CN212063361U

CN212063361U - Electric power energy router for distributed power generation

Info

Publication number: CN212063361U
Application number: CN202020990556.0U
Authority: CN
Inventors: 祁富俊
Original assignee: Suzhou Junhao Electric Power Co ltd
Current assignee: Suzhou Junhao Electric Power Co ltd
Priority date: 2020-06-03
Filing date: 2020-06-03
Publication date: 2020-12-01
Anticipated expiration: 2030-06-03

Abstract

The utility model discloses an electric power energy router for distributed generation, including the router body, the right-hand member of router body avris is provided with the power cord interface, institute the internally mounted of main reposition of redundant personnel socket has the reposition of redundant personnel plug, the other end of main reposition of redundant personnel line is by the first reposition of redundant personnel line of assisting of fixedly connected with, second assistance reposition of redundant personnel line and third assistance reposition of redundant personnel line in proper order from right to left, the equal fixedly connected with of lower extreme of first assistance reposition of redundant personnel line, second assistance reposition of redundant personnel line and third assistance reposition of redundant personnel line is assisted the socket, the equal fixedly connected with in both ends gives the fan about the router body. This an electric power energy router for distributed generation, the equipment that can connect as required increases and decreases the reposition of redundant personnel socket, and then has improved the quantity of the equipment that electric power energy router can be connected greatly, realizes the heat dissipation of electric power energy router simultaneously, prevents the burning loss that the inside high heat of electric power energy router caused, has guaranteed the life of electric power energy router.

Description

Electric power energy router for distributed power generation

Technical Field

The utility model relates to an electric power energy router technical field specifically is an electric power energy router for distributed power generation.

Background

A power energy router for distributed power generation is a highly integrated power management and distribution device, can be connected with a renewable energy power generation device, an energy storage device, a power grid and loads of various voltage grades, and performs unified distribution and coordinated optimization on various energy sources and loads to realize optimal management of power energy production and use.

However, the current electric power energy router reposition of redundant personnel quantity for distributed power generation in market is limited, and then leads to the equipment that electric power energy router connects to reduce greatly, and then has increased electric power energy router's limitation, only adopts electric power energy router's shell to dispel the heat simultaneously, and the radiating effect is extremely poor, leads to the scaling loss of electric power energy router easily, and then greatly reduced electric power energy router's life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electric power energy router for distributed power generation, it is limited to provide current electric power energy router reposition of redundant personnel quantity for distributed power generation in solving above-mentioned background art, and then lead to the equipment that electric power energy router is connected to reduce greatly, and then increased the limitation of electric power energy router, only adopt the shell of electric power energy router to dispel the heat simultaneously, the radiating effect is extremely poor, lead to the scaling loss of electric power energy router easily, and then greatly reduced the life's of electric power energy router problem.

In order to achieve the above object, the utility model provides a following technical scheme: an electric power energy router for distributed power generation comprises a router body, wherein a power line interface is arranged at the right end of the side of the router body, a connecting line is arranged at the left side, located at the power line interface, of the right end of the side of the router body, a connecting port is arranged at the left end of the side of the router body, a main shunt socket is fixedly connected between the connecting line and the connecting port of the side of the router body, a shunt plug is arranged inside the main shunt socket, one end, located outside the main shunt socket, of the shunt plug is fixedly connected with one end of a main shunt line, the other end of the main shunt line is fixedly connected with a first auxiliary shunt line, a second auxiliary shunt line and a third auxiliary shunt line from right to left, the lower ends of the first auxiliary shunt line, the second auxiliary shunt line and the third auxiliary shunt line are fixedly connected with auxiliary shunt sockets, and the left and right ends of the router body are fixedly connected with a fan, the router comprises a router body and is characterized in that heat conduction pipes are fixedly connected to the left and right ends inside the router body, a fan and the heat conduction pipes are communicated with each other through air supply pipes, air outlet pipes are fixedly connected to the upper end and the lower end of each heat conduction pipe, one ends, far away from the heat conduction pipes, of the air outlet pipes extend to the outer side of the router body, and fixing supports are fixedly connected to the lower end of the router body.

Preferably, the main shunting jacks and the shunting plugs are mutually inserted, and the main shunting jacks are distributed at equal intervals.

Preferably, the first auxiliary shunt line, the second auxiliary shunt line and the third auxiliary shunt line are connected in parallel, and the main shunt line is respectively connected in series with the first auxiliary shunt line, the second auxiliary shunt line and the third auxiliary shunt line.

Preferably, the heat conduction pipe is designed to be a snake-shaped structure, and the heat conduction pipe is a thin ceramic pipe.

Preferably, the air supply pipes are symmetrically arranged about the vertical center line of the air supply fan, the air supply fans are symmetrically arranged about the vertical center line of the router body, the air supply pipes are in an L-shaped structural design, and the air supply pipes are communicated with the heat conduction pipes.

Preferably, the number of the fixed supports is two and is symmetrically arranged about a vertical central line of the router body, and the fixed supports are designed in an inclined structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the electric power energy router for distributed power generation, the number of the devices which can be connected by the electric power energy router can be greatly increased, the limitation of the electric power energy router is reduced, and the practicability of the electric power energy router is improved;

2. this an electric power energy router for distributed generation, through giving the fan, the heat pipe, give the tuber pipe, go out mutually supporting of tuber pipe and fixing support, the accessible drives the flow of the inside air of heat pipe for the fan, and then bring out the inside of electric power energy router with the heat that the heat pipe derived through the air that flows, and then realize the heat dissipation of electric power energy router, prevent the burning loss that the inside heat of electric power energy router too high caused, the life of electric power energy router has been guaranteed.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the present invention;

fig. 4 is a schematic view of the structure of the heat conducting pipe of the present invention.

In the figure: 1. a router body; 2. a power line interface; 3. a connecting wire; 4. a connecting port; 5. a main shunt socket; 6. a shunt plug; 7. a main shunt line; 8. a first auxiliary shunt line; 9. a second auxiliary shunt line; 10. a third auxiliary shunt line; 11. an auxiliary shunt jack; 12. a fan; 13. a heat conducting pipe; 14. a wind supply pipe; 15. an air outlet pipe; 16. and fixing the support.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an electric power energy router for distributed power generation comprises a router body 1, a power line interface 2 is arranged at the right end of the side of the router body 1, a connecting line 3 is arranged at the right end of the side of the router body 1, which is positioned at the left side of the power line interface 2, a connecting port 4 is arranged at the left end of the side of the router body 1, a main shunt socket 5 is fixedly connected between the connecting line 3 and the connecting port 4 at the side of the router body 1, a shunt plug 6 is arranged inside the main shunt socket 5, one end of the shunt plug 6, which is positioned at the outer side of the main shunt socket 5, is fixedly connected with one end of a main shunt line 7, a first auxiliary shunt line 8, a second auxiliary shunt line 9 and a third auxiliary shunt line 10 are fixedly connected with the other end of the main shunt line 7 from right to left in sequence, the first auxiliary shunt line 8, the second auxiliary shunt line 9 and the lower end of the third auxiliary shunt line 10 are fixedly connected, the equal fixedly connected with in both ends gives fan 12 about router body 1, and the equal fixedly connected with in both ends 13 about router body 1 is inside, gives fan 12 and heat pipe 13 and puts through each other through giving tuber pipe 14, and the equal fixedly connected with in both ends goes out tuber pipe 15 about heat pipe 13, goes out the one end that tuber pipe 15 kept away from heat pipe 13 and extends to the outside of router body 1, the lower extreme fixedly connected with fixing support 16 of router body 1.

Furthermore, the main shunting jacks 5 and the shunting plugs 6 are mutually inserted, and the main shunting jacks 5 are distributed at equal intervals, so that the auxiliary shunting jacks 11 can be increased or decreased conveniently.

Furthermore, the first auxiliary shunt line 8, the second auxiliary shunt line 9 and the third auxiliary shunt line 10 are connected in parallel, and the main shunt line 7 is respectively connected in series with the first auxiliary shunt line 8, the second auxiliary shunt line 9 and the third auxiliary shunt line 10, so that normal use of the auxiliary shunt socket 11 is ensured.

Further, the heat conduction pipe 13 is designed to have a serpentine structure, and the heat conduction pipe 13 is made of a thin ceramic pipe, so that heat dissipation of the router body 1 is achieved.

Further, give tuber pipe 14 and be provided with two about the vertical central line symmetry of giving fan 12, and give fan 12 and be provided with two about the vertical central line symmetry of router body 1, give tuber pipe 14 and be L style of calligraphy structural design, and give tuber pipe 14 and heat pipe 13 intercommunication each other, improve the air flow rate in the heat pipe 13.

