CN117097075A - Power distribution cabinet capable of generating and storing power and application method thereof - Google Patents

Abstract

The invention discloses a power distribution cabinet capable of generating and storing power and a use method thereof, relates to the related field of power distribution cabinets, and aims to solve the problems that in the prior art, in the continuous consumption of power in an emergency battery pack, the power obtained by means of hydroelectric power generation, photovoltaic power generation and the like is consumed in the transmission process, and equipment use loss is also caused, so that the power transmission efficiency is low. The utility model discloses a power distribution cabinet, including the power distribution cabinet, the power distribution cabinet is internal upper end level is fixed with fixed baffle to being fixed with, the power distribution cabinet is internal is fixed with vertical baffle along the centre between fixed baffle and the second fixed bolster down to being fixed with the second fixed bolster, the power distribution cabinet is internal forms the side action chamber along one side of vertical baffle, first connecting gear is installed to the upper end in the inside outside of side action chamber, the power distribution cabinet is external to be connected with the fixed end of side along the outside of first connecting gear, the fixed end of side and first connecting gear coaxial coupling.

Description

Power distribution cabinet capable of generating and storing power and application method thereof

Technical Field

The invention relates to the related field of power distribution cabinets, in particular to a power distribution cabinet capable of generating and storing power and a use method thereof.

Background

The power distribution cabinet is electric equipment, is power distribution equipment for electric energy distribution, control and metering and connecting cables in an electric power supply system, and is characterized in that a high-voltage switch cabinet is used for general power supply offices and power substations, and then the high-voltage switch cabinets are led out to a low-voltage power distribution cabinet through a transformer step-down low-voltage side, and the low-voltage power distribution cabinet is further connected to a power distribution panel, a control box and a switch box of each power consumption. The interior is provided with a power distribution device which is integrated with protection devices such as switches, circuit breakers, fuses, buttons, indicator lights, meters, wires and the like to meet the design function requirements.

The power distribution cabinet has the characteristics of simple and convenient installation, special technical performance, fixed position, unique configuration function, no limit of places, more common application, stable and reliable operation, high space utilization rate, small occupied area and environmental protection effect. The electric energy can be reasonably distributed, the opening and closing operation of the circuit is convenient, the safety protection level is high, and the conduction state of the circuit can be intuitively displayed.

The outdoor power distribution cabinet is basically the same as the indoor power distribution cabinet, but the outdoor environment is complex, the occurrence of the outdoor power distribution cabinet occurs when the outdoor power distribution cabinet is windy and rainy, the condition that the power is cut off due to the fact that the line is damaged easily occurs in strong convection weather is solved, and the emergency battery pack is arranged in the outdoor power distribution cabinet and can supply power in an emergency mode under special conditions to carry out alarm and fault reporting functions. However, in the continuous consumption of the electric power in the emergency battery pack, the electric power obtained by the modes of hydroelectric power generation, photovoltaic power generation and the like has equipment use loss besides the loss in the transmission process, so that the electric power transmission efficiency is low; and the outdoor power distribution cabinet can utilize the environmental advantage in the open air, independently generates electricity and stores power, even if this part generates electricity and has low efficiency, but this part electric power is enough emergent to use, reduces the electric power loss in the transmission engineering process.

Disclosure of Invention

The invention aims to provide a power distribution cabinet capable of generating and storing power and a use method thereof, which are used for solving the problems that in the continuous consumption of power in an emergency battery set, the power obtained by means of hydroelectric power generation, photovoltaic power generation and the like has equipment use loss besides loss in the transmission process, so that the power transmission efficiency is low, and the power distribution cabinet utilizes the outdoor environmental advantage to carry out emergency use on autonomous power generation and storage and reduce the power loss in the transmission engineering process.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a but electric power switch board of electricity generation electric power storage, includes the switch board cabinet body, the inside upper end level of switch board cabinet is to being fixed with fixed baffle, the inside lower extreme level of switch board cabinet is to being fixed with the second fixed bolster, the inside middle being fixed with vertical baffle along between fixed baffle and the second fixed bolster of switch board cabinet, the inside side action chamber that forms along one side of vertical baffle of switch board cabinet, the first connecting gear is installed to the inside upper end outside of side action chamber, the outside of switch board cabinet is connected with the side fixed end along the outside of first connecting gear, side fixed end and first connecting gear coaxial coupling, side fixed end outside is fixed with the electricity generation rotating vane, the inside first gear of being installed along the lower extreme of first connecting gear of side action chamber, first gear and first connecting gear meshing connection, the inside side action chamber is followed the inboard of first gear and is connected with the second connecting gear, second connecting gear and first gear coaxial coupling, side action chamber is installed along the lower extreme of second connecting gear and is connected with the inside of third gear, the inside third gear is connected with the inside of third gear, the inside of third gear is connected with the inside generator, the inside of third gear is connected with the inside of third connecting gear, the inside of third gear is connected with the third gear meshing of third gear, the inside side action chamber is connected with the third gear of third gear, the inside side of third gear is connected with the third gear of third gear, the upper end of the first fixed support is provided with a storage battery, and the storage battery is electrically connected with the generator.

Preferably, the power distribution cabinet is characterized in that the power equipment installation cavity is formed in the power distribution cabinet body along the other side of the vertical partition board, vertical installation frames are fixed on two sides of the power equipment installation cavity, and a transverse installation frame is arranged between the two vertical installation frames.

