CN219892339U - Power supply energy storage cabinet - Google Patents

Abstract

The utility model discloses a power supply energy storage cabinet, which comprises a cabinet shell, an inverter box and a storage battery, wherein a plurality of fixing plates are arranged in the cabinet shell, the inverter box and the storage battery are both fixed on the fixing plates, a cable opening is formed in the side wall of the cabinet shell, a connecting cable is arranged in the cabinet shell, and the connecting cable penetrates out of the cabinet shell through the cable opening after connecting the inverter box and the storage battery, so that the connection among the cabinet shell, the inverter box and the storage battery is realized.

Description

Power supply energy storage cabinet

Technical Field

The utility model relates to the field of energy storage, in particular to a power supply energy storage cabinet.

Background

With the continuous utilization of renewable clean energy sources such as solar energy, wind energy and biomass energy, especially after the large-scale application and development of a solar photovoltaic power generation system, small-sized user side energy storage has become a trend, and the small-sized user side energy storage is more in the form of an energy storage cabinet, so that the energy storage cabinet also becomes more and more popular.

In the existing household energy storage cabinets on the market, after the copper bars are arranged on the inner wall of the cabinet, wiring on the inverter and the internal storage battery is manually connected to the copper bars by a worker, so that conduction between the internal storage battery and the inverter is achieved, however, the wiring in the energy storage cabinet is messy due to the manual wiring mode, when the wiring is required to be maintained, the wiring which is required to be maintained is difficult to be rapidly positioned in a large number of messy wiring, and the situation of wrong wiring is easy to occur in the maintenance process, so that the maintenance difficulty of the maintenance personnel is increased.

Disclosure of Invention

Based on this, it is necessary to solve the above-mentioned problems and provide a power supply energy storage cabinet which reduces the number of wires inside the energy storage cabinet, thereby reducing the maintenance difficulty of maintenance personnel.

The utility model provides a power supply energy storage cabinet which comprises a cabinet shell, an inverter box and a storage battery, wherein the cabinet shell is provided with a power supply circuit;

the equipment cabinet comprises an equipment cabinet shell, wherein a plurality of fixing plates are arranged in the equipment cabinet shell, the inverter box and the storage battery are fixed on the fixing plates, a cable opening is formed in the side wall of the equipment cabinet shell, a connecting cable is arranged in the equipment cabinet shell, and the connecting cable penetrates out through the cable opening after connecting the inverter box and the storage battery, so that the connection among the equipment cabinet shell, the inverter box and the storage battery is realized;

the side walls of the inverter box and the storage battery are provided with connecting terminals, and a plurality of connecting terminals are arranged in the extending direction of the connecting cables;

the connecting terminals are arranged on the side walls of the inverter box and the storage battery and are connected through the connecting cables, so that connection among the inverter box, the storage battery and the cabinet shell is achieved.

Further, the connecting terminal comprises a plurality of power interfaces;

when the storage battery and the inverter box are installed in the cabinet shell, the power interface is inserted into a power connection pile arranged on the cabinet shell, and the power connection pile is connected with the connecting cable, so that power supply connection between the storage battery and the inverter box and the cabinet shell is realized.

Further, a plurality of openings are formed in the connecting cable, an external screw penetrates through the openings and is inserted into the power interface and locked, at the moment, the connecting cable is conducted with the power interface, so that connection between the connecting cable and the power interface is achieved, and an insulating layer is further wrapped on the outer layer of the connecting cable, so that the connecting cable is prevented from being broken due to the influence of external impact after being conducted;

wherein, a shielding cover is also arranged on the power interface;

the shielding cover is arranged on the power interface, and covers the contact point between the connecting cable and the power interface when the connecting cable is conducted with the power interface, so that the contact point is prevented from being separated or short-circuited due to the influence of external impact.

