CN112954933B

CN112954933B - Energy router of distributed power station

Info

Publication number: CN112954933B
Application number: CN202110221334.1A
Authority: CN
Inventors: 李稳良
Original assignee: Feilai Electric Shanghai Co ltd
Current assignee: Feilai Electric Shanghai Co ltd
Priority date: 2021-02-27
Filing date: 2021-02-27
Publication date: 2022-07-29
Anticipated expiration: 2041-02-27
Also published as: CN112954933A

Abstract

The invention discloses an energy router of a distributed power station, relates to the technical field of energy routers, and aims to solve the problems that the existing energy router is easy to damage in severe weather environment, the service life is shortened and the maintenance cost is increased due to weak protection capability. The utility model discloses a ventilation device of aircraft bonnet, including aircraft bonnet, rack, splint, connecting rod, spring and connecting plate, the internally mounted of aircraft bonnet has the rack, the rack includes curb plate, sliding sleeve, positioning seat, accepts the board, leads to groove, rack, splint, connecting rod, spring and connecting plate, accept the top of board and install energy router main part, and energy router main part is located between two splint, the slide bar is all installed to the both sides of rack upper end, and the slide bar runs through the sliding sleeve, the heat dissipation box is installed at the top of aircraft bonnet, the drain bar is installed at the top of heat dissipation box, the internally mounted of heat dissipation box has radiator fan, actuating mechanism is installed to the below of rack, dehumidification box is installed to actuating mechanism's below, ventilative board is installed to the rear end of heat dissipation box.

Description

Energy router of distributed power station

Technical Field

The invention relates to the technical field of energy routers, in particular to an energy router of a distributed power station.

Background

The distributed power station adopts a distributed power generation technology, which is a technology and a system for generating power and storing energy by equipment connected with a power grid. The energy router can realize input, output, conversion and storage of different energy carriers, realize interconnection complementation of different energy forms and organic communication of production and consumption links, realize fusion of energy streams with different characteristics and support a wide-area energy network to realize interconnection; the energy router can be used for energy production of large-scale hydraulic power plants, wind power plants and photovoltaic power stations, can also be used for energy production of gardens, buildings and users, and plays an important role in distributed power stations along with the continuous development of the society.

However, the existing energy router is weak in protection capability, so that the existing energy router is easy to damage in a severe weather environment, the service life is shortened, and the maintenance cost is increased, so that the existing requirements are not met, and the energy router of the distributed power station is provided.

Disclosure of Invention

The invention aims to provide an energy router of a distributed power station, and aims to solve the problems that the energy router provided in the background technology is weak in protection capability, so that the energy router is easy to damage in severe weather environment, the service life is shortened, and the maintenance cost is increased.

In order to achieve the purpose, the invention provides the following technical scheme: an energy router of a distributed power station comprises a hood, wherein a placing rack is installed inside the hood, the placing rack comprises side plates, a sliding sleeve, a positioning seat, a bearing plate, a through groove, a rack, clamping plates, a connecting rod, a spring and a connecting plate, an energy router main body is installed above the bearing plate and is positioned between the two clamping plates, the two side plates are symmetrically arranged, the sliding sleeve is arranged at the upper end of the side plates, one ends of the side plates, far away from the sliding sleeve, are fixedly connected with the positioning seat, the bearing plate is arranged between the two side plates, the sliding sleeve, the positioning seat and the bearing plate are welded with the side plates, the rack is arranged at the upper end of the inner side of the positioning seat and is welded with the positioning seat, the clamping plates are arranged at two sides above the bearing plate, the connecting rod is arranged at one ends of the clamping plates, and one ends of the connecting rod, far away from the clamping plates, penetrate through the spring and the side plates, and with connecting plate fixed connection, the spring is located between splint and the curb plate to with splint and curb plate fixed connection, connecting rod and curb plate gap connection, the slide bar is all installed to the both sides of rack upper end, and the slide bar runs through the sliding sleeve to with sliding sleeve gap connection, the heat dissipation box is installed at the top of aircraft bonnet, the drain bar is installed at the top of heat dissipation box, the internally mounted of heat dissipation box has radiator fan, and radiator fan installs threely, actuating mechanism is installed to the below of rack, dehumidification box is installed to actuating mechanism's below, ventilative board is installed to the rear end of heat dissipation box.