Preferably, the upper end along last fixed baffle front end of the internal portion of switch board cabinet is fixed with the front shroud, the internal portion of switch board forms the collection wind chamber along the upper end of last fixed baffle, the equal distance of switch board cabinet body up end has run through and has seted up first rectangle slotted hole, the internal portion upper end of switch board cabinet is along adjacent two be fixed with splint between the first rectangle slotted hole, the internal portion of switch board cabinet is provided with the collection wind unit, the collection wind unit includes the upper fixed plate, the both sides of upper fixed plate lower extreme are fixed with the side seal board, and the side seal board is located the external side of switch board, the front and back end of upper fixed plate lower extreme is fixed with the triangle rubber strip, the centre of upper fixed plate lower extreme is fixed with the interception piece, the interception piece includes connecting plate body and fixed riser, and fixed riser equidistance sets up in the lower extreme of connecting plate body, adjacent two form the rectangle and lack the groove between the fixed riser, fixed riser lower extreme part passes the inside that first slotted hole extends to the switch board body, fixed riser and the fixed riser is outside, and the rotation axis of rotation of two outside the switch board is fixed with the axis of rotation, and the axis of rotation is connected with the axis of rotation of the switch board through the axis of rotation.

Preferably, the first blast pipe is installed along one side of collection wind chamber to switch board cabinet body one side, and first blast pipe and collection wind intracavity portion intercommunication, the filter box is installed to the centre of switch board cabinet body one side, and the other end of first blast pipe extends to the input of filter box and communicates with the filter box is inside, the second blast pipe is installed to the output of filter box, and the second blast pipe communicates with the filter box is inside, install first check valve on the second blast pipe, the exhaust pipe is installed to the inside lower extreme of switch board cabinet, and the other end of second blast pipe passes switch board cabinet side wall and the inside intercommunication of exhaust pipe, the exhaust head is installed to the equidistance on the second blast pipe.

Preferably, the overflow pipe is installed to the inside upper end of power equipment installation cavity, and the one end of overflow pipe extends to the power distribution cabinet external portion, the overflow pipe is located and installs the second check valve on the power distribution cabinet internal portion, the inboard equidistance intercommunication along the second check valve on the overflow pipe is fixed with the gas collecting channel.

Preferably, the driven gear is installed along the upper end of first connecting gear to the side action intracavity portion, goes up driven gear and first connecting gear meshing, go up driven gear one side coaxial coupling and be connected with the worm, the inside uppermost of side action intracavity portion is fixed with the fixing base, be connected with the rotation worm wheel through the bearing rotation in the fixing base, rotate worm wheel and connecting worm meshing, fixing base front end and rotation worm wheel coaxial coupling have preceding rolling disc, preceding rolling disc outside an organic whole is connected with fan-shaped fixed tooth, the front end of fixing base is provided with outer slip frame, and outer slip frame is located preceding rolling disc outside, the inside upper and lower end an organic whole of outer slip frame is connected with fixed tooth, fixed tooth and the fan-shaped fixed tooth meshing on the preceding rolling disc of outer slip frame, the outside is fixed with flexible gag lever post, the outside slip frame inboard is fixed with the horizontal sliding rod, the other end of horizontal sliding rod passes vertical baffle and extends to the inside of power equipment installation chamber and be fixed plate body, and horizontal sliding rod cup joints the lower extreme of fixed plate body in the outside the gas overflow pipe.

Preferably, the filter box is provided with the side pulling board in the outside, the side pulling inboard is provided with the filter screen from last to the equidistance down, the both sides of filter screen are fixed with fixed frame, one side fixed frame is fixed with the side pulling board, the opposite side fixed frame is spacing slip in the filter box.

Preferably, the side action cavity is coaxially connected with the second connecting gear, the heat dissipation fan faces the vertical partition plate, and through holes are formed in the vertical partition plate in a left-right penetrating mode.

A method of use comprising the steps of:

step one: the upper fixing plate on the air flow blowing wind collecting unit drives the wind collecting unit to rotate in the other direction by taking the rotating shaft as the axis, one triangular rubber strip rotates to the upper end position of one end of the power distribution cabinet body under the action of wind force, and the side sealing plates seal the two side positions of the power distribution cabinet body, so that a rectangular notch on the wind collecting unit forms a wind pocket, and the air flow directly enters the first rectangular slotted hole or enters the first rectangular slotted hole after circulating in the rectangular notch, and the entering air flow flows into the wind collecting cavity;

step two: the introduced air flow enters the filter box body through the first air supply pipe, the filter box body dries and filters the introduced air flow, the air flow after post treatment enters the exhaust pipe through the second air supply pipe and is exhausted through the exhaust head, and the air flow after treatment flows into the electric equipment installation cavity and the side action cavity;

step three: the air flow drives the power generation rotating blade to rotate at the same time, so as to drive the first connecting gear to rotate, and the third speed changing gear is driven to rotate by the meshing connection relation of the first connecting gear and the first speed changing gear, the coaxial connection relation of the first speed changing gear and the second connecting gear, the meshing connection relation of the second connecting gear and the second speed changing gear, the coaxial connection relation of the second speed changing gear and the third connecting gear and the meshing connection relation of the third connecting gear and the third speed changing gear, and the generator converts mechanical energy into electric energy and stores the electric energy in the storage battery through a connecting circuit;