Further, the inverter box and the storage battery are also provided with a disassembly handle;

the disassembly handle is arranged on the inversion box and the side plate of the storage battery, and when a user needs to disassemble the inversion box and the storage battery from the cabinet shell, the inversion box and the storage battery can be directly pulled out from the interior of the cabinet shell through the disassembly handle;

in addition, the disassembly handle comprises a fixed clamping position and an outer handle;

two ends of the outer handle are provided with a fixing bulge, the inner wall of the fixing clamping position is provided with a fixing open hole, the fixing bulge is in interference fit with the fixing open hole, therefore, the outer pull handle is movably fixed in the fixing clamping position, an opening is formed in the side wall of the fixing clamping position in a matched mode with the outer pull handle, and the function of adjusting the setting angle of the outer pull handle is achieved.

Further, the inverter box and the storage battery are also provided with an upper lifting handle;

the lifting handle is arranged on the top plates of the inversion box and the storage battery, and when a user needs to lift the inversion box and the storage battery, the user can lift the inversion box and the storage battery in a lifting mode;

further, the upper lifting handle comprises a fixing piece and a lifting handle;

two sides of the fixing piece are provided with an inserting opening, and two ends of the lifting handle are inserted into the inserting opening, so that the lifting handle is movably fixed on two sides of the fixing piece.

Further, a fixed rod is arranged on the side wall of the cabinet shell;

the cabinet is characterized in that a bending piece is arranged on the side wall of the cabinet body, the bending piece is fixed at two ends of the fixing rod through screws, an expansion screw is further arranged on the fixing rod, and when the expansion screw is inserted into an external wall, the fixing rod can fix the cabinet body on the wall surface, so that the cabinet body is prevented from toppling over.

Furthermore, a plurality of supporting feet are arranged below the cabinet shell;

the supporting legs are arranged below the cabinet shell through a fixing screw;

the support legs comprise upper adjusting nuts, lower adjusting nuts, screw pieces and pad legs;

the pad foot is fixed one end of the screw piece, the other end of the screw piece is inserted below the cabinet shell, the upper adjusting nut is sleeved on the screw piece and props against the cabinet shell, and the lower adjusting nut is sleeved on the screw piece and props against the pad foot, so that the function of adjusting the distance between the pad foot and the cabinet shell is achieved.

Furthermore, the cabinet shell is also provided with a wiring opening, and the inverter box is also provided with a mains supply input port, a solar energy input port and an output port;

the utility power input port is arranged on the side wall of the inverter box and is connected with external utility power, the solar energy input port is arranged on the side wall of the inverter box and is connected with external solar energy power supply, the output port is arranged on the side wall of the inverter box and is connected with an external output cable, and when the inverter box is fixed in the cabinet shell, the wiring opening is aligned with the utility power input port, the solar energy input port and the output port, so that a user can conveniently plug and pull an interface;

wherein, one side of the wiring opening is also provided with a movable door;

the movable door is arranged on the side wall of the cabinet shell, and when the movable door covers the wiring opening, the utility power input port, the solar energy input port and the output port can be shielded, so that external sundries are prevented from entering the interface to cause the damage of the interface.

Further, a charging gun connection port is arranged on the side wall of the inverter box, and a charging gun opening is also arranged on the cabinet shell;

the charging gun connecting port is arranged on the side wall of the inversion box and is connected with the storage battery, and when the inversion box is fixed in the cabinet shell, the charging gun opening is aligned with the charging gun connecting port, so that a user can conveniently plug and pull an external charging gun.

According to the structure, after the connecting terminals are arranged on the side walls of the inverter box and the storage battery, the connecting terminals are uniformly connected by using the connecting cable arranged in the cabinet shell, and the connecting terminals are directly arranged on the side walls of the inverter box and the storage battery, so that the risk of wrong connection is reduced by directly connecting the plug, the problem that the maintenance difficulty of maintenance personnel is improved due to excessive wiring in the wiring mode in the prior art is solved, and the maintenance difficulty of the maintenance personnel is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

FIG. 1 is a schematic diagram of a cabinet housing according to an embodiment;

FIG. 2 is a schematic diagram of the inverter box and the battery in position according to an embodiment;

FIG. 3 is an internal structural view of a moveable door and a charging gun opening in one embodiment;

FIG. 4 is a schematic view illustrating the positions of the shielding cover, the connecting cable and the fixing rod according to an embodiment;

FIG. 5 is an enlarged view of the structure of the connecting cable and the connecting terminal according to an embodiment;

FIG. 6 is a schematic structural diagram of a connection terminal according to an embodiment;

fig. 7 is a schematic structural diagram of an inverter box and a storage battery in an embodiment;

FIG. 8 is a schematic diagram of an embodiment of an upper lifting handle;

FIG. 9 is a schematic view of a pull handle according to an embodiment;

FIG. 10 is a schematic view illustrating an installation of a bending member according to an embodiment;

FIG. 11 is a schematic view of a supporting leg according to an embodiment;

the reference numerals in the figures are: the power supply device comprises a 1-cabinet shell, a 2-inverter box, a 3-storage battery, a 4-fixing plate, a 5-cable opening, a 6-connecting cable, a 61-insulating layer, a 7-connecting terminal, an 8-power interface, a 9-shielding cover, a 10-disassembling handle, an 11-fixing clamping position, a 12-external pull handle, a 13-lifting handle, a 14-fixing piece, a 15-lifting handle, a 16-fixing rod, a 17-bending piece, 18-supporting feet, a 181-upper adjusting nut, a 182-lower adjusting nut, a 183-screw piece, 184-pad feet, a 19-wiring opening, a 21-mains supply input port, a 22-solar input port, a 23-output port, a 20-movable door, a 30-charging gun connecting port and a 31-charging gun opening.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

Referring to fig. 1, 2, 4, 5 and 7, the utility model provides a power supply and energy storage cabinet, which comprises a cabinet shell 1, an inverter box 2 and a storage battery 3;

a plurality of fixing plates 4 are arranged in the cabinet shell 1, the inverter box 2 and the storage battery 3 are fixed on the fixing plates 4, a cable opening 5 is formed in the side wall of the cabinet shell 1, a connecting cable 6 is arranged in the cabinet shell 1, and the connecting cable 6 penetrates out of the cabinet shell 1, the inverter box 2 and the storage battery 3 through the cable opening 5 after connecting the inverter box 2 and the storage battery 3, so that connection among the cabinet shell 1, the inverter box 2 and the storage battery 3 is realized;

referring to fig. 5 and 6, wherein the inverter case 2 and the side wall of the battery 3 are provided with connection terminals 7, the plurality of connection terminals 7 are arranged in the extending direction of the connection cable 6;

the connection terminals 7 are provided on the side walls of the inverter case 2 and the battery 3 and connected by the connection cable 6, thereby realizing connection between the inverter case 2, the battery 3 and the cabinet housing 1.

As described in the above embodiment, the fixing plate 4 is disposed in the cabinet housing 1, and the inverter box 2 and the storage battery 3 are disposed on the fixing plate 4, so that the function of mounting the inverter box 2 and the storage battery 3 in the cabinet housing 1 is achieved, in addition, the cabinet housing 1 is internally provided with the connecting cable 6, the connecting cable 6 connects the inverter box 2 and the storage batteries 3 together, it can be understood that in this embodiment, the connecting cable 6 connects the inverter box 2 and the storage batteries 3 in parallel and then passes through the cable opening 5, thereby realizing the capacity expansion of other storage batteries disposed in the external auxiliary cabinet, and achieving the function of improving the capacity of the storage batteries;

the side walls of the inverter box 2 and the storage battery 3 are provided with connecting terminals 7, and the connecting terminals 7 are arranged in the extending direction of the connecting cables 6, so that the connecting cables 6 can directly connect the connecting terminals 7 in parallel, and the function of parallel connection between the inverter box 2 and the storage battery 3 is realized;

in addition, after the connecting cable 6 passes out of the cable opening 5, other external storage batteries can be connected in parallel continuously, so that the function of prolonging the working time of the utility model is realized.

Through above-mentioned structure, through set up connecting terminal on the lateral wall of contravariant case and battery, use the setting to carry out the unified connection with connecting terminal at rack casing in-connection cable, because connecting terminal directly set up on the lateral wall of contravariant case and battery, therefore this kind of setting up mode has reached the risk of having reduced the wrong line of connection through the mode that the plug directly links, the wiring mode among the prior art has been solved because the wiring is too much leads to promoting maintenance personnel's the maintenance degree of difficulty problem, has reduced maintenance personnel's the maintenance degree of difficulty.

Referring to fig. 6, in one embodiment, the connection terminal 7 includes several power interfaces 8;

when the battery 3 and the inverter box 2 are inserted into the cabinet housing 1, the power supply interface 8 is inserted into a power supply connection pile provided in the cabinet housing 1, and the power supply connection pile is connected with the connection cable 6, thereby realizing power supply connection between the battery 3 and the inverter box 2 and the cabinet housing 1.

As described in the above embodiment, the power interface 8 is disposed in the connection terminal 7, the power connection piles are disposed on the side wall of the cabinet housing 1, and the power connection piles are connected with the connection cable 6, it is to be understood that in this embodiment, the power connection piles are female connection ports and include a positive power connection port and a negative power connection port, the power connection piles are male connection ports and include positive power connection piles and negative power connection piles, and in addition, the positive power connection piles are connected in series through the connection cable 6, and in addition, the negative power connection piles are connected in series through the connection cable 6, so that when the positive power connection piles are inserted into the positive power connection ports, the connection cable 6 actually connects the inverter box 2 and the storage battery 3 in parallel when the negative power connection piles are inserted into the negative power connection ports.

Referring to fig. 5, in an embodiment, a plurality of openings are formed on the connecting cable 6, and external screws pass through the openings and are inserted into the power interface 8 and locked, at this time, the connecting cable 6 is conducted with the power interface 8, so as to realize connection between the connecting cable 6 and the power interface 8, and an insulating layer 61 is further wrapped on the outer layer of the connecting cable 6, so that the connecting cable 6 is prevented from being broken or touched mutually to cause short circuit after being conducted under the influence of external impact;

referring to fig. 4, a shielding cover 9 is further disposed on the power interface 8;

the shielding cover 9 is disposed on the power interface 8, and when the connection cable 6 is conducted with the power interface 8, the shielding cover 9 covers a contact point between the connection cable 6 and the power interface 8, thereby preventing the contact point from being separated or short-circuited due to an external impact.

As described in the above embodiment, the connecting cable 6 is provided with a plurality of openings, the power interface 8 is provided with a threaded cavity in the center, the connecting cable 6 can be locked to the cavity through the openings by an external screw, so that stable connection between the connecting cable 6 and the power interface 8 is achieved, in addition, the power interface 8 is further provided with a shielding cover 9, the shielding cover 9 covers the upper portion of the connection between the power interface 8 and the connecting cable 6, and it can be understood that the shielding cover 9 only needs to cover the connection between one pole and the connecting cable 6 to prevent the short circuit caused by mutual touching between the connecting cable 6 because the power interface 8 has a positive electrode interface and a negative electrode interface.

Referring to fig. 7, in an embodiment, the inverter box 2 and the battery 3 are further provided with a disassembling handle 10;

the disassembly handle 10 is arranged on the side plates of the inverter box 2 and the storage battery 3, and when a user needs to disassemble the inverter box 2 and the storage battery 3 from the cabinet shell 1, the inverter box 2 and the storage battery 3 can be directly pulled out from the interior of the cabinet shell 1 through the disassembly handle 10;

referring to fig. 9, in addition, the disassembly handle 10 includes a fixing clip 11 and an outer pull handle 12;

the two ends of the outer pull handle 12 are provided with a fixing bulge, the inner wall of the fixing clamping position 11 is provided with a fixing opening, the fixing bulge is in interference fit with the fixing opening, so that the outer pull handle 12 is movably fixed in the fixing clamping position 11, an opening is formed in the side wall of the fixing clamping position 11 in a matched manner with the outer pull handle 12, and the function of adjusting the setting angle of the outer pull handle 12 is realized.

As described in the above embodiment, the disassembly handle 10 is disposed on the side plates of the inverter case 2 and the battery 3, when the user needs to disassemble the inverter case 2 and the battery 3 from the cabinet case 1, the inverter case 2 and the battery 3 can be directly pulled out from the interior of the cabinet case 1 through the disassembly handle 10, in this embodiment, the disassembly handle 10 is disposed on the same side of the inverter case 2 and the battery 3 as the side plates on the cabinet case 1, and after the user disassembles the side plates on the cabinet case 1, the user can directly contact the disassembly handle 10 and pull out the inverter case 2 and the battery 3, thereby facilitating the disassembly of the inverter case 2 and the battery 3 by the user.

Referring to fig. 7, in an embodiment, an upper lifting handle 13 is further disposed on the inverter box 2 and the storage battery 3;

the upper lifting handle 13 is arranged on the top plates of the inverter box 2 and the storage battery 3, and when a user needs to lift the inverter box 2 and the storage battery 3, the user can lift the inverter box 2 and the storage battery 3 by lifting the upper lifting handle 13;

referring to fig. 8, in addition, the lift tab 13 includes a fixing piece 14 and a lift tab 15;

two sides of the fixing piece 14 are provided with an insertion opening into which two ends of the lifting handle 15 are inserted, so that the lifting handle 15 is movably fixed at two sides of the fixing piece 14.

As described in the above embodiment, the lifting handle 13 is provided on the top plate of the inverter case 2 and the battery 3, and when the user pulls the inverter case 2 and the battery 3 out of the cabinet case 1, the inverter case 2 and the battery 3 can be lifted by the lifting handle 15 to be carried.

Referring to fig. 4 and 10, in one embodiment, a fixing rod 16 is disposed on a side wall of the cabinet housing 1;

the lateral wall of the cabinet shell 1 is provided with a bending piece 17, the bending piece 17 is fixed at two ends of the fixing rod 16 through screws, the fixing rod 16 is also provided with expansion screws, and when the expansion screws are inserted into an external wall, the fixing rod 16 can fix the cabinet shell 1 on the wall surface, so that the cabinet shell 1 is prevented from toppling over.

As described in the above embodiment, the bending members 17 are provided on the side walls of the cabinet housing 1, and the fixing rods 16 are fixed on the outer wall surface by the expansion screws, when the user needs to fix the cabinet housing 1 on the outer wall surface, the cabinet housing 1 can be moved to the wall surface where the fixing rods 16 are provided, and then the bending members 17 are fixed on both sides of the fixing rods 16 by the screws, so as to realize the function of fixing the cabinet housing 1 on the wall surface to prevent the cabinet housing 1 from tilting.

Referring to fig. 1 and 11, in an embodiment, a plurality of supporting feet 18 are further disposed below the cabinet housing 1;

the supporting leg 18 is arranged below the cabinet shell 1 through a fixing screw;

the supporting leg 18 includes an upper adjusting nut 181, a lower adjusting nut 182, a screw 183, and a pad 184;

the pad 184 is fixed at one end of the screw member 183, the other end of the screw member 183 is inserted below the cabinet housing 1, the upper adjusting nut 181 is sleeved on the screw member 183 and props against the cabinet housing 1, and the lower adjusting nut 182 is sleeved on the screw member 183 and props against the pad 184, thereby realizing the function of adjusting the distance between the pad 184 and the cabinet housing 1.

Referring to fig. 3, in an embodiment, the cabinet housing 1 is further provided with a wiring opening 19, and the inverter box 2 is further provided with a mains input port 21, a solar input port 22 and an output port 23;

the utility power input port 21 is arranged on the side wall of the inverter box 2 and is connected with external utility power, the solar energy input port 22 is arranged on the side wall of the inverter box 2 and is connected with external solar energy power supply, the output port 23 is arranged on the side wall of the inverter box 2 and is connected with external output cables, and when the inverter box 2 is fixed in the cabinet shell 1, the wiring opening 19 is aligned with the utility power input port 21, the solar energy input port 22 and the output port 23, so that a user can conveniently plug and pull the interface;

referring to fig. 1, wherein a movable door 20 is further provided at one side of the wire connection opening 19;

the movable door 20 is arranged on the side wall of the cabinet shell 1, and when the movable door 20 covers the wiring opening 19, the mains supply input port 21, the solar energy input port 22 and the output port 23 can be shielded, so that external sundries are prevented from entering the interface to cause the damage of the interface.

As described in the above embodiment, the inverter box 2 is further provided with a utility power input port 21, a solar energy input port 22 and an output port 23, wherein the utility power input port 21 is used for connecting an external utility power supply to charge the utility power of the storage battery 3, the solar energy input port 22 is used for connecting an external solar panel to charge the solar energy of the storage battery 3, and the output port 23 is used for connecting an external electric device, so that the storage battery 3 can output power through two power supply output ports of the connecting cable 6 or the output port 23, the wiring opening 19 is aligned to the utility power input port 21, the solar energy input port 22 and the output port 23, and meanwhile, the movable door 20 covers the wiring opening 19, thereby realizing the function of preventing external sundries from entering the interface to cause interface damage.

Referring to fig. 1, 3 and 7, in one embodiment, a charging gun connection port 30 is provided on a side wall of the inverter box 2, and a charging gun opening 31 is further provided on the cabinet housing 1;

the charging gun connection port 30 is arranged on the side wall of the inverter box 2 and is connected with the storage battery 3, and when the inverter box 2 is fixed in the cabinet shell 1, the charging gun opening 31 is aligned with the charging gun connection port 30, so that a user can conveniently plug and pull an external charging gun.

As described in the above embodiment, a charging gun connection port 30 is provided on the side wall of the inverter box 2, the charging gun connection port 30 is further connected with the storage battery 3, at this time, the inverter box 2 can convert the output power supply of the storage battery 3 into power supply output required by charging of the new energy electric car, and output the power supply through an external charging gun connected with the charging gun connection port 30, and meanwhile, the charging gun connection port 30 is aligned with the charging gun connection port 30, so as to facilitate the user to insert and withdraw the external charging gun.

The utility model has the greatest beneficial effects that after the connecting terminals are arranged on the side walls of the inverter box and the storage battery, the connecting terminals are uniformly connected by using the connecting cables arranged in the cabinet shell, and as the connecting terminals are directly arranged on the side walls of the inverter box and the storage battery, the arrangement mode reduces the risk of wrong connection by directly connecting plugs, solves the problem that the maintenance difficulty of maintenance personnel is improved due to excessive wiring in the wiring mode in the prior art, and reduces the maintenance difficulty of the maintenance personnel.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The power supply and energy storage cabinet is characterized by comprising a cabinet shell, an inverter box and a storage battery;

the equipment cabinet comprises an equipment cabinet shell, wherein a plurality of fixing plates are arranged in the equipment cabinet shell, the inverter box and the storage battery are fixed on the fixing plates, a cable opening is formed in the side wall of the equipment cabinet shell, a connecting cable is arranged in the equipment cabinet shell, and the connecting cable penetrates out through the cable opening after connecting the inverter box and the storage battery, so that the connection among the equipment cabinet shell, the inverter box and the storage battery is realized;

the side walls of the inverter box and the storage battery are provided with connecting terminals, and a plurality of connecting terminals are arranged in the extending direction of the connecting cables;

the connecting terminals are arranged on the side walls of the inverter box and the storage battery and are connected through the connecting cables, so that connection among the inverter box, the storage battery and the cabinet shell is achieved.

2. The powered energy storage cabinet of claim 1, wherein the connection terminals comprise a plurality of power interfaces;

when the storage battery and the inverter box are installed in the cabinet shell, the power interface is inserted into a power connection pile arranged on the cabinet shell, and the power connection pile is connected with the connecting cable, so that power supply connection between the storage battery and the inverter box and the cabinet shell is realized.

3. The power supply and energy storage cabinet of claim 2, wherein the connecting cable is provided with a plurality of openings, an external screw penetrates through the openings and is inserted into the power interface and locked, at the moment, the connecting cable is conducted with the power interface so as to realize connection between the connecting cable and the power interface, and an insulating layer is further wrapped on the outer layer of the connecting cable so as to prevent the connecting cable from being broken due to the influence of external impact after the connecting cable is conducted;

wherein, a shielding cover is also arranged on the power interface;

the shielding cover is arranged on the power interface, and covers the contact point between the connecting cable and the power interface when the connecting cable is conducted with the power interface, so that the contact point is prevented from being separated or short-circuited due to the influence of external impact.

4. The power supply and energy storage cabinet of claim 1, wherein the inverter box and the storage battery are further provided with a disassembly handle;

the disassembly handle is arranged on the inversion box and the side plate of the storage battery, and when a user needs to disassemble the inversion box and the storage battery from the cabinet shell, the inversion box and the storage battery can be directly pulled out from the interior of the cabinet shell through the disassembly handle;

in addition, the disassembly handle comprises a fixed clamping position and an outer handle;

two ends of the outer handle are provided with a fixing bulge, the inner wall of the fixing clamping position is provided with a fixing open hole, the fixing bulge is in interference fit with the fixing open hole, therefore, the outer pull handle is movably fixed in the fixing clamping position, an opening is formed in the side wall of the fixing clamping position in a matched mode with the outer pull handle, and the function of adjusting the setting angle of the outer pull handle is achieved.

5. The power supply and energy storage cabinet of claim 1, wherein the inverter box and the storage battery are further provided with an upper lifting handle;

the lifting handle is arranged on the top plate of the inversion box and the top plate of the storage battery, and when a user needs to lift the inversion box and the storage battery, the user can lift the inversion box and the storage battery in a lifting mode.

6. The powered energy storage cabinet of claim 5, wherein the upper lift tab comprises a securing member and a lift tab;

two sides of the fixing piece are provided with an inserting opening, and two ends of the lifting handle are inserted into the inserting opening, so that the lifting handle is movably fixed on two sides of the fixing piece.

7. The power supply and energy storage cabinet of claim 1, wherein a fixed rod is arranged on the side wall of the cabinet shell;

the cabinet is characterized in that a bending piece is arranged on the side wall of the cabinet body, the bending piece is fixed at two ends of the fixing rod through screws, an expansion screw is further arranged on the fixing rod, and when the expansion screw is inserted into an external wall, the fixing rod can fix the cabinet body on the wall surface, so that the cabinet body is prevented from toppling over.

8. The power supply and energy storage cabinet of claim 1, wherein a plurality of supporting feet are further arranged below the cabinet shell;

the supporting legs are arranged below the cabinet shell through a fixing screw;

the support legs comprise upper adjusting nuts, lower adjusting nuts, screw pieces and pad legs;

the pad foot is fixed one end of the screw piece, the other end of the screw piece is inserted below the cabinet shell, the upper adjusting nut is sleeved on the screw piece and props against the cabinet shell, and the lower adjusting nut is sleeved on the screw piece and props against the pad foot, so that the function of adjusting the distance between the pad foot and the cabinet shell is achieved.

9. The power supply and energy storage cabinet of claim 1, wherein a wiring opening is further formed in the cabinet housing, and a mains supply input port, a solar energy input port and an output port are further formed in the inverter box;

the utility power input port is arranged on the side wall of the inverter box and is connected with external utility power, the solar energy input port is arranged on the side wall of the inverter box and is connected with external solar energy power supply, the output port is arranged on the side wall of the inverter box and is connected with an external output cable, and when the inverter box is fixed in the cabinet shell, the wiring opening is aligned with the utility power input port, the solar energy input port and the output port, so that a user can conveniently plug and pull an interface;

wherein, one side of the wiring opening is also provided with a movable door;

the movable door is arranged on the side wall of the cabinet shell, and when the movable door covers the wiring opening, the utility power input port, the solar energy input port and the output port can be shielded, so that external sundries are prevented from entering the interface to cause the damage of the interface.

10. The power supply and energy storage cabinet of claim 1, wherein a charging gun connection port is arranged on the side wall of the inverter box, and a charging gun opening is further arranged on the cabinet shell;

the charging gun connecting port is arranged on the side wall of the inversion box and is connected with the storage battery, and when the inversion box is fixed in the cabinet shell, the charging gun opening is aligned with the charging gun connecting port, so that a user can conveniently plug and pull an external charging gun.