Preferably, the driving mechanism comprises a transmission rod, a supporting seat, a first gear, a second gear, a driving motor and a third gear.

Preferably, the supporting seat sets up in the outside at transfer line both ends to pass through the bearing rotation with the transfer line and be connected, two first gear is all installed to one side that the supporting seat was kept away from mutually, and the upper end of first gear extends to the inboard of positioning seat, and is connected, two with rack toothing the adjacent one side-mounting second gear of supporting seat, driving motor sets up in the below of transfer line, the third gear sets up in the outside of driving motor output, and the third gear is connected with the meshing of second gear, supporting seat and driving motor pass through screw connection with the aircraft bonnet.

Preferably, the dehumidifying case includes a case body, a placing plate, an embedded handle, a vent hole, and a desiccant.

Preferably, the placing plate is arranged in the box body, the embedded handle is arranged at the front end of the placing plate, the vent holes are formed in the top end and the two sides of the box body, the drying agent is placed above the placing plate, and the cross section of the placing plate is of an L-shaped structure.

Preferably, a protective net is arranged at the rear end of the inner side of the breathable plate, the waterproof breathable film is arranged in front of the protective net, fixing holes are formed in four corners of the breathable plate, and the fixing holes are connected with the heat dissipation box through screws.

Preferably, the aircraft bonnet includes shell, heat preservation and inner shell, the inner shell sets up in the inboard of shell to with shell fixed connection, the heat preservation sets up between shell and inner shell to be connected with shell and inner shell cementing, the guard gate is installed in the place ahead of aircraft bonnet, and the guard gate passes through hinge connection with the aircraft bonnet, install the electronic lock on the guard gate.

Preferably, the drainage plate is provided with an arc-shaped structure, and two ends of the drainage plate are provided with semi-cylindrical structures.

Preferably, the bottom of heat dissipation box is provided with the radiating groove, and the radiating groove is provided with threely, the radiating groove sets up to annular structure, the inside of accepting the board is provided with logical groove, and leads to the groove and be provided with a plurality of, it sets up to hexagonal structure to lead to the groove.

Preferably, the slide bar passes through bolted connection with the aircraft bonnet, heat dissipation box and aircraft bonnet welded connection, drain bar and heat dissipation box welded connection.

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

1. according to the invention, the hood consists of the outer shell, the heat insulation layer and the inner shell, the heat insulation effect of the hood can be effectively improved through the arrangement of the heat insulation layer, the influence of external temperature on the temperature in the hood can be avoided, and the energy router main body is further protected from being influenced; the clamping mechanism of the placement frame is formed by the side plates, the clamping plates, the connecting rods, the springs and the connecting plates, the energy router body can be clamped between the two clamping plates by utilizing the capability of generating reaction force when the springs are pressed, the clamping mode is simple, the disassembly is easy, meanwhile, certain buffering and pressure reducing capability is realized, and the protection effect on the energy router body can be improved; the heat dissipation box is arranged at the top of the hood, and the heat in the hood can be discharged by airflow generated by the high-speed rotation of the heat dissipation fan in the heat dissipation box, so that the quick heat dissipation is realized; the arc-shaped drainage plate is arranged at the top of the heat dissipation box, so that the sun-shading and waterproof effects are good; the dehumidification box is arranged below the inner part of the hood, and a proper amount of drying agent is placed in the dehumidification box, so that a good dehumidification effect can be achieved. Therefore, the protection in multiple aspects is carried out, the protection capability of the energy router is effectively improved, the energy router is not easy to damage under severe weather environments, the service life of the energy router can be prolonged, and the maintenance cost is reduced.

2. According to the invention, the rack is arranged in the positioning seat at the lower end of the placing frame and is meshed and connected with the first gear of the driving mechanism, when the driving motor of the driving mechanism is started, the first gear can rotate, transmission can be realized due to the meshing effect of the first gear and the rack, the rack can make linear motion, and when the energy router main body needs to be overhauled, the placing frame can be moved out of the hood, so that the obstruction of the hood is reduced, and the overhauling is facilitated.

3. According to the invention, the ventilating plate is arranged at the rear end of the heat dissipation box, the protective net and the waterproof breathable film are arranged on the ventilating plate, and the waterproof breathable film has good air permeability and good waterproof effect, so that the heat can be conveniently discharged to the outside of the heat dissipation box by the heat dissipation fan, and the protective net is made of a metal material, so that the mechanical strength is good, the waterproof breathable film can be protected, and the service life of the waterproof breathable film is prolonged.

Drawings

FIG. 1 is a schematic view of the overall internal structure of the present invention;

FIG. 2 is a connection diagram of the rack and the driving mechanism of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is an exploded view of the moisture removal cartridge of the present invention;

FIG. 5 is a schematic structural view of the gas permeation plate of the present invention;

Fig. 6 is an overall front view of the present invention.

In the figure: 1. a hood; 2. placing a rack; 21. a side plate; 22. a sliding sleeve; 23. positioning seats; 24. a bearing plate; 241. a through groove; 25. a rack; 26. a splint; 27. a connecting rod; 28. a spring; 29. a connecting plate; 3. a slide bar; 4. a heat dissipation box; 41. a heat sink; 5. a drain plate; 6. a heat radiation fan; 7. a drive mechanism; 71. a transmission rod; 72. a supporting seat; 73. a first gear; 74. a second gear; 75. a drive motor; 76. a third gear; 8. a dehumidification box; 81. a case body; 82. placing the plate; 83. an embedded handle; 84. a vent hole; 85. a desiccant; 9. an energy router body; 10. a gas permeable plate; 101. a protective net; 102. a waterproof breathable film; 103. a fixing hole; 11. a housing; 12. a heat-insulating layer; 13. an inner shell; 14. a protective door; 141. an electronic lock.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an embodiment of the present invention is shown: an energy router of a distributed power station comprises a hood 1, a placing frame 2 is installed inside the hood 1, the placing frame 2 comprises side plates 21, a sliding sleeve 22, a positioning seat 23, a bearing plate 24, a through groove 241, a rack 25, a clamping plate 26, a connecting rod 27, a spring 28 and a connecting plate 29, an energy router main body 9 is installed above the bearing plate 24, the energy router main body 9 is in the prior art and generally comprises a control module, a direct current bus, an alternating current-direct current converter, a switch array, a power port, a load port, a data acquisition module, a data receiving communication module and the like, the energy router main body 9 is located between the two clamping plates 26, the side plates 21 are provided with two numbers, the two side plates 21 are symmetrically arranged, the sliding sleeve 22 is arranged at the upper end of the side plate 21, one end of the side plate 21, far away from the sliding sleeve 22, is fixedly connected with the positioning seat 23, the bearing plate 24 is arranged between the two side plates 21, the sliding sleeve 22, the positioning seat 23 and the bearing plate 24 are connected with the side plates 21 in a welding mode, the rack 25 is arranged at the upper end of the inner side of the positioning seat 23 and is connected with the positioning seat 23 in a welding mode, the clamping plates 26 are arranged on two sides above the bearing plate 24, the connecting rod 27 is arranged at one end of the clamping plate 26, one end, far away from the clamping plate 26, of the connecting rod 27 penetrates through the spring 28 and the side plates 21 and is fixedly connected with the connecting plate 29, the spring 28 is located between the clamping plate 26 and the side plates 21 and is fixedly connected with the clamping plate 26 and the side plates 21, the connecting rod 27 is in gap connection with the side plates 21, the sliding rods 3 are arranged on two sides of the upper end of the placing frame 2, the sliding rods 3 penetrate through the sliding sleeve 22 and are in gap connection with the sliding sleeve 22, the heat dissipation box 4 is installed at the top of the hood 1, the drainage plate 5 is installed at the top of the heat dissipation box 4, the heat dissipation fans 6 are installed, three heat dissipation fans 6 are installed, the driving mechanism 7 is installed below the placing frame 2, the dehumidification box 8 is installed below the driving mechanism 7, and the ventilation plate 10 is installed at the rear end of the heat dissipation box 4, so that the multi-aspect protection is performed, the protection capability of the energy router is effectively improved, the energy router is not easy to damage under severe weather environments, the service life of the energy router can be prolonged, and the maintenance cost is reduced.

Further, the driving mechanism 7 comprises a transmission rod 71, a support base 72, a first gear 73, a second gear 74, a driving motor 75 and a third gear 76, and is convenient to use and capable of driving the placing rack 2 to do linear motion.

Further, the supporting seats 72 are arranged outside two ends of the transmission rod 71 and are rotatably connected with the transmission rod 71 through bearings, the first gears 73 are mounted on the sides, away from the two supporting seats 72, of the two supporting seats, the upper ends of the first gears 73 extend to the inner sides of the positioning seats 23 and are meshed with the racks 25, transmission is stable and high in efficiency, the second gears 74 are mounted on the adjacent sides of the two supporting seats 72, the driving motor 75 is arranged below the transmission rod 71, the third gears 76 are arranged outside the output end of the driving motor 75, the third gears 76 are meshed with the second gears 74, transmission is stable and high in efficiency, and the supporting seats 72 and the driving motor 75 are connected with the hood 1 through screws and are fixed and reliable.

Further, the dehumidifying box 8 includes a box body 81, a placing plate 82, an embedded handle 83, a vent 84 and a drying agent 85, and has a simple structure and a good moisture absorption effect.

Further, the placing plate 82 is arranged inside the box body 81, the embedded handle 83 is arranged at the front end of the placing plate 82, the vent holes 84 are formed in the top end and the two sides of the box body 81, the drying agents 85 are placed above the placing plate 82, the cross section of the placing plate 82 is of an L-shaped structure, the structure is reasonable, the drying agents 85 can be received, the box body 81 can be sealed, and the drying agent box is simple and convenient to use and is beneficial to periodic replacement of the drying agents 85.

Further, the rear end of the inner side of the breathable plate 10 is provided with a protective net 101, the protective net 101 is made of metal materials, the mechanical strength is good, the waterproof breathable film 102 can be protected, the service life of the waterproof breathable film 102 is prolonged, the front portion of the protective net 101 is arranged in the waterproof breathable film 102, the waterproof breathable film 102 has a good waterproof effect while having good breathability, the heat dissipation fan 6 is convenient to discharge heat to the outside of the heat dissipation box 4, four corners of the breathable plate 10 are provided with fixing holes 103, the fixing holes 103 are connected with the heat dissipation box 4 through screws, and fixing is reliable.

Further, aircraft bonnet 1 includes shell 11, heat preservation 12 and inner shell 13, can effectively improve aircraft bonnet 1's heat preservation effect, can avoid ambient temperature to cause the influence to 1 inside temperature of aircraft bonnet, and then it is not influenced to protect energy router main part 9, inner shell 13 sets up in the inboard of shell 11, and with 11 fixed connection of shell, heat preservation 12 sets up between shell 11 and inner shell 13, and be connected with outer shell 11 and the bonding of inner shell 13, guard gate 14 is installed in aircraft bonnet 1's the place ahead, and guard gate 14 passes through hinge connection with aircraft bonnet 1, install electronic lock 141 on the guard gate 14, improve the security after 14 closures of guard gate.

Further, the drainage plate 5 is arranged to be of an arc-shaped structure, and the two ends of the drainage plate 5 are arranged to be of a semi-cylindrical structure, so that drainage is facilitated, and meanwhile, the drainage plate has good water stopping performance and avoids rainwater from flowing transversely.

Further, the bottom of heat dissipation box 4 is provided with radiating groove 41, and radiating groove 41 is provided with threely, and radiating groove 41 sets up to the loop configuration, has good radiating effect, and the inside of accepting board 24 is provided with logical groove 241, and leads to groove 241 and be provided with a plurality of, leads to groove 241 and sets up to the hexagon structure, and the structure is durable, and the setting of a plurality of logical grooves 241 reduces the use material of accepting board 24 on the one hand, and on the other hand is convenient for breathe freely.

Further, the sliding rod 3 is connected with the hood 1 through screws, the installation technology content is low, the heat dissipation box 4 is connected with the hood 1 in a welded mode, and the drain plate 5 is connected with the heat dissipation box 4 in a welded mode and fixed firmly.

The working principle is as follows: during the use, place energy router body 9 in accepting the board 24 top, the splint 26 block of accepting board 24 top both sides is in the outside at energy router body 9 both ends, the outside spring 28 atress of connecting rod 27 produces the compression thereupon, and spring 28 will produce reaction force simultaneously, and then provides thrust for splint 26, presss from both sides energy router body 9 tightly between two splint 26, the clamping mode is simple, and easy the dismantlement, has certain buffering decompression ability simultaneously, can improve the protective effect to energy router body 9. Heat is generated in the operation process of the energy router body 9, the heat in the hood 1 can be sent to the heat dissipation box 4 through the heat dissipation groove 41 by airflow generated by high-speed rotation of the heat dissipation fan 6, and then the heat is discharged to the outside of the heat dissipation box 4 through the ventilation plate 10, so that rapid heat dissipation is realized, and the influence of high temperature on the energy router body 9 is avoided. The drainage plate 5 with an arc-shaped structure is arranged at the top of the heat dissipation box 4, so that the solar water heater has good sun-shading and waterproof effects. The inside below installation dehumidification box 8 of aircraft bonnet 1 can reach good dehumidification effect, can take out placing board 82 from the box body 81 is inside through the embedded handle 83 of hand power, changes the drier 85 on placing board 82. When the energy router main body 9 needs to be overhauled, the protective door 14 is opened, the driving motor 75 is started, the output end of the driving motor drives the third gear 76 to rotate, the third gear 76 drives the second gear 74 to rotate, the transmission rod 71 rotates along with the second gear 74, the first gear 73 rotates along with the transmission rod 71, the first gear 73 drives the rack 25 of the placing frame 2 to do linear motion, the sliding sleeve 22 slides outside the sliding rod 3, the placing frame 2 and the energy router main body 9 are moved to the outside of the hood 1, accordingly, the obstruction of the hood 1 is reduced, and the energy router main body 9 is more beneficial to overhauling. The ventilation plate 10 is installed at the rear end of the heat dissipation box 4, the waterproof ventilation film 102 arranged on the ventilation plate 10 has a good waterproof effect while having good ventilation performance, so that the heat dissipation fan 6 can discharge heat to the outside of the heat dissipation box 4, the protection net 101 is made of metal materials, the mechanical strength is good, the waterproof ventilation film 102 can be protected, and the service life of the waterproof ventilation film 102 is prolonged. Through aircraft bonnet 1 by outer shell 11, heat preservation 12 and inner shell 13 constitution, the heat preservation effect of aircraft bonnet 1 can effectively be improved in setting up of heat preservation 12, can avoid ambient temperature to cause the influence to the inside temperature of aircraft bonnet 1, and then the protection energy router main part 9 is not influenced.

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 attributes 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

1. The utility model provides a distributed power station's energy router, includes aircraft bonnet (1), its characterized in that: the energy router is characterized in that a placing frame (2) is mounted inside the hood (1), the placing frame (2) comprises side plates (21), a sliding sleeve (22), a positioning seat (23), an accepting plate (24), a rack (25), clamping plates (26), a connecting rod (27), a spring (28) and a connecting plate (29), an energy router main body (9) is mounted above the accepting plate (24), the energy router main body (9) is located between the two clamping plates (26), the two side plates (21) are symmetrically arranged, the sliding sleeve (22) is arranged at the upper end of each side plate (21), one end, far away from the sliding sleeve (22), of each side plate (21) is fixedly connected with the positioning seat (23), the accepting plate (24) is arranged between the two side plates (21), and the sliding sleeve (22), the positioning seat (23) and the accepting plate (24) are welded with the side plates (21), the rack (25) is arranged at the upper end of the inner side of the positioning seat (23) and is connected with the positioning seat (23) in a welding manner, the clamping plates (26) are arranged at two sides above the bearing plate (24), the connecting rod (27) is arranged at one end of the clamping plate (26), one end, far away from the clamping plate (26), of the connecting rod (27) penetrates through the spring (28) and the side plate (21) and is fixedly connected with the connecting plate (29), the spring (28) is positioned between the clamping plate (26) and the side plate (21) and is fixedly connected with the clamping plate (26) and the side plate (21), the connecting rod (27) is in clearance connection with the side plate (21), the sliding rods (3) are arranged at two sides of the upper end of the placing frame (2), the sliding rods (3) penetrate through the sliding sleeve (22) and are in clearance connection with the sliding sleeve (22), the heat dissipation box (4) is arranged at the top of the hood (1), and the drainage plate (5) is arranged at the top of the heat dissipation box (4), the heat dissipation device is characterized in that three heat dissipation fans (6) are arranged inside the heat dissipation box (4), a driving mechanism (7) is arranged below the placing frame (2), a dehumidification box (8) is arranged below the driving mechanism (7), a ventilation plate (10) is arranged at the rear end of the heat dissipation box (4), the driving mechanism (7) comprises a transmission rod (71), a supporting seat (72), a first gear (73), a second gear (74), a driving motor (75) and a third gear (76), the supporting seat (72) is arranged outside two ends of the transmission rod (71) and is rotatably connected with the transmission rod (71) through a bearing, the first gear (73) is arranged on one side, away from the two supporting seats (72), the upper end of the first gear (73) extends to the inner side of the positioning seat (23) and is meshed with the rack (25), and a second gear (74) is arranged on one side adjacent to the two support seats (72), the driving motor (75) is arranged below the transmission rod (71), the third gear (76) is arranged outside the output end of the driving motor (75), the third gear (76) is meshed with the second gear (74), and the support seats (72) and the driving motor (75) are connected with the hood (1) through screws.

2. The energy router for a distributed power station of claim 1, wherein: the dehumidifying box (8) comprises a box body (81), a placing plate (82), an embedded handle (83), a vent hole (84) and a drying agent (85).

3. The energy router of a distributed power station of claim 2, wherein: the storage box is characterized in that the storage plate (82) is arranged in the box body (81), the embedded handle (83) is arranged at the front end of the storage plate (82), the vent holes (84) are arranged at the top end and two sides of the box body (81), the drying agent (85) is arranged above the storage plate (82), and the cross section of the storage plate (82) is of an L-shaped structure.

4. The energy router for a distributed power station of claim 1, wherein: the rear end of the inner side of the breathable plate (10) is provided with a protective net (101), the front of the protective net (101) is arranged on the waterproof breathable film (102), four corners of the breathable plate (10) are provided with fixing holes (103), and the fixing holes (103) are connected with the heat dissipation box (4) through screws.

5. The energy router for a distributed power station of claim 1, wherein: aircraft bonnet (1) includes shell (11), heat preservation (12) and inner shell (13), inner shell (13) set up in the inboard of shell (11) to with shell (11) fixed connection, heat preservation (12) set up between shell (11) and inner shell (13) to be connected with shell (11) and inner shell (13) cementing, guard gate (14) are installed in the place ahead of aircraft bonnet (1), and guard gate (14) pass through hinge connection with aircraft bonnet (1), install electronic lock (141) on guard gate (14).

6. The energy router for a distributed power station according to claim 1, wherein: the drainage plate (5) is of an arc-shaped structure, and two ends of the drainage plate (5) are of a semi-cylindrical structure.

7. The energy router for a distributed power station of claim 1, wherein: the bottom of heat dissipation box (4) is provided with radiating groove (41), and radiating groove (41) are provided with threely, radiating groove (41) set up to annular structure, the inside of accepting board (24) is provided with logical groove (241), and leads to groove (241) and be provided with a plurality of, it sets up to hexagonal structure to lead to groove (241).

8. The energy router for a distributed power station of claim 1, wherein: the sliding rod (3) is connected with the hood (1) through a screw, the heat dissipation box (4) is connected with the hood (1) in a welded mode, and the drainage plate (5) is connected with the heat dissipation box (4) in a welded mode.