step four: under the rotation of the second connecting gear, the radiating fan coaxially connected with the second connecting gear synchronously rotates, and the externally introduced air flow is introduced into the electric equipment mounting cavity through the through hole;

step five: the first connecting gear drives the connecting worm to synchronously rotate under the action of rotation through the meshing connection action of the first connecting gear and the upper driven gear, the rotating worm wheel is driven to synchronously rotate through the meshing connection action of the connecting worm and the rotating worm wheel, the front rotating disk is driven to rotate through the meshing connection action of the rotating worm wheel and the front rotating disk, the outer sliding frame is driven to move through the meshing connection action of the fan-shaped fixed teeth on the front rotating disk and the fixed teeth on the outer sliding frame, and the gas collecting hopper is driven to move left and right through the connection action of the outer sliding frame, the horizontal sliding rod, the fixed plate body and the gas overflow pipe;

step six: the introduced air flow is mixed with the internal air flow and then is collected by the continuously moving gas collecting hopper after being cooled, and overflows to the outside of the power distribution cabinet body through the gas overflow pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, the air flow drives the power generation rotating blade to rotate, so as to drive the first connecting gear to rotate, and the third speed changing gear is driven to rotate by the meshing connection relation of the first connecting gear and the first speed changing gear, the coaxial connection relation of the first speed changing gear and the second connecting gear, the meshing connection relation of the second connecting gear and the second speed changing gear, the coaxial connection relation of the second speed changing gear and the third connecting gear and the meshing connection relation of the third connecting gear and the third speed changing gear, and the generator converts mechanical energy into electric energy and stores the electric energy in the storage battery through a connecting circuit. The natural wind energy is utilized to generate power, the power generation and storage effect is achieved, the electric energy in the transmission is not required to be lost, the problems that the power obtained by the modes of hydroelectric power generation, photovoltaic power generation and the like in the existing emergency battery pack is consumed continuously, equipment use loss is caused besides the loss in the transmission process, and the power transmission efficiency is low are solved, the outdoor environmental advantage is utilized, the autonomous power generation and storage is used in an emergency mode, and the power loss in the transmission engineering process is reduced.

2. According to the invention, an upper fixing plate on an air-flow blowing air-collecting unit drives the air-collecting unit to rotate, a triangular rubber strip and a side sealing plate are used for sealing other positions of a power distribution cabinet body, so that a rectangular notch on the air-collecting unit forms a wind-receiving groove, air flow directly enters a first rectangular slotted hole or enters the first rectangular slotted hole after circulating in the rectangular notch, flows into an air-collecting cavity, then enters a filtering box body through a first air supply pipe, the filtering box body dries and filters introduced air flow, the air flow after post treatment enters an exhaust pipe through a second air supply pipe and is exhausted through an exhaust head, and the air flow after treatment flows into an electric equipment installation cavity and a side action cavity; the cooling treatment to inside is realized, and no extra driving structure is used for cooling driving, but the natural wind energy is recycled, so that the device is more environment-friendly and energy-saving.

3. According to the invention, under the rotation of the second connecting gear, the radiating fan coaxially connected with the second connecting gear synchronously rotates, the externally introduced air flow is introduced into the power equipment installation cavity through the through hole, the introduced air flow is introduced into a proper position for radiating treatment in an auxiliary manner, the interior is cooled better, and each power equipment normally operates.

4. According to the invention, under the rotation action of the first connecting gear, the connecting worm is driven to synchronously rotate through the meshing connection action of the first connecting gear and the upper driven gear, the rotating worm wheel is driven to synchronously rotate through the meshing connection action of the connecting worm and the rotating worm wheel, the front rotating disk is driven to rotate through the meshing connection action of the rotating worm wheel and the front rotating disk, the outer sliding frame is driven to move through the meshing connection action of the fan-shaped fixed teeth on the front rotating disk and the fixed teeth on the outer sliding frame, the gas collecting hopper is driven to move left and right through the connection action of the outer sliding frame, the horizontal sliding rod, the fixed plate body and the gas overflow pipe, and introduced air flow is collected by the gas collecting hopper which continuously moves after being mixed and cooled with internal air flow and overflows from the outside of the power distribution cabinet body through the gas overflow pipe; through bleed air and exhaust related structure setting, realize with the air exchange of outside air current, continuously cool down the heat dissipation.

Drawings

Fig. 1 is a schematic diagram of an internal structure of a power distribution cabinet capable of generating and storing electricity;

FIG. 2 is an enlarged view of the structure of the position A of the power distribution cabinet capable of generating and storing electricity;

FIG. 3 is an enlarged view of the structure of the position B of the power distribution cabinet capable of generating and storing electricity;

FIG. 4 is an enlarged view of the structure of a C-position of a power distribution cabinet capable of generating and storing electricity;

fig. 5 is a perspective view showing the upper structure of a power distribution cabinet body of a power distribution cabinet capable of generating and storing electricity according to the present invention;

fig. 6 is a schematic diagram of a reverse perspective structure of a wind collecting unit of a power distribution cabinet capable of generating and storing electricity.

In the figure: 1. a power distribution cabinet body; 2. a fixed baffle plate is arranged on the upper part; 3. a front sealing plate; 4. a wind collecting cavity; 5. a first rectangular slot; 6. a wind collecting unit; 7. an upper fixing plate; 8. a side sealing plate; 9. a triangular rubber strip; 10. an interceptor; 11. a connecting plate body; 12. fixing the vertical plate; 13. rectangular grooves; 14. a rotating shaft; 15. a first air supply pipe; 16. a filter box; 17. a second air supply pipe; 18. a first one-way valve; 19. an exhaust pipe; 20. a wind exhaust head; 21. a side pulling plate; 22. a fixed frame; 23. a filter screen; 24. a first fixing bracket; 25. a storage battery; 26. a second fixing bracket; 27. a vertical partition; 28. a power equipment installation cavity; 29. a vertical mounting rack; 30. a transverse mounting rack; 31. a side fixing end; 32. generating power and rotating the blade; 33. a side motion chamber; 34. a first connecting gear; 35. a first speed change gear; 36. a second connecting gear; 37. a heat dissipation fan; 38. a second speed change gear; 39. a third connecting gear; 40. a third speed change gear; 41. a generator; 42. an upper driven gear; 43. a connecting worm; 44. a fixing seat; 45. rotating the worm wheel; 46. a front rotating disc; 47. sector fixed teeth; 48. an outer sliding frame; 49. a fixed tooth; 50. a telescopic limit rod; 51. a horizontal sliding rod; 52. fixing the plate body; 53. an overflow pipe; 54. a second one-way valve; 55. a gas collecting hopper; 56. and a through hole.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

Referring to fig. 1-6, an embodiment of the present invention is provided: the utility model provides a but electric power switch board of electricity generation electric power storage, including switch board cabinet body 1, the inside upper end level of switch board cabinet body 1 is to being fixed with fixed baffle 2, the inside lower extreme level of switch board cabinet body 1 is to being fixed with second fixed bolster 26, the inside vertical baffle 27 of being fixed with along the centre between fixed baffle 2 and the second fixed bolster 26 of switch board cabinet body 1, the side action chamber 33 is formed along one side of vertical baffle 27 in switch board cabinet body 1, the inside opposite side along vertical baffle 27 of switch board cabinet body 1 sets up to power equipment installation chamber 28, power equipment installation chamber 28 inside both sides are fixed with vertical mounting bracket 29, be provided with horizontal mounting bracket 30 between two vertical mounting brackets 29; the transverse mounting frame 30 is moved between the two vertical mounting frames 29, and a suitable position is fixed by bolts, and the electric power equipment is mounted at the front end of the transverse mounting frame 30. The upper end of the inner outer side of the side action cavity 33 is provided with a first connecting gear 34, the outer side of the power distribution cabinet body 1 is connected with a side fixing end head 31 along the outer side of the first connecting gear 34, the side fixing end head 31 is coaxially connected with the first connecting gear 34, the outer part of the side fixing end head 31 is fixedly provided with a power generation rotating blade 32, the inner side of the side action cavity 33 is provided with a first speed change gear 35 along the lower end of the first connecting gear 34, the first speed change gear 35 is meshed with the first connecting gear 34, the inner side of the side action cavity 33 is provided with a second connecting gear 36 along the inner side of the first speed change gear 35, the second connecting gear 36 is coaxially connected with the first speed change gear 35, the inner side of the side action cavity 33 is coaxially connected with a heat dissipation fan 37, the heat dissipation fan 37 faces the direction of the vertical partition 27, and a through hole 56 is formed in the vertical partition 27 in a left-right penetrating manner; the second speed-changing gear 38 is arranged in the side action cavity 33 along the lower end of the second connecting gear 36, the second speed-changing gear 38 is meshed with the second connecting gear 36, the third connecting gear 39 is arranged in the side action cavity 33 along the outer side of the second speed-changing gear 38, the third connecting gear 39 is coaxially connected with the second speed-changing gear 38, the third speed-changing gear 40 is arranged in the side action cavity 33 along the lower end of the third connecting gear 39, the third speed-changing gear 40 is meshed with the third connecting gear 39, the generator 41 is arranged at the lower end of the inner part of the side action cavity 33, the intermediate shaft of the third speed-changing gear 40 extends to the inside of the generator 41, the first fixed support 24 is horizontally fixed at the lower end of the inside of the power distribution cabinet body 1 along the lower end of the second fixed support 26, the storage battery 25 is arranged at the upper end of the first fixed support 24, and the storage battery 25 is electrically connected with the generator 41.

In use, the air flow drives the power generation rotating blade 32 to rotate, so as to drive the first connecting gear 34 to rotate, and the third speed changing gear 40 is driven to rotate by the meshing connection relationship of the first connecting gear 34 and the first speed changing gear 35, the coaxial connection relationship of the first speed changing gear 35 and the second speed changing gear 36, the meshing connection relationship of the second connecting gear 36 and the second speed changing gear 38, the coaxial connection relationship of the second speed changing gear 38 and the third connecting gear 39, and the meshing connection relationship of the third connecting gear 39 and the third speed changing gear 40, so that the generator 41 converts mechanical energy into electric energy to be stored in the storage battery 25 through a connecting circuit.

The device is realized based on wind power generation, and the summer wind direction and the winter wind direction of different geographic positions are different to a certain extent, but a certain rule exists, so that a proper installation direction is required to be selected according to the geographic environment of the installation position.

Further, the front sealing plate 3 is fixed at the upper end of the front end of the upper fixing partition plate 2 inside the power distribution cabinet body 1, the wind collecting cavity 4 is formed at the upper end of the upper fixing partition plate 2 inside the power distribution cabinet body 1, first rectangular slotted holes 5 are formed in an equidistant penetrating mode in the upper end face of the power distribution cabinet body 1, clamping plates are fixed between the adjacent two first rectangular slotted holes 5 at the upper end of the power distribution cabinet body 1, the wind collecting unit 6 is arranged at the upper end of the power distribution cabinet body 1, the wind collecting unit 6 comprises an upper fixing plate 7, side sealing plates 8 are fixed at two sides of the lower end of the upper fixing plate 7, the side sealing plates 8 are located at the outer side of the power distribution cabinet body 1, triangular rubber strips 9 are fixed at the front end and the rear end of the lower end of the upper fixing plate 7, when the wind collecting unit 6 is driven to rotate, the triangular rubber strips 9 are firstly contacted with the upper end angular position of the power distribution cabinet body 1, and as the wind collecting unit 6 is driven to rotate, the triangular rubber strips 9 are extruded and deformed under the action of force until the front end or the rear end of the power distribution cabinet body 1 is located, the side sealing plates 8 are located, and air flows cannot leak out; the middle of the lower end of the upper fixing plate 7 is fixedly provided with an interception member 10, the interception member 10 comprises a connecting plate body 11 and fixing vertical plates 12, the fixing vertical plates 12 are equidistantly arranged at the lower end of the connecting plate body 11, a rectangular notch 13 is formed between two adjacent fixing vertical plates 12, the lower end part of each fixing vertical plate 12 penetrates through a first rectangular slot 5 to extend to the inside of the power distribution cabinet body 1, the fixing vertical plates 12 and clamping plates are arranged in a staggered mode, the lower ends of the outer sides of the two fixing vertical plates 12 at the outermost side are fixedly provided with rotating shafts 14, and the rotating shafts 14 are rotatably connected with the side wall of the power distribution cabinet body 1 through bearings. The first blast pipe 15 is installed along one side of collection wind chamber 4 to switch board cabinet 1 one side, first blast pipe 15 and collection wind chamber 4 inside intercommunication, filter tank 16 is installed to the centre of switch board cabinet 1 one side, the other end of first blast pipe 15 extends to the input of filter tank 16 and communicates with filter tank 16 is inside, second blast pipe 17 is installed to the output of filter tank 16, second blast pipe 17 and the inside intercommunication of filter tank 16, install first check valve 18 on the second blast pipe 17, the exhaust pipe 19 is installed to the inside lower extreme of switch board cabinet 1, the other end of second blast pipe 17 passes switch board cabinet 1 lateral wall and the inside intercommunication of exhaust pipe 19, the exhaust head 20 is installed to the equidistance on the second blast pipe 17.

The filter box 16 outside is provided with side pulling plate 21, and side pulling plate 21 inboard is provided with filter screen 23 from top to bottom equidistance, and the both sides of filter screen 23 are fixed with fixed frame 22, and one side fixed frame 22 is fixed with side pulling plate 21, and the fixed frame 22 of opposite side is spacing slip in filter box 16.

One side of the power distribution cabinet body 1 is provided with a drain pipe along one side of the wind collecting cavity 4, the drain pipe is located at the lower end of the upper end connecting position of the first air supply pipe 15, when rainy weather, wind can wrap up and clamp rainwater and enter the wind collecting cavity 4, and water vapor can influence the work of power equipment, so the drain pipe is arranged, the position of the drain pipe is close to the lower position, rainwater can be led out, air is intensively conveyed, and although part of air loss exists, the loss is not quite large compared with the benefit of air introduction.

The humidity in the air entering the first air supply pipe 15 is high, each group of filter screens 23 is of a multi-layer structure, moisture absorbent is filled between each group of multi-layer filter screens 23, internal impurities and internal water vapor can be filtered out when the air passes through the filter screens 23, and the air discharged through the air discharge head 20 is dry and clean air.

Further, an air overflow pipe 53 is arranged at the upper end inside the power equipment installation cavity 28, one end of the air overflow pipe 53 extends to the outside of the power distribution cabinet body 1, a second one-way valve 54 is arranged on the part, located inside the power distribution cabinet body 1, of the air overflow pipe 53, and an air collecting hopper 55 is fixedly communicated with the air overflow pipe 53 along the inner side of the second one-way valve 54 at equal intervals. An upper driven gear 42 is arranged in the side action cavity 33 along the upper end of the first connecting gear 34, the upper driven gear 42 is meshed with the first connecting gear 34, a connecting worm 43 is coaxially connected to one side of the upper driven gear 42, a fixed seat 44 is fixed at the uppermost end in the side action cavity 33, a rotating worm wheel 45 is rotatably connected in the fixed seat 44 through a bearing, the rotating worm wheel 45 is meshed with the connecting worm 43, a front rotating disc 46 is coaxially connected to the front end of the fixed seat 44 and the rotating worm wheel 45, fan-shaped fixed teeth 47 are integrally connected to the outer portion of the front rotating disc 46, an outer sliding frame 48 is arranged at the front end of the fixed seat 44, the outer sliding frame 48 is arranged outside the front rotating disc 46, fixed teeth 49 are integrally connected to the upper end and the lower end of the inner portion of the outer sliding frame 48, the upper fixed teeth 49 are meshed with the fan-shaped fixed teeth 47 on the front rotating disc 46, the fan-shaped fixed teeth 47 on the front rotating disc 46 drive the outer sliding frame 48 to move in one direction when the fan-shaped fixed teeth 49 on the upper portion of the front rotating disc 46 are meshed with the fixed teeth 49 on the upper end of the outer sliding frame 48, and the outer sliding frame 48 drive the outer sliding frame 48 to move in the other direction, so that the outer sliding frame 48 can reciprocate.

The outside of the outer sliding frame 48 is fixed with a telescopic limiting rod 50, the inside of the outer sliding frame 48 is fixed with a horizontal sliding rod 51, the other end of the horizontal sliding rod 51 penetrates through the vertical partition plate 27 to extend into the power equipment mounting cavity 28 and is fixed with a fixed plate body 52, the horizontal sliding rod 51 is in sliding connection with the vertical partition plate 27, and the lower end of the fixed plate body 52 is sleeved outside the air overflow pipe 53.

The outer sliding frame 48 reciprocates to drive the air overflow pipe 53 to reciprocate, so that the reciprocating motion of the air collecting hopper 55 is realized. In order to ensure the connection of the structure when the air overflow pipe 53 moves, the local position can be in a metal hose or corrugated pipe mode, and the action mode that the air overflow pipe 53 is driven to move is matched.

The cold air sinks and the hot air floats upward, so that the replaced cold air sinks again based on the characteristics of the cold air under the driving action, but the heat dissipation fan 37 disturbs the internal air to enable the air flow to move, so that the internal original hot air is mixed with the entering cold air and then floats upward. The air collection hopper 55 can capture the mixed air inside to the greatest extent under the left-right movement so as to discharge the mixed air.

The inherent structure in the power distribution cabinet and the specific types of the installed power equipment are configured according to the actual installation situation, and the use mode of the power distribution cabinet is the same as that of a conventional power distribution cabinet in the market; and are therefore not shown in detail in the figures.

A method of use comprising the steps of:

step one: the upper fixing plate 7 on the air flow blowing wind collecting unit 6 drives the wind collecting unit 6 to rotate in the other direction by taking the rotating shaft 14 as the axis, one triangular rubber strip 9 rotates to the upper end position of one end of the power distribution cabinet body 1 under the action of wind force, the side sealing plates 8 seal the two sides of the power distribution cabinet body 1, the rectangular notch 13 on the wind collecting unit 6 forms a wind pocket, the air flow directly enters the first rectangular slot 5 or enters the first rectangular slot 5 after the internal circulation of the rectangular notch 13, and the entering air flow flows into the wind collecting cavity 4;

step two: the introduced air flow enters the filter box body 16 through the first air supply pipe 15, the filter box body 16 dries and filters the introduced air flow, the air flow after post treatment enters the exhaust pipe 19 through the second air supply pipe 17 and is exhausted through the exhaust head 20, and the air flow after treatment flows into the electric equipment installation cavity 28 and the side action cavity 33;

step three: the air flow drives the power generation rotating blade 32 to rotate at the same time, so as to drive the first connecting gear 34 to rotate, and the third speed changing gear 40 is driven to rotate by the meshing connection relation of the first connecting gear 34 and the first speed changing gear 35, the coaxial connection relation of the first speed changing gear 35 and the second speed changing gear 36, the meshing connection relation of the second connecting gear 36 and the second speed changing gear 38, the coaxial connection relation of the second speed changing gear 38 and the third connecting gear 39 and the meshing connection relation of the third connecting gear 39 and the third speed changing gear 40, and the generator 41 converts mechanical energy into electric energy to be stored in the storage battery 25 through a connecting circuit;

step four: under the rotation of the second connecting gear 36, the heat dissipation fan 37 coaxially connected with the second connecting gear 36 rotates synchronously, and the externally introduced air flow is introduced into the power equipment mounting cavity 28 through the through hole 56;

step five: under the rotation action of the first connecting gear 34, the connecting worm 43 is driven to synchronously rotate through the meshing connection action of the first connecting gear 34 and the upper driven gear 42, the rotating worm wheel 45 is driven to synchronously rotate through the meshing connection action of the connecting worm 43 and the rotating worm wheel 45, the front rotating disc 46 is driven to rotate through the meshing connection action of the rotating worm wheel 45 and the front rotating disc 46, the outer sliding frame 48 is driven to move through the meshing connection action of the fan-shaped fixed teeth 47 on the front rotating disc 46 and the fixed teeth 49 on the outer sliding frame 48, and the gas collecting hopper 55 is driven to move left and right through the connection action of the outer sliding frame 48, the horizontal sliding rod 51, the fixed plate 52 and the gas overflow pipe 53;

step six: the introduced air flow is mixed with the internal air flow and cooled, then is collected by the continuously moving air collecting hopper 55, and overflows to the outside of the power distribution cabinet body 1 through the air overflow pipe 53.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a but electric power switch board of electricity generation electric power storage, includes switch board cabinet body (1), its characterized in that: the utility model discloses a power distribution cabinet, including power distribution cabinet body (1), first connecting gear (34) are installed to the inside upper end level of power distribution cabinet body (1), second fixed bolster (26) are fixed with to power distribution cabinet body (1) inside lower extreme level, power distribution cabinet body (1) is inside along being fixed with vertical baffle (27) along the centre between upper fixed bolster (2) and second fixed bolster (26), power distribution cabinet body (1) is inside along one side of vertical baffle (27) forms side action chamber (33), first connecting gear (34) are installed to the inside upper end outside of side action chamber (33), power distribution cabinet body (1) outside is connected with side fixed end (31) along the outside of first connecting gear (34), side fixed end (31) and first connecting gear (34) coaxial coupling, side fixed end (31) outside is fixed with electricity generation rotor blade (32), first speed change gear (35) are installed along the lower extreme of first connecting gear (34) inside side action chamber (33), first speed change gear (35) and first connecting gear (35) are connected with first speed change gear (35) along the inside first connecting gear (35) coaxial coupling, the utility model discloses a power distribution cabinet, including side action chamber (33), battery (25) and generator (41), side action chamber (33) are inside install second speed gear (38) along the lower extreme of second connecting gear (36), second speed gear (38) and second connecting gear (36) meshing connection, third connecting gear (39) are installed along the outside of second speed gear (38) in side action chamber (33) inside, third connecting gear (39) and second speed gear (38) coaxial coupling, third speed gear (40) are installed along the lower extreme of third connecting gear (39) in side action chamber (33) inside, third speed gear (40) and third connecting gear (39) meshing connection, generator (41) are installed to side action chamber (33) inside lower extreme, the jackshaft of third speed gear (40) extends to the inside of generator (41), the lower extreme is fixed with first fixed bolster (24) along the lower extreme horizontal direction of second fixed bolster (26) in the inside of switch board cabinet body (1), battery (25) are placed to the upper end of first fixed bolster (24), battery (25) and generator (41) electric connection.

2. The power distribution cabinet capable of generating and storing electricity according to claim 1, wherein: the power distribution cabinet is characterized in that the other side of the vertical partition plate (27) along the inside of the power distribution cabinet body (1) is provided with a power equipment installation cavity (28), vertical installation frames (29) are fixed on two sides of the inside of the power equipment installation cavity (28), and a transverse installation frame (30) is arranged between the two vertical installation frames (29).

3. The power distribution cabinet capable of generating and storing electricity according to claim 2, wherein: the utility model discloses a power distribution cabinet, including power distribution cabinet body (1), power distribution cabinet body (1) and power distribution cabinet body (12) are fixed with front end along the upper end of last fixed baffle (2) front end, power distribution cabinet body (1) is inside to form wind collecting cavity (4) along the upper end of last fixed baffle (2), first rectangular slotted hole (5) have been seted up in the equidistance of power distribution cabinet body (1) up end, power distribution cabinet body (1) is inside to be fixed with splint along adjacent two between first rectangular slotted hole (5), power distribution cabinet body (1) upper end is provided with wind collecting unit (6), wind collecting unit (6) include upper fixed plate (7), the both sides of upper fixed plate (7) lower extreme are fixed with side shrouding (8), and side shrouding (8) are located the power distribution cabinet body (1) outside, the front and back end of upper fixed plate (7) lower extreme is fixed with triangular rubber strip (9), the centre of upper fixed with interception piece (10) of upper fixed plate (7) lower extreme, interception piece (10) include connecting plate (11) and fixed plate (12) are fixed with splint between first rectangular slotted hole (5), the fixed plate (12) are fixed with extension between two fixed plate (12) and vertical plate (12) vertical extension fixed plate (13) are fixed to the fixed plate (12) vertical extension between two vertical plate (13), the fixed vertical plates (12) and the clamping plates are arranged in a staggered mode, the lower ends of the outer sides of the two outermost fixed vertical plates (12) are fixed with rotating shafts (14), and the rotating shafts (14) are rotatably connected with the side wall of the power distribution cabinet body (1) through bearings.

4. A power distribution cabinet capable of generating electricity and storing electricity according to claim 3, wherein: a first blast pipe (15) is arranged at one side of the power distribution cabinet body (1) along one side of the wind collecting cavity (4), the first blast pipe (15) is communicated with the inside of the wind collecting cavity (4), a filter box body (16) is arranged in the middle of one side of the power distribution cabinet body (1), the other end of the first blast pipe (15) extends to the input end of the filter box body (16) and is communicated with the inside of the filter box body (16), a second blast pipe (17) is arranged at the output end of the filter box body (16), the second blast pipe (17) is communicated with the inside of the filter box body (16), a first one-way valve (18) is arranged on the second blast pipe (17), an exhaust pipe (19) is arranged at the bottommost end of the inside of the power distribution cabinet body (1), the other end of the second blast pipe (17) penetrates through the side wall of the power distribution cabinet body (1) and is communicated with the inside of the exhaust pipe (19), and an exhaust head (20) is arranged on the second blast pipe (17) at equal intervals.

5. The power distribution cabinet capable of generating and storing electricity according to claim 4, wherein: the utility model discloses a power equipment installation cavity (28) is inside, and overflow pipe (53) are installed to the upper end, and the one end of overflow pipe (53) extends to the switch board cabinet body (1) outside, overflow pipe (53) are located and install second check valve (54) on the inside part of switch board cabinet body (1), on overflow pipe (53) follow the inboard equidistance intercommunication of second check valve (54) and be fixed with gas-collecting vessel (55).

6. The power distribution cabinet capable of generating and storing electricity according to claim 5, wherein: an upper driven gear (42) is arranged at the upper end of a first connecting gear (34) inside a side action cavity (33), the upper driven gear (42) is meshed with the first connecting gear (34), a connecting worm (43) is coaxially connected to one side of the upper driven gear (42), a fixed seat (44) is fixedly arranged at the uppermost end inside the side action cavity (33), a rotating worm wheel (45) is rotatably connected in the fixed seat (44) through a bearing, the rotating worm wheel (45) is meshed with the connecting worm (43), a front rotating disc (46) is coaxially connected with the front end of the fixed seat (44) and the rotating worm wheel (45), a fan-shaped fixed tooth (47) is integrally connected to the outer part of the front rotating disc (46), an outer sliding frame (48) is arranged at the outer part of the front rotating disc (46), a fixed tooth (49) is integrally connected to the upper end and the lower end inside the outer sliding frame (48), the fixed tooth (49) is meshed with the fan-shaped fixed tooth (47) on the front rotating disc (46), an outer sliding frame (48) is provided with a telescopic sliding frame (50), the other end of the horizontal sliding rod (51) penetrates through the vertical partition plate (27) to extend into the power equipment installation cavity (28) and is fixedly provided with a fixed plate body (52), the horizontal sliding rod (51) is connected with the vertical partition plate (27) in a sliding mode, and the lower end of the fixed plate body (52) is sleeved outside the air overflow pipe (53).

7. The power distribution cabinet capable of generating and storing electricity according to claim 4, wherein: the filter box is characterized in that a side pulling plate (21) is arranged on the outer side of the filter box body (16), a filter screen (23) is arranged on the inner side of the side pulling plate (21) from top to bottom at equal intervals, fixing frames (22) are fixed on two sides of the filter screen (23), the fixing frames (22) are fixed with the side pulling plate (21) on one side, and the fixing frames (22) on the other side are limited and slide in the filter box body (16).

8. The power distribution cabinet capable of generating and storing electricity according to claim 6, wherein: and a radiating fan (37) is coaxially connected with the second connecting gear (36) in the side action cavity (33), the radiating fan (37) faces the direction of the vertical partition plate (27), and through holes (56) are formed in the vertical partition plate (27) in a left-right penetrating mode.

9. A method of use, based on the implementation of the power distribution cabinet capable of generating and storing electricity as claimed in claim 8, characterized by comprising the steps of:

step one: an upper fixing plate (7) on the air flow blowing wind collecting unit (6) drives the wind collecting unit (6) to rotate in the other direction by taking a rotating shaft (14) as an axis, one triangular rubber strip (9) rotates to the upper end position of one end of the power distribution cabinet body (1) under the action of wind force, side sealing plates (8) seal the two sides of the power distribution cabinet body (1), rectangular notch grooves (13) on the wind collecting unit (6) form a wind pocket, air flow directly enters the first rectangular notch grooves (5) or enters the first rectangular notch grooves (5) after the internal circulation of the rectangular notch grooves (13), and the entering air flow flows into the wind collecting cavity (4);

step two: the introduced air flow enters a filter box body (16) through a first air supply pipe (15), the filter box body (16) dries and filters the introduced air flow, the air flow after post treatment enters an exhaust pipe (19) through a second air supply pipe (17) and is exhausted through an exhaust head (20), and the treated air flow flows into an electric equipment installation cavity (28) and a side action cavity (33);

step three: the air flow drives the power generation rotating blade (32) to rotate at the same time, so as to drive the first connecting gear (34) to rotate, and the third connecting gear (40) is driven to rotate through the meshing connection relation of the first connecting gear (34) and the first speed changing gear (35), the coaxial connection relation of the first speed changing gear (35) and the second connecting gear (36), the meshing connection relation of the second connecting gear (36) and the second speed changing gear (38), the coaxial connection relation of the second speed changing gear (38) and the third connecting gear (39) and the meshing connection relation of the third connecting gear (39) and the third speed changing gear (40), and the generator (41) converts mechanical energy into electric energy to be stored in the storage battery (25) through a connecting line;

step four: under the rotation of the second connecting gear (36), a heat dissipation fan (37) coaxially connected with the second connecting gear (36) synchronously rotates, and externally introduced air flow is introduced into the power equipment mounting cavity (28) through the through hole (56);

step five: the first connecting gear (34) drives the connecting worm (43) to synchronously rotate under the rotation action of the first connecting gear (34) and the upper driven gear (42), the rotating worm wheel (45) is driven to synchronously rotate through the engagement and connection action of the connecting worm (43) and the rotating worm wheel (45), the front rotating disc (46) is driven to rotate through the engagement and connection action of the rotating worm wheel (45) and the front rotating disc (46), the outer sliding frame (48) is driven to move through the engagement and connection action of the fan-shaped fixed teeth (47) on the front rotating disc (46) and the fixed teeth (49) on the outer sliding frame (48), and the gas collecting hopper (55) is driven to move left and right through the connection action of the outer sliding frame (48), the horizontal sliding rod (51), the fixed plate body (52) and the gas overflow pipe (53);

step six: the introduced air flow is mixed with the internal air flow and then is collected by a continuously moving gas collecting hopper (55), and overflows out of the power distribution cabinet body (1) through a gas overflow pipe (53).