CN116598931B

CN116598931B - Outdoor cabinet of electric power energy storage

Info

Publication number: CN116598931B
Application number: CN202310855023.XA
Authority: CN
Inventors: 车聪聪; 王立峰; 刘晓亮; 李树素; 李宗立; 王秀强; 侯培彬; 王新明; 刘国瑞; 刘伟
Original assignee: Boding Energy Storage Technology Shandong Co ltd
Current assignee: Boding Energy Storage Technology Shandong Co ltd
Priority date: 2023-07-13
Filing date: 2023-07-13
Publication date: 2023-09-12
Anticipated expiration: 2043-07-13
Also published as: CN116598931A

Abstract

The invention belongs to the technical field of electric power facilities, in particular to an electric power energy storage outdoor cabinet which comprises a bottom cabinet shell, wherein two sides of the surface of the bottom cabinet shell are fixedly connected with adapter guide heads, the top of an inner cavity of the bottom cabinet shell is fixedly connected with a power supply part, the middle part of the inner cavity of the bottom cabinet shell is slidably connected with an energy storage device, and the back of the energy storage device is fixedly connected with a traction device. The device can be through the mode of rotation solar panel, adjusts the direct point of receiving of sunlight, makes solar panel can furthest absorb sunlight, improves solar panel's actual work efficiency to solar panel can provide the solar protection effect for the power supply unit of below, makes the sun at the in-process of every day motion, and the power supply unit of protection bottom all the time is not directly shone by sunlight, and then reduces the absorptive heat of inside storage electrical apparatus, avoids the heat accumulation to lead to the problem of circuit equipment damage.

Description

Outdoor cabinet of electric power energy storage

Technical Field

The invention belongs to the technical field of electric power facilities, and particularly relates to an electric power energy storage outdoor cabinet.

Background

At present, 20-ruler or 40-ruler standard container energy storage systems are adopted for electric power energy storage, and equipment such as battery clusters, thermal management air conditioners, PCS, fire protection and the like is integrated in a container. The single container energy storage system has large occupied area and low energy density in unit area, and is not beneficial to the application in narrow places or areas with shortage of land resources.

In the photovoltaic power generation process, electric energy generated by the solar panel is required to be stored in a special electric power storage cabinet, so that the electric power storage cabinet is not too far away from the solar panel in order to reduce the loss of the electric energy in the transportation process, the electric power storage cabinet is often subjected to direct solar radiation, internal storage appliances are easy to absorb heat, and the heat dissipation effect is also poor, so that improvement is required.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the utility model provides an outdoor cabinet of electric power energy storage, includes the bottom cabinet shell, the equal fixedly connected with switching guide of both sides on bottom cabinet shell surface, the top fixedly connected with power supply unit of bottom cabinet shell inner chamber, the middle part sliding connection of bottom cabinet shell inner chamber has energy storage device, energy storage device's back fixedly connected with draw gear, power supply unit includes, when using the device to work, adjusts the position that top solar panel is located according to the geographical position that the device set up earlier, makes solar panel just direct the direction to the sun, then sets up the corner speed of both sides timing runner according to local time, then the device is through solar panel with the sunlight conversion that directs in the power supply unit of electric energy storage below.

Preferably, the solar panel, one side of the solar panel surface close to the bottom cabinet shell is fixedly connected with a traction tube shell, an inner cavity of the traction tube shell is fixedly connected with a flexible wire, the middle part of the traction tube shell surface is fixedly connected with a bundling rotating plate, and one end of the traction tube shell far away from the solar panel is fixedly connected with a traction rotating drum; the built-in power supply board can convey current to the power supply component, the built-in power supply board is provided with a flat guide plate, spring guide rods are uniformly arranged at the bottom of an inner cavity of the built-in power supply board, the top of the inner cavity of the flat guide plate is fixedly connected with the bottom end of the flexible wire, and the surface of the built-in power supply board is fixedly connected with the top of the inner cavity of the bottom cabinet shell; the timing rotating wheel can rotate along with time, one side of the surface of the timing rotating wheel is connected with a main rotating wheel in a meshed manner, the top of the surface of the main rotating wheel is fixedly connected with one end of the traction rotating drum through a welding rotating rod, the axis of the inner cavity of the timing rotating wheel is rotationally connected with one end of the inner cavity of the bottom cabinet shell through an inserting rod, and the axis of the inner cavity of the main rotating wheel is rotationally connected with the inner cavity of the bottom cabinet shell through a bearing; because the actual position of the sun relative to the device is constantly changed, but the timing rotating wheels on two sides can control the deflection of the main rotating wheel, the traction rotating drum can lead the solar panel to slowly rotate through the traction rotating drum, the solar panel can always face the direct position of the sunlight, and then the sunlight is prevented from directly radiating to a power supply part below, when the solar panel supplies power, on one hand, the external joints on two sides are used for directly transmitting power to the external power supply plate on the bottom, on the other hand, the internal power supply plate can directly transmit power to the internal power supply plate on the bottom through the flexible wires of the inner cavity of the traction rotating drum, and when the internal power supply plate transmits power to the power supply part through the spring guide rod on the bottom of the inner cavity, the spring guide rod is in butt joint with the clamping groove on the top end of the bottom power supply part due to clamping, and further power is supplied. The device can be through the mode of rotation solar panel, adjusts the direct point of receiving of sunlight, makes solar panel can furthest absorb sunlight, improves solar panel's actual work efficiency to solar panel can provide the solar protection effect for the power supply unit of below, makes the sun at the in-process of every day motion, and the power supply unit of protection bottom all the time is not directly shone by sunlight, and then reduces the absorptive heat of inside storage electrical apparatus, avoids the heat accumulation to lead to the problem of circuit equipment damage.

Preferably, the device can reset the cluster rotating plate in a fast rotating way by the rebound part, and two ends of the rebound part are fixedly connected with the inner cavity of the bottom cabinet shell through the socket. The solar panel surface is kept away from the equal fixedly connected with external joint in both sides of bundling revolving plate, the bottom of external joint inner chamber is through connecting wire and the inner chamber sliding connection of adapter, the surface of flexible wire is through the bottom fixed connection of through-hole and traction rotary drum inner chamber, the bottom of flexible wire extends to the inside of built-in power supply board. The rebound part comprises a vertical cylinder shell, an arc-shaped guide rail is fixedly connected to the top end of the vertical cylinder shell, a built-in sliding sleeve is slidably connected to one side of an inner cavity of the arc-shaped guide rail, an arc-shaped spring is fixedly connected to the inner cavity of the built-in sliding sleeve, a hollow compression shell is fixedly connected to one end, far away from the built-in sliding sleeve, of the arc-shaped spring, and a pressure gauge is fixedly connected to the bottom of the inner cavity of the hollow compression shell through a gas transmission pipe. In the process of carrying out micro-rotation along with time, the built-in sliding sleeves at both ends of the bundling rotating plate can drag the inner cavities of the arc guide rails to slide, at the moment, the built-in sliding sleeves extrude the arc springs at the corresponding sides, then one ends of the arc springs, which are far away from the built-in sliding sleeves, extrude the hollow compression shell of the inner cavity of the vertical cylinder shell, the hollow compression shell is flattened, then the hollow compression shell pressurizes the gas in the inner cavity to the upper surface of the pressure gauge through the through pipe, so that the pressure gauge can carry out pressure measurement, when the time of falling of the sun every day is reached, the pressure gauge reaches the set indication, the timing rotating wheels at both sides stop working at the moment, then the compressed arc springs restore to the original state, the built-in sliding sleeves are pushed back to the original position, and the bundling rotating plate rotates back to the position, which is opposite to the sun, of the next day, so that the power supply part at the bottom is prevented from being directly irradiated by sunlight. The solar panel of the device can supply power to the power storage box at the bottom through the external connectors at the two sides and the flexible wires in the inner cavity, so that when the external adapter is aged in conduction or cannot normally transmit power, the power can be shunted through the internal flexible wires for transmission, and the problem that the solar panel cannot normally operate due to the interference of external complex environments is avoided.

Preferably, the surface of built-in sliding sleeve is fixedly connected with one end of the bunching rotating plate, two ends of the bunching rotating plate are both in sliding connection with one side of the inner cavity of the arc-shaped guide rail through arc-shaped cutting grooves, the surface of the arc-shaped spring is in sliding connection with the inner cavity of the arc-shaped guide rail, the surface of the hollow compression shell is in sliding connection with the axle center of the inner cavity of the vertical cylinder shell, and the number of the rebound parts is two. The timing runner of the device can rotate automatically after finishing setting, the deflection speed of the solar panel is controlled, after the sun falls every day, the built-in sliding sleeve slides to the other side of the arc guide rail, the arc spring is compressed, and then the threshold value set by the pressure gauge is reached, so that the main runner is powered off, the compressed arc spring pushes the built-in sliding sleeve back to the initial position rapidly, the phenomenon that the main runner reversely rotates again to slowly reset the cluster runner is avoided, the speed of pushing the built-in sliding sleeve by the arc spring is not only faster, but also the cluster runner can be accurately pushed to a fixed position.

Preferably, the energy storage device comprises an electric storage box, buffer friction rods are fixedly connected to two sides of the top of the surface of the electric storage box, a control motor is fixedly connected to two sides of the bottom of the inner cavity of the bottom cabinet, a friction rotating rod is fixedly connected to the surface of an output shaft of the control motor, and an arc-shaped clamping plate is fixedly connected to one end, far away from the traction device, of the bottom of the electric storage box. A through socket is arranged on one side of the inner cavity of the power storage box, which is far away from the traction device, the inner cavity of the power storage box is slidably connected with a built-in cooling plate through the through socket, the top of the surface of the power storage box is uniformly provided with an adaptive slot, the bottom end of the spring guide rod is in sliding connection with the surface of the power storage box through the adapting slot, and one end, far away from the traction device, of the inner cavity of the power storage box is in sliding connection with the inner cavity of the adapter through the sliding guide rod. The traction device comprises a filling baffle, one side of the surface of the filling baffle, which is close to the electric storage box, is fixedly connected with a rotating shaft connecting rod through a connecting plate, two sides of the surface of the rotating shaft connecting rod are respectively and rotatably connected with an arc-shaped rotating plate, one side of the surface of the rotating shaft connecting rod, which is far away from the filling baffle, is fixedly connected with a filling shell, the middle part of the inner cavity of the filling shell is fixedly connected with a resistance plate, two sides of the inner cavity of the filling shell are respectively and slidably connected with a spring sleeve rod through a sliding chute opening, and one end, which is far away from the filling shell, of the inner cavity of the spring sleeve rod is fixedly connected with a built-in wire. When the power supply part is used for supplying power to the outside, the rotating plate at the back of the bottom cabinet shell is rotated and opened firstly, the traction device is pulled, the friction rotating rod is matched with the bottom to draw out the internal power storage box from the back through hole of the bottom cabinet shell, the arc clamping plate at the bottom of the power storage box is pulled and the surface of the friction rotating rod is clamped, the traction device is pulled to be long, the power storage box cannot move continuously, then the buffer friction rods at the two ends are opened, the power storage box provides electricity, and the built-in cooling plate is fixed in the inner cavity of the bottom cabinet shell, so that the built-in cooling plate can be drawn out from the inner cavity of the power storage box to cool the power storage box for power generation.

Preferably, the surface of filling the baffle is through the grooving and the one side sliding connection that the switching guide head was kept away from to bottom cabinet shell inner chamber, the one end of arc commentaries on classics board is rotated with the surface of pivot connecting rod and is connected, the other end of arc commentaries on classics board and the surface sliding connection of power storage box, the one end of spring loop bar extrudees each other with the surface of arc commentaries on classics board, the other end of spring loop bar extends to the inside of filling the shell. When the traction device is used for pulling the electric storage box, traction force can be applied to one side of the surface of the electric storage box by the arc rotating plates on two sides, the arc rotating plates can be pulled by the electric storage box at the moment, the arc rotating plates on two sides are close to each other along the surface rotation of the rotating shaft connecting rod, then one side of the arc rotating plates, which is close to the electric storage box, can be close to each other along the vertical sliding groove of the electric storage box, at the moment, the arc rotating plates on two sides can squeeze the filling shell in the middle, so that spring sleeve rods on two sides of the filling shell are inserted into two sides of the surface of the resistance plate, and the spring sleeve rods can guide current inside the electric storage box to the resistance plate through built-in wires at the end heads to be absorbed.

Preferably, the surface of the spring sleeve rod is in sliding connection with the surface of the filling shell through a small spring, the surface of the built-in wire is in sliding connection with the inner cavity of the arc-shaped rotating plate through a groove, one end of the built-in wire, which is far away from the spring sleeve rod, extends to the inside of the power storage box through a socket, and the surface of the built-in wire is in sliding connection with the inner cavity of the power storage box. When taking out the electric power storage box of the device and using, operating personnel can manually take out the electric power storage box through the traction device, because electric energy is stored in the electric power storage box, if the electric power storage box has an electric leakage problem, the arc rotating plates on two sides can guide the leaked current to the resistance plate through the built-in lead at the moment, and the problem that the electric current directly flows through the body of the operating personnel through the filling baffle plate to cause the electric shock of the operating personnel is avoided.

Preferably, the built-in cooling plate includes fixed curb plate, one side fixedly connected with that fixed curb plate surface is close to the electric power storage case fills the cartridge, one side that fixed curb plate surface kept away from the electric power storage case passes through dead lever and the inner chamber fixed connection of bottom cabinet shell, the equal fixedly connected with in both sides of filling the cartridge inner chamber separates the shell, the middle part of separating the shell inner chamber has been seted up and has been run through the gas pocket, the equal fixedly connected with rotor motor in both ends of separating the shell inner chamber, the fixed surface connection of rotor motor output shaft has the screw thread bull stick. In the process of pulling the power storage box, the power storage box can slide relative to the filling plug-in shell, at the moment, the nozzles at the two ends of the filling plug-in shell slide out from the inside of the power storage box, then the rotor motors at the two ends pull the corresponding screw thread rotating rods to rotate, so that the screw thread rotating rods pump air from the two ends of the filling plug-in shell, and the inner cavity of the power storage box is cooled through the penetrating air holes in the middle. When the built-in cooling plate of the device discharges the power storage box, the heat in the cavity of the power storage box is discharged in a wind power mode through the open through holes on two sides, so that the cooling effect is achieved, the hollow part of the power storage box can be filled by the built-in cooling plate, the power storage box is more stable in the process of energy storage operation, and the problem of sliding in the cavity of the bottom cabinet shell is avoided.

The beneficial effects of the invention are as follows:

1. the device can be through the mode of rotation solar panel, adjusts the direct point of receiving of sunlight, makes solar panel can furthest absorb sunlight, improves solar panel's actual work efficiency to solar panel can provide the solar protection effect for the power supply unit of below, makes the sun at the in-process of every day motion, and the power supply unit of protection bottom all the time is not directly shone by sunlight, and then reduces the absorptive heat of inside storage electrical apparatus, avoids the heat accumulation to lead to the problem of circuit equipment damage.

2. The solar panel of the device can supply power to the power storage box at the bottom through the external connectors at the two sides and the flexible wires in the inner cavity, so that when the external adapter is aged in conduction or cannot normally transmit power, the power can be shunted through the internal flexible wires for transmission, and the problem that the solar panel cannot normally operate due to the interference of external complex environments is avoided.

3. The timing runner of the device can rotate automatically after finishing setting, the deflection speed of the solar panel is controlled, after the sun falls every day, the built-in sliding sleeve slides to the other side of the arc guide rail, the arc spring is compressed, and then the threshold value set by the pressure gauge is reached, so that the main runner is powered off, the compressed arc spring pushes the built-in sliding sleeve back to the initial position rapidly, the phenomenon that the main runner reversely rotates again to slowly reset the cluster runner is avoided, the speed of pushing the built-in sliding sleeve by the arc spring is not only faster, but also the cluster runner can be accurately pushed to a fixed position.

4. When taking out the electric power storage box of the device and using, operating personnel can manually take out the electric power storage box through the traction device, because electric energy is stored in the electric power storage box, if the electric power storage box has an electric leakage problem, the arc rotating plates on two sides can guide the leaked current to the resistance plate through the built-in lead at the moment, and the problem that the electric current directly flows through the body of the operating personnel through the filling baffle plate to cause the electric shock of the operating personnel is avoided.

5. When the built-in cooling plate of the device discharges the power storage box, the heat in the cavity of the power storage box is discharged in a wind power mode through the open through holes on two sides, so that the cooling effect is achieved, the hollow part of the power storage box can be filled by the built-in cooling plate, the power storage box is more stable in the process of energy storage operation, and the problem of sliding in the cavity of the bottom cabinet shell is avoided.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of a power supply unit of the present invention;

FIG. 4 is a cross-sectional view of a resilient member of the present invention;

FIG. 5 is a cross-sectional view of an energy storage device of the present invention prior to stretching;

FIG. 6 is a cross-sectional view of the energy storage device of the present invention after stretching;

FIG. 7 is a cross-sectional view of the traction device of the present invention;

fig. 8 is a cross-sectional view of the built-in cooling plate of the present invention.

In the figure: 1. a bottom cabinet; 11. a transfer guide; 2. a power supply part; 21. pulling the drum; 22. a timing wheel; 23. a main rotating wheel; 24. a cluster rotating plate; 25. traction tube shell; 26. a flexible wire; 27. a solar panel; 28. an external joint; 29. a power supply board is arranged in the power supply board; 210. a flat guide plate; 211. a spring guide rod; 4. a rebound member; 41. a vertical cartridge; 42. an arc-shaped guide rail; 43. a sliding sleeve is arranged in the inner part; 44. an arc spring; 45. a hollow compression shell; 46. a pressure gauge; 5. an energy storage device; 51. an electric storage box; 52. a buffer friction lever; 53. an arc-shaped clamping plate; 54. controlling a motor; 55. friction rotating rod; 3. a traction device; 31. filling a baffle; 32. a rotating shaft connecting rod; 33. filling the shell; 34. a resistance plate; 35. an arc rotating plate; 36. a spring sleeve rod; 37. a wire is arranged in the wire; 6. a cooling plate is arranged in the cooling plate; 61. fixing the side plates; 62. filling the plug shell; 63. a rotor motor; 64. a threaded rotating rod; 65. separating the cartridge housings.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In embodiment 1, referring to fig. 1 to 4, the present invention provides a technical solution: an electric power energy storage outdoor cabinet comprises a bottom cabinet shell 1, two sides of the surface of the bottom cabinet shell 1 are fixedly connected with adapter guide heads 11, the top of an inner cavity of the bottom cabinet shell 1 is fixedly connected with a power supply part 2, the middle part of the inner cavity of the bottom cabinet shell 1 is slidably connected with an energy storage device 5, the back of the energy storage device 5 is fixedly connected with a traction device 3, the power supply part 2 comprises,

the solar panel 27, one side of the surface of the solar panel 27, which is close to the bottom cabinet shell 1, is fixedly connected with a traction tube shell 25, an inner cavity of the traction tube shell 25 is fixedly connected with a flexible wire 26, the middle part of the surface of the traction tube shell 25 is fixedly connected with a bundling rotating plate 24, and one end, which is far away from the solar panel 27, of the traction tube shell 25 is fixedly connected with a traction rotary drum 21;

the built-in power supply board 29, the built-in power supply board 29 can convey the electric current to the power supply part 2, the built-in power supply board 29 is provided with a flat guide plate 210, the bottom of the inner cavity of the built-in power supply board 29 is uniformly provided with a spring guide rod 211, the top of the inner cavity of the flat guide plate 210 is fixedly connected with the bottom end of the flexible wire 26, and the surface of the built-in power supply board 29 is fixedly connected with the top of the inner cavity of the bottom cabinet shell 1;

the timing rotating wheel 22 can rotate along with time, one side of the surface of the timing rotating wheel 22 is connected with a main rotating wheel 23 in a meshed manner, the top of the surface of the main rotating wheel 23 is fixedly connected with one end of the traction rotating drum 21 through a welding rotating rod, the axis of the inner cavity of the timing rotating wheel 22 is rotationally connected with one end of the inner cavity of the bottom cabinet 1 through a inserted link, and the axis of the inner cavity of the main rotating wheel 23 is rotationally connected with the inner cavity of the bottom cabinet 1 through a bearing;

the device can reset the cluster rotating plate 24 by fast rotating, and two ends of the rebound part 4 are fixedly connected with the inner cavity of the bottom cabinet shell 1 through sockets.

The solar panel 27 surface is kept away from the both sides of bundling rotating plate 24 and is all fixedly connected with external joint 28, and the bottom of external joint 28 inner chamber is through connecting wire and the inner chamber sliding connection of adapter 11, and the surface of flexible wire 26 is through the bottom fixed connection of through-hole and traction rotary drum 21 inner chamber, and the bottom of flexible wire 26 extends to the inside of built-in power supply board 29.

The rebound part 4 comprises a vertical cylinder shell 41, an arc-shaped guide rail 42 is fixedly connected to the top end of the vertical cylinder shell 41, a built-in sliding sleeve 43 is slidably connected to one side of an inner cavity of the arc-shaped guide rail 42, an arc-shaped spring 44 is fixedly connected to the inner cavity of the built-in sliding sleeve 43, a hollow compression shell 45 is fixedly connected to one end, far away from the built-in sliding sleeve 43, of the arc-shaped spring 44, and a pressure gauge 46 is fixedly connected to the bottom of the inner cavity of the hollow compression shell 45 through a gas transmission pipe.

The surface of the built-in sliding sleeve 43 is fixedly connected with one end of the bundling rotating plate 24, both ends of the bundling rotating plate 24 are in sliding connection with one side of the inner cavity of the arc-shaped guide rail 42 through arc-shaped cutting grooves, the surface of the arc-shaped spring 44 is in sliding connection with the inner cavity of the arc-shaped guide rail 42, the surface of the hollow compression shell 45 is in sliding connection with the axle center of the inner cavity of the vertical cylinder shell 41, and the number of the rebound parts 4 is two.

When the device is used for working, the position of the upper solar panel 27 is adjusted according to the geographical position set by the device, so that the solar panel 27 faces the direct solar radiation direction, then the rotation angle speed of the timing rotating wheels 22 on two sides is set according to the local time, and then the device converts direct sunlight into electric energy through the solar panel 27 and stores the electric energy in the power supply part 2 below.

Because the actual position of the sun relative to the device is continuously changed, the timing rotating wheels 22 on the two sides can control the deflection of the main rotating wheel 23, so that the traction rotating drum 21 can slowly rotate through the traction rotating drum 21 and the solar panel 27 can always face the direct sunlight position, further, sunlight is prevented from directly radiating to the lower power supply part 2, when the solar panel 27 supplies power, on one hand, the external connectors 28 on the two sides are used for directly transmitting power to the external power supply plate 29 on the bottom, on the other hand, the internal power supply plate 29 can be used for directly transmitting power to the power supply part 2 through the flexible wires 26 in the inner cavity of the traction rotating drum 21, and when the internal power supply plate 29 transmits power to the power supply part 2 through the spring guide rod 211 at the bottom of the inner cavity, the spring guide rod 211 is in butt joint with the clamping groove at the top end of the bottom power supply part 2 due to the clamping connection, and further power supply is performed.

In the process of pulling the rotary drum 21 to slightly rotate along with time, the two ends of the cluster rotary plate 24 pull the built-in sliding sleeves 43 on two sides to slide along the inner cavity of the arc-shaped guide rail 42, at the moment, the built-in sliding sleeves 43 squeeze the arc-shaped springs 44 on the corresponding side, then one end of the arc-shaped springs 44 far away from the built-in sliding sleeves 43 squeeze the hollow compression shell 45 in the inner cavity of the vertical drum shell 41, at the moment, the hollow compression shell 45 is flattened, then the hollow compression shell 45 pressurizes the air in the inner cavity to the upper surface of the pressure gauge 46 through a through pipe, so that the pressure gauge 46 can carry out pressure gauge 46, when the time of daily sun falling is reached, the pressure gauge 46 reaches a preset indication, at the moment, the timing rotary wheels 22 on two sides stop working, then the compressed arc-shaped springs 44 restore to the original state, push the built-in sliding sleeves 43 back to the original position, and the cluster rotary plate 24 also rotates the solar panel 27 back to the position opposite to the sun, so as to prevent the power supply part 2 at the bottom from being directly irradiated by sunlight.

In embodiment 2, referring to fig. 1 to 8, the present invention provides a technical solution: on the basis of the first embodiment, the energy storage device 5 comprises an electric storage box 51, both sides of the top of the surface of the electric storage box 51 are fixedly connected with buffer friction rods 52, both sides of the bottom of the inner cavity of the bottom cabinet shell 1 are fixedly connected with control motors 54, the surface of an output shaft of each control motor 54 is fixedly connected with a friction rotating rod 55, and one end, far away from the traction device 3, of the bottom of the electric storage box 51 is fixedly connected with an arc-shaped clamping plate 53.

A through socket is formed in one side, far away from the traction device 3, of the inner cavity of the power storage box 51, the inner cavity of the power storage box 51 is slidably connected with the built-in cooling plate 6 through the through socket, an adaptive slot is uniformly formed in the top of the surface of the power storage box 51, the bottom end of the spring guide rod 211 is slidably connected with the surface of the power storage box 51 through the adaptive slot, and one end, far away from the traction device 3, of the inner cavity of the power storage box 51 is slidably connected with the inner cavity of the adapter 11 through the sliding guide rod.

The traction device 3 comprises a filling baffle 31, one side of the surface of the filling baffle 31, which is close to an electric storage box 51, is fixedly connected with a rotating shaft connecting rod 32 through a connecting plate, both sides of the surface of the rotating shaft connecting rod 32 are respectively and rotatably connected with an arc-shaped rotating plate 35, one side of the surface of the rotating shaft connecting rod 32, which is far away from the filling baffle 31, is fixedly connected with a filling shell 33, the middle part of the inner cavity of the filling shell 33 is fixedly connected with a resistance plate 34, both sides of the inner cavity of the filling shell 33 are respectively and slidably connected with a spring sleeve rod 36 through a chute opening, and one end, which is far away from the filling shell 33, of the inner cavity of the spring sleeve rod 36 is fixedly connected with a built-in wire 37.

The surface of the filling baffle 31 is in sliding connection with one side, far away from the adapter 11, of the inner cavity of the bottom cabinet shell 1 through a cutting groove, one end of the arc-shaped rotating plate 35 is in rotating connection with the surface of the rotating shaft connecting rod 32, the other end of the arc-shaped rotating plate 35 is in sliding connection with the surface of the power storage box 51, one end of the spring sleeve rod 36 is mutually extruded with the surface of the arc-shaped rotating plate 35, and the other end of the spring sleeve rod 36 extends to the inside of the filling shell 33.

The surface of the spring sleeve rod 36 is in sliding connection with the surface of the filling shell 33 through a small spring, the surface of the built-in wire 37 is in sliding connection with the inner cavity of the arc-shaped rotating plate 35 through a groove, one end, far away from the spring sleeve rod 36, of the built-in wire 37 extends to the inside of the power storage box 51 through a socket, and the surface of the built-in wire 37 is in sliding connection with the inner cavity of the power storage box 51.

When the power supply part 2 is used for supplying power to the outside, the rotating plate at the back of the bottom cabinet 1 is rotated and opened firstly, the traction device 3 is pulled to be matched with the friction rotating rod 55 which rotates at the bottom, the internal power storage box 51 is pulled out of the back through hole of the bottom cabinet 1, at the moment, the arc clamping plate 53 at the bottom of the power storage box 51 is pulled to be clamped with the surface of the rotation friction rotating rod 55, the traction device 3 is lengthened, the power storage box 51 cannot move continuously, then the buffer friction rods 52 at the two ends are opened, the power storage box 51 provides electricity, and the built-in cooling plate 6 is pulled out from the inner cavity of the power storage box 51 because the built-in cooling plate 6 is fixed in the inner cavity of the bottom cabinet 1, and the power storage box 51 is cooled.

When the traction device 3 is used to pull the electric storage box 51, the two arc rotating plates 35 apply traction force to one side of the surface of the electric storage box 51, at this time, the arc rotating plates 35 are pulled by the electric storage box 51, so that the two arc rotating plates 35 are close to each other along the surface of the rotating shaft connecting rod 32, then one side of the arc rotating plates 35 close to the electric storage box 51 is close to each other along the vertical sliding groove of the electric storage box 51, at this time, the two arc rotating plates 35 squeeze the middle filling shell 33, so that the spring sleeve rods 36 on two sides of the filling shell 33 are inserted into two sides of the surface of the resistance plate 34, and the spring sleeve rods 36 guide current inside the electric storage box 51 to the resistance plate 34 through the built-in wires 37 at the end heads to be absorbed.

The built-in cooling plate 6 includes fixed curb plate 61, and one side that fixed curb plate 61 surface is close to the power storage case 51 is fixedly connected with fills cartridge 62, and one side that fixed curb plate 61 surface kept away from the power storage case 51 passes through dead lever and the inner chamber fixed connection of bottom cabinet shell 1, and the equal fixedly connected with in both sides that fill cartridge 62 inner chamber separates shell 65, and the middle part that separates shell 65 inner chamber has been seted up and has been run through the gas pocket, the equal fixedly connected with rotor motor 63 in both ends that separates the shell inner chamber, the fixed surface of rotor motor 63 output shaft is connected with screw thread bull stick 64.

During traction of the power storage box 51, the power storage box 51 slides relative to the filling plug-in shell 62, at this time, nozzles at two ends of the filling plug-in shell 62 slide out from the inside of the power storage box 51, and then rotor motors 63 at two ends drag corresponding screw rotary rods 64 to rotate, so that the screw rotary rods 64 pump air from two ends of the filling plug-in shell 62, and the inner cavity of the power storage box 51 is cooled through penetrating air holes in the middle.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. The utility model provides an outdoor cabinet of electric power energy storage, includes bottom cabinet shell (1), the equal fixedly connected with switching guide (11) in both sides on bottom cabinet shell (1) surface, the top fixedly connected with power supply part (2) of bottom cabinet shell (1) inner chamber, the middle part sliding connection of bottom cabinet shell (1) inner chamber has energy memory (5), the back fixedly connected with draw gear (3) of energy memory (5), its characterized in that: the power supply part (2) comprises a power supply part,

the solar energy panel (27), one side of the surface of the solar energy panel (27) close to the bottom cabinet shell (1) is fixedly connected with a traction tube shell (25), an inner cavity of the traction tube shell (25) is fixedly connected with a flexible wire (26), the middle part of the surface of the traction tube shell (25) is fixedly connected with a bundling rotating plate (24), and one end of the traction tube shell (25) far away from the solar energy panel (27) is fixedly connected with a traction rotary drum (21);

the built-in power supply board (29), the built-in power supply board (29) can convey current to the power supply component (2), the built-in power supply board (29) is provided with a flat guide plate (210), the bottom of an inner cavity of the built-in power supply board (29) is uniformly provided with a spring guide rod (211), the top of the inner cavity of the Ping Daoban (210) is fixedly connected with the bottom end of the flexible wire (26), and the surface of the built-in power supply board (29) is fixedly connected with the top of the inner cavity of the bottom cabinet shell (1);

the timing rotating wheel (22) can rotate along with time, one side of the surface of the timing rotating wheel (22) is connected with a main rotating wheel (23) in a meshed manner, the top of the surface of the main rotating wheel (23) is fixedly connected with one end of the traction rotating drum (21) through a welding rotating rod, the axis of the inner cavity of the timing rotating wheel (22) is rotationally connected with one end of the inner cavity of the bottom cabinet shell (1) through a plug rod, and the axis of the inner cavity of the main rotating wheel (23) is rotationally connected with the inner cavity of the bottom cabinet shell (1) through a bearing;

the device can reset the cluster rotating plate (24) in a rapid rotating way, and two ends of the rebound part (4) are fixedly connected with the inner cavity of the bottom cabinet shell (1) through sockets.

2. An electric energy storage outdoor cabinet according to claim 1, wherein: the solar panel (27) surface is kept away from the both sides of bundling rotating plate (24) and is all fixedly connected with external joint (28), the bottom in external joint (28) inner chamber is through connecting wire and the inner chamber sliding connection of switching guide head (11), the bottom fixed connection in bottom in flexible wire (26) inner chamber through the through-hole and traction drum (21), the inside of built-in power supply board (29) is extended to the bottom of flexible wire (26).

3. An electric energy storage outdoor cabinet according to claim 2, wherein: the rebound part (4) comprises a vertical cylinder shell (41), an arc-shaped guide rail (42) is fixedly connected to the top end of the vertical cylinder shell (41), a built-in sliding sleeve (43) is slidably connected to one side of an inner cavity of the arc-shaped guide rail (42), an arc-shaped spring (44) is fixedly connected to the inner cavity of the built-in sliding sleeve (43), a hollow compression shell (45) is fixedly connected to one end, far away from the built-in sliding sleeve (43), of the arc-shaped spring (44), and a pressure gauge (46) is fixedly connected to the bottom of the inner cavity of the hollow compression shell (45) through a gas transmission pipe.

4. A power storage outdoor cabinet according to claim 3, wherein: the surface of built-in sliding sleeve (43) is fixedly connected with one end of a bunching rotating plate (24), two ends of the bunching rotating plate (24) are both in sliding connection with one side of an inner cavity of an arc guide rail (42) through arc cutting grooves, the surface of an arc spring (44) is in sliding connection with the inner cavity of the arc guide rail (42), the surface of a hollow compression shell (45) is in sliding connection with the axle center of the inner cavity of a vertical cylinder shell (41), and the number of rebound parts (4) is two.

5. An electric energy storage outdoor cabinet according to claim 1, wherein: the energy storage device (5) comprises an electric storage box (51), buffer friction rods (52) are fixedly connected to two sides of the top of the surface of the electric storage box (51), a control motor (54) is fixedly connected to two sides of the bottom of the inner cavity of the bottom cabinet shell (1), a friction rotating rod (55) is fixedly connected to the surface of an output shaft of the control motor (54), and an arc clamping plate (53) is fixedly connected to one end of the bottom of the electric storage box (51) away from the traction device (3).

6. An electric power storage outdoor cabinet according to claim 5, wherein: the utility model discloses a traction device, including power storage case (51), adapter and power storage case (11), the power storage case (51) inner chamber is kept away from one side of draw gear (3) and is offered and run through the socket, there is built-in cooling plate (6) in the inner chamber of power storage case (51) through running through socket sliding connection, the adaptation slot has evenly been offered at the top on power storage case (51) surface, the bottom of spring guide arm (211) is through the surface sliding connection of adaptation slot and power storage case (51), the one end that draw gear (3) was kept away from to power storage case (51) inner chamber sliding connection through slip guide arm and adapter (11).

7. An electric power storage outdoor cabinet according to claim 6, wherein: draw gear (3) are including filling baffle (31), one side that fills baffle (31) surface and is close to electric power storage case (51) is through connecting plate fixedly connected with pivot connecting rod (32), the both sides on pivot connecting rod (32) surface all rotate and are connected with arc revolving plate (35), one side fixedly connected with that fills baffle (31) is kept away from on pivot connecting rod (32) surface fills shell (33), the middle part fixedly connected with resistance plate (34) that fills shell (33) inner chamber, the both sides that fill shell (33) inner chamber all are through spout mouth sliding connection spring loop bar (36), one end fixedly connected with built-in wire (37) that fills shell (33) are kept away from to spring loop bar (36) inner chamber.

8. An electric energy storage outdoor cabinet according to claim 7, wherein: the surface of filling baffle (31) is through the grooving and the one side sliding connection that adapter guide (11) was kept away from to bottom cabinet shell (1) inner chamber, the one end of arc change board (35) is rotated with the surface of pivot connecting rod (32) and is connected, the other end of arc change board (35) is connected with the surface sliding of electric power storage case (51), the one end of spring loop bar (36) extrudees each other with the surface of arc change board (35), the other end of spring loop bar (36) extends to the inside of filling shell (33).

9. An electric power storage outdoor cabinet according to claim 8, wherein: the surface of spring loop bar (36) is through little spring and the surface sliding connection of filling shell (33), the surface of built-in wire (37) is through recess and the inner chamber sliding connection of arc revolving plate (35), the one end that spring loop bar (36) was kept away from to built-in wire (37) is through the inside of socket extension to electric power storage case (51), the surface of built-in wire (37) is with the inner chamber sliding connection of electric power storage case (51).