Further, two fixing supports 16 are symmetrically arranged on the vertical center line of the router body 1, and the fixing supports 16 are designed to be inclined structures, so that normal air outlet of the air outlet pipe 15 at the lower end of the heat conduction pipe 13 is ensured.

The working principle is as follows: firstly, connecting wires on a router body 1 are correspondingly connected, the number of shunting plugs 6 is selected according to the number of devices to be connected, the shunting plugs 6 are correspondingly inserted into main shunting sockets 5, and then the plugs on the devices are inserted into auxiliary shunting sockets 11 to realize shunting of the router body 1, meanwhile, a fan 12 is actuated to suck external cold air into an air supply pipe 14, cold air is introduced into the heat conduction pipe 13 through the air supply pipe 14, so that the air in the heat conduction pipe 13 flows, the heat conduction pipe 13 introduces heat in the router body 1 into the heat conduction pipe 13, the heat is discharged into an air outlet pipe 15 through the flowing air, and the heat is discharged through the air outlet pipe 15 to realize heat dissipation of the router.

It should be finally noted that the above only serves to illustrate the technical solution of the present invention, and not to limit the scope of the present invention, and that simple modifications or equivalent replacements performed by those skilled in the art to the technical solution of the present invention do not depart from the spirit and scope of the technical solution of the present invention.

Claims

1. An electric power energy router for distributed generation, comprising a router body (1), characterized in that: the right-hand member of router body (1) avris is provided with power cord interface (2), the left side that the right-hand member of router body (1) avris is located power cord interface (2) is provided with connecting wire (3), the left end of router body (1) avris is provided with connector (4), the avris of router body (1) is located fixedly connected with main reposition of redundant personnel socket (5) between connecting wire (3) and connector (4), the internally mounted of main reposition of redundant personnel socket (5) has reposition of redundant personnel plug (6), reposition of redundant personnel plug (6) are located the one end of the one end fixedly connected with main reposition of redundant personnel line (7) in the main reposition of redundant personnel socket (5) outside, the other end of main reposition of redundant personnel line (7) is right to left in proper order fixedly connected with first subsidiary reposition of redundant personnel line (8), second subsidiary reposition of redundant personnel line (9) and third subsidiary reposition of redundant personnel line (10), first subsidiary reposition of redundant personnel line (, Reposition of redundant personnel socket (11) are assisted with the equal fixedly connected with of lower extreme of third auxiliary shunt line (10) in second auxiliary shunt line (9), fan (12) are given to the equal fixedly connected with in both ends about router body (1), the equal fixedly connected with heat pipe (13) in both ends about router body (1) is inside, switch on each other through giving tuber pipe (14) for fan (12) and heat pipe (13), the equal fixedly connected with in upper and lower both ends of heat pipe (13) goes out tuber pipe (15), the one end that heat pipe (13) were kept away from in play tuber pipe (15) extends to the outside of router body (1), the lower extreme fixedly connected with fixing support (16) of router body (1).

2. An electrical energy router for distributed power generation according to claim 1, characterised in that: the main shunting jacks (5) and the shunting plugs (6) are mutually inserted, and the main shunting jacks (5) are distributed at equal intervals.

3. An electrical energy router for distributed power generation according to claim 1, characterised in that: the first auxiliary shunt line (8), the second auxiliary shunt line (9) and the third auxiliary shunt line (10) are connected in parallel, and the main shunt line (7) is connected in series with the first auxiliary shunt line (8), the second auxiliary shunt line (9) and the third auxiliary shunt line (10) respectively.

4. An electrical energy router for distributed power generation according to claim 1, characterised in that: the heat conduction pipe (13) is designed to be of a snake-shaped structure, and the heat conduction pipe (13) is a thin ceramic pipe.

5. An electrical energy router for distributed power generation according to claim 1, characterised in that: the air supply pipe (14) is symmetrically provided with two air supply pipes (12) about the vertical central line of the air supply fan, the air supply fan (12) is symmetrically provided with two air supply pipes about the vertical central line of the router body (1), the air supply pipes (14) are designed to be L-shaped structures, and the air supply pipes (14) are communicated with the heat conduction pipes (13).

6. An electrical energy router for distributed power generation according to claim 1, characterised in that: the two fixed supports (16) are symmetrically arranged on the vertical central line of the router body (1), and the fixed supports (16) are designed to be inclined structures.