the transportation cost of the device is reduced.

The bottom of component case 5 has seted up multiunit louvre 8, multiunit louvre 8 is the rectangle and distributes in the bottom of component case 5, and multiunit ventilation groove 9 has been seted up to the bottom of power cabinet body 1, and multiunit ventilation groove 9 is the linear distribution in the bottom of power cabinet body 1, and wherein multiunit louvre 8 set up the heat that produces when can running in the component case 5 and discharge, and multiunit ventilation groove 9 set up the discharge of convenient hot air, and then guaranteed the cooling effect of device.

The outer wall of the cooling pipe 13 is provided with a plurality of groups of radiating fins 15, the plurality of groups of radiating fins 15 are linearly distributed on the outer wall of the cooling pipe 13, the bottom of the cooling pipe 13 is provided with two groups of supporting plates 16, the two groups of supporting plates 16 are symmetrically distributed on the bottom of the cooling pipe 13, the contact area between the cooling pipe 13 and air is increased by the plurality of groups of radiating fins 15, and the radiating efficiency of cooling liquid and air in the cooling pipe 13 is further improved, and the two groups of supporting plates 16 can play a supporting role on the plurality of groups of cooling pipes 13 above.

The outside threaded connection of drawing liquid pump 10 has multiunit mounting bolt 17, and multiunit mounting bolt 17 is the rectangle in drawing liquid pump 10's outside and distributes, and wherein multiunit mounting bolt 17 can carry out threaded connection with the screw hole of liquid reserve tank 6 side to realized the device and to drawing liquid pump 10's fixed mounting, the fixed effect of this mounting means is firm and convenient to use person is dismantled drawing liquid pump 10's installation simultaneously, and firm connection can effectively avoid drawing liquid pump 10 noise's production when the operation.

The impeller plate 20 is installed to the bottom of drive shaft 19, and the outside fixedly connected with multiunit fan blade 21 of impeller plate 20, multiunit fan blade 21 is annular distribution in the outside of impeller plate 20, and wherein the use of multiunit fan blade 21 can produce the wind pressure when impeller plate 20 rotates and blow cooling tube 13 to improve the cooling efficiency of cooling tube 13, the while is convenient for the discharge to the heat when producing when the internal component operation of power cabinet body 1.

The top fixedly connected with connecting plate 22 of driving motor 18, wherein the use of connecting plate 22 has further improved driving motor 18's structural stability, avoids taking place to rock and the condition that drops when long-time operation to the use time limit of the device has been improved.

Working principle: after the power cabinet body 1 is moved by a user through the universal wheel 3 and the circuit is installed, the liquid pump 10 and the driving motor 18 are electrified, when the liquid pump 10 is electrified and started, the cooling liquid in the liquid storage tank 6 is pumped out through the liquid pumping pipe and the low-temperature cooling liquid is transported into the U-shaped cooling tank 7 through the liquid outlet pipe 11, the U-shaped cooling tank 7 is contacted with the element tank 5 and cools the element tank 5, and the cooling liquid with higher temperature after circulation flows into the cooling pipe 13 through the return pipe 12 and flows back into the liquid storage tank 6 through the cooling of the cooling pipe 13, so that the water cooling and heat dissipation functions of the device are realized; when the driving motor 18 is electrified and started, a plurality of groups of fan blades 21 on the impeller disc 20 are driven to rotate by the driving shaft 19, so that wind pressure can be generated to discharge hot air emitted by the element box 5 through the heat radiation holes 8 through the ventilation grooves 9, and the air cooling and heat radiation functions of the device are realized; meanwhile, the circulation of air drives the hot air around the radiating fins 15 on the cooling pipe 13 to flow and discharge so as to improve the cooling efficiency of the cooling liquid in the cooling pipe 13, thereby realizing the dual efficient heat dissipation function of the lithium iron phosphate battery energy storage power supply cabinet.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a lithium iron phosphate battery energy storage power cabinet, includes power cabinet body (1), its characterized in that: one side swing joint of the power cabinet body (1) has cabinet door (2) that opens and shuts, the inside fixedly connected with structure breast board (4) of the power cabinet body (1), component case (5) are installed at the top of structure breast board (4), internally mounted of the power cabinet body (1) has liquid reserve tank (6), U-shaped cooling tank (7) are installed in the outside of component case (5), liquid pump (10) are installed to one side of liquid reserve tank (6), drain pipe (11) are installed at the top of liquid pump (10), the bottom through connection of U-shaped cooling tank (7) has back flow (12), multiunit cooling tube (13) are installed to the bottom of back flow (12), multiunit cooling tube (13) are in linear distribution, two sets of install communicating pipe (14) between cooling tube (13), driving motor (18) are installed to the bottom of structure breast board (4), driving motor (18) bottom installs drive shaft (19).

2. The lithium iron phosphate battery energy storage power cabinet of claim 1, wherein: the power cabinet is characterized in that a plurality of groups of universal wheels (3) are arranged at the bottom of the power cabinet body (1), and the universal wheels (3) are distributed in a rectangular shape at the bottom of the power cabinet body (1).

3. The lithium iron phosphate battery energy storage power cabinet of claim 1, wherein: the bottom of component case (5) has been seted up multiunit louvre (8), and multiunit louvre (8) are in the bottom of component case (5) is the rectangle and distributes, multiunit ventilation groove (9) have been seted up to the bottom of power cabinet body (1), multiunit ventilation groove (9) are in the bottom of power cabinet body (1) is the linear distribution.

4. The lithium iron phosphate battery energy storage power cabinet of claim 1, wherein: the outer wall of the cooling pipe (13) is provided with a plurality of groups of radiating fins (15), the radiating fins (15) are linearly distributed on the outer wall of the cooling pipe (13), the bottom of the cooling pipe (13) is provided with two groups of supporting plates (16), and the bottoms of the two groups of supporting plates (16) are symmetrically distributed on the bottom of the cooling pipe (13).

5. The lithium iron phosphate battery energy storage power cabinet of claim 1, wherein: the outer side of the liquid pump (10) is in threaded connection with a plurality of groups of mounting bolts (17), and the plurality of groups of mounting bolts (17) are distributed in a rectangular shape on the outer side of the liquid pump (10).

6. The lithium iron phosphate battery energy storage power cabinet of claim 1, wherein: an impeller disc (20) is arranged at the bottom of the driving shaft (19), a plurality of groups of fan blades (21) are fixedly connected to the outer side of the impeller disc (20), and the plurality of groups of fan blades (21) are annularly distributed on the outer side of the impeller disc (20).

7. The lithium iron phosphate battery energy storage power cabinet of claim 1, wherein: the top of the driving motor (18) is fixedly connected with a connecting plate (22).