CN111987511B

CN111987511B - Rechargeable mobile socket board

Info

Publication number: CN111987511B
Application number: CN202010778841.0A
Authority: CN
Inventors: 耿祥
Original assignee: Anhui Institute of Information Engineering
Current assignee: Anhui Institute of Information Engineering
Priority date: 2020-08-05
Filing date: 2020-08-05
Publication date: 2021-08-20
Anticipated expiration: 2040-08-05
Also published as: CN111987511A

Abstract

The invention provides a rechargeable mobile socket board applied to the technical field of electrical equipment, wherein a socket board shell groove (6) is arranged on the side surface of a socket board shell (2) of the rechargeable mobile socket board, a storage battery shell groove (7) is arranged on the side surface of a storage battery shell (5), the upper part of a connecting board (8) is clamped in the socket board shell groove (6) through an upper connecting block (9), the lower part of the connecting board (8) is clamped in the storage battery shell groove (7) through a lower connecting block (10), and a solar cell panel (12) is movably inserted in a solar cell panel mounting groove (11). Meeting the daily requirements of people.

Description

Rechargeable mobile socket board

Technical Field

The invention belongs to the technical field of electrical equipment, and particularly relates to a rechargeable mobile socket board.

Background

The socket board is indispensable for various electrical equipment. The socket board in the prior art is fixedly arranged on a wall body or is connected with the socket board arranged on the wall body in an inserting mode through a connecting line so as to supply power to electrical equipment. However, the socket board in the prior art, whether fixed on a wall or provided with connecting wires, is limited in scope, and cannot be used when a user needs to use the socket board at a longer distance or in an area where the socket board is not arranged.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the rechargeable mobile socket board has the advantages that the rechargeable mobile socket board is simple in structure, can be directly used for plug-in power supply of electrical equipment, can be charged by solar energy, can be moved to be used in different occasions or used in an area without a patch board, improves application range, and meets daily requirements of people.

To solve the technical problems, the invention adopts the technical scheme that:

the invention relates to a chargeable mobile socket board, which comprises a socket board body, wherein the socket board body comprises a socket board shell, a plurality of charging jacks are arranged on the socket board body, a storage battery is arranged at the lower part of the socket board body and comprises a storage battery shell, a socket board shell groove with a T-shaped cross section is arranged on the side surface of the socket board shell, a storage battery shell groove with a T-shaped cross section is arranged on the side surface of the storage battery shell, the upper part of a connecting plate is clamped in the socket board shell groove through an upper connecting block with a T-shaped cross section, the lower part of the connecting plate is clamped in the storage battery shell groove through a lower connecting block with a T-shaped cross section, a solar cell panel mounting groove is formed between the lower part of the socket board shell and the upper part of the storage battery shell, a solar cell panel is movably inserted in the solar cell panel mounting groove, and a closed plate extending towards the direction of the storage battery shell is arranged at the front part of the socket board shell, socket casing rear portion sets up spacing post I, and solar cell panel sets up spacing post II near the anterior position of socket casing.

The rechargeable mobile socket board is characterized in that the solar cell panel is communicated with the storage battery through a connecting wire I, the storage battery is communicated with the socket board body through a connecting wire II, and the solar cell panel is communicated with the socket board body through a connecting wire III.

The socket board shell is characterized in that a socket board shell groove with a T-shaped cross section is formed in one side face of the socket board shell, a socket board shell groove with a T-shaped cross section is formed in the other side face of the socket board shell, a storage battery shell groove with a T-shaped cross section is formed in one side face of the storage battery shell, and a storage battery shell groove with a T-shaped cross section is formed in the other side face of the storage battery shell.

The upper part of each connecting plate of the rechargeable mobile socket plate is clamped in a socket plate shell groove through an upper connecting block with a T-shaped section, and the lower part of each connecting plate is clamped in a storage battery shell groove through a lower connecting block with a T-shaped section.

The rechargeable mobile socket board is characterized in that an on-off switch I is arranged on a connecting wire I of the rechargeable mobile socket board, an on-off switch II is arranged on a connecting wire II, an on-off switch III is arranged on a connecting wire III, and the on-off switch I, the on-off switch II and the on-off switch III are respectively connected with a control component.

When the solar cell panel is pulled out to the outside of the solar cell panel mounting groove and the solar cell panel is in a state of converting solar energy into electric energy, the control part is set to be in a structure which can enable the connecting wire II to be in a disconnected state by controlling the disconnection of the on-off switch II.

When the solar cell panel pushes the solar cell panel mounting groove to be inside and the solar cell panel stops converting solar energy into electric energy, the control part is set to be in a structure capable of enabling the connecting line I to be in a disconnected state by controlling the disconnection of the on-off switch I.

When the solar panel pushes the inside of the solar panel mounting groove and stops converting solar energy into electric energy, the control part is set to be in a structure capable of enabling the connecting line III to be in a disconnected state by controlling the on-off switch III to be disconnected.

By adopting the technical scheme of the invention, the following beneficial effects can be obtained:

the rechargeable mobile socket board is movable and rechargeable. The storage battery is used for storing electric energy and supplying the electric energy to the socket board body. The socket board body is arranged in the socket board shell, the storage battery is arranged in the storage battery shell, and the storage battery shell is connected with the socket board shell through the connecting plate. Set up the solar cell panel mounting groove between battery housing and the socket casing for arrange solar cell panel, and solar cell panel can impel and take out the solar cell panel mounting groove, and when solar cell panel took out, solar cell panel absorbed solar energy, turned into the electric energy with solar energy, was used for charging to the battery, and solar cell panel directly supplies power to the socket simultaneously, and the battery stops the power supply, and solar cell panel charges to the battery simultaneously. And when the solar cell panel propels, the solar cell panel stops absorbing solar energy, no longer turns into the electric energy with solar energy, and solar cell panel no longer supplies power to the socket board this moment, no longer charges to the battery simultaneously, and the battery supplies power to the socket board. Therefore, the socket board can receive different electric energy sources in different states, the whole socket board is not plugged with the fixed socket board to remove electricity, but can be moved and used in a large area, and the use convenience is improved. The rechargeable mobile socket board can be directly used for plug-in power supply of electrical equipment, can be charged by solar energy, can be used in different occasions in a mobile mode or used in areas without the patch board, improves the application range and meets daily requirements of people.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

fig. 1 is a front view of a rechargeable mobile socket board according to the present invention;

fig. 2 is a side view of the rechargeable mobile socket board according to the present invention;

the reference signs are: 1. a socket board body; 2. a socket board housing; 3. a charging jack; 4. a storage battery; 5. a battery case; 6. a socket board housing recess; 7. a battery case recess; 8. a connecting plate; 9. an upper connecting block; 10. a lower connecting block; 11. a solar panel mounting groove; 12. a solar panel; 13. a closing plate; 14. a limiting column I; 15. II, limiting columns; 16. a front portion of the socket board housing; 17. a receptacle housing rear.

Detailed Description

The following detailed description of the embodiments of the present invention, such as the shapes and structures of the components, the mutual positions and connection relations among the components, the functions and operation principles of the components, will be made by referring to the accompanying drawings and the description of the embodiments:

as shown in the attached figure 1, the invention relates to a rechargeable mobile socket board, which comprises a socket board body 1, wherein the socket board body 1 comprises a socket board shell 2, a plurality of charging jacks 3 are arranged on the socket board body 1, a storage battery 4 is arranged at the lower part of the socket board body 1, the storage battery 4 comprises a storage battery shell 5, a socket board shell groove 6 with a T-shaped cross section is arranged at the side surface of the socket board shell 2, a storage battery shell groove 7 with a T-shaped cross section is arranged at the side surface of the storage battery shell 5, the upper part of a connecting board 8 is clamped in the socket board shell groove 6 through an upper connecting block 9 with a T-shaped cross section, the lower part of the connecting board 8 is clamped in the storage battery shell groove 7 through a lower connecting block 10 with a T-shaped cross section, a solar cell panel mounting groove 11 is formed between the lower part of the socket board shell 2 and the upper part of the storage battery shell 5, and a solar cell panel 12 is movably inserted in the solar cell panel mounting groove 11, the front portion of the socket board shell 2 is provided with a closed plate 13 extending towards the storage battery shell 5, the rear portion of the socket board shell 2 is provided with a limiting column I14, and the solar cell panel 12 is close to the front portion of the socket board shell 2 and is provided with a limiting column II 15. In the structure, the socket board is movable and is chargeable. The storage battery 4 is used for storing electric energy and supplying the electric energy to the socket board body 1. The socket board body 1 is arranged in the socket board shell 2, the storage battery 4 is arranged in the storage battery shell 5, and the storage battery shell 5 and the socket board shell 2 are connected through the connecting plate 8. Set up solar cell panel mounting groove 11 between battery housing 5 and socket casing 2 for arrange solar cell panel 12, and solar cell panel 12 can impel and take out solar cell panel mounting groove 11, when solar cell panel 12 takes out, solar cell panel 12 absorbs solar energy, turn into the electric energy with solar energy, be used for charging to the battery, solar cell panel directly supplies power to the socket simultaneously, and the battery stops the power supply, solar cell panel charges to the battery simultaneously. And when the solar cell panel propels, the solar cell panel stops absorbing solar energy, no longer turns into the electric energy with solar energy, and solar cell panel no longer supplies power to the socket board this moment, no longer charges to the battery simultaneously, and the battery supplies power to the socket board. Therefore, the socket board can receive different electric energy sources in different states, the whole socket board is not plugged with the fixed socket board to remove electricity, but can be moved and used in a large area, and the use convenience is improved. The rechargeable mobile socket board is simple in structure, can be directly used for plug-in power supply of electrical equipment, can be charged by solar energy, can be used in different occasions in a mobile mode or used in areas without patch boards, improves the application range and meets daily requirements of people.

The rechargeable mobile socket board is characterized in that the solar cell panel 12 is communicated with the storage battery 4 through a connecting wire I, the storage battery 4 is communicated with the socket board body 1 through a connecting wire II, and the solar cell panel 12 is communicated with the socket board body 1 through a connecting wire III. According to the structure, different connecting wires are communicated with different components and used for realizing the communication and disconnection of the different components under different conditions.

The socket board comprises a socket board shell 1, a storage battery shell 5 and a storage battery shell, wherein a socket board shell groove 6 with a T-shaped cross section is formed in one side face of the socket board shell 1, a socket board shell groove 6 with a T-shaped cross section is formed in the other side face of the socket board shell 1, a storage battery shell groove 7 with a T-shaped cross section is formed in one side face of the storage battery shell 5, and a storage battery shell groove 7 with a T-shaped cross section is formed in the other side face of the storage battery shell 5. The upper part of each connecting plate 8 of the rechargeable mobile socket board is clamped in a socket board shell groove 6 through an upper connecting block 9 with a T-shaped section, and the lower part of each connecting plate 8 is clamped in a storage battery shell groove 7 through a lower connecting block 10 with a T-shaped section. Above-mentioned structure, through two connecting plates, can realize the connection between battery case and the socket casing, and not direct contact between socket casing and the battery case, but set up solar cell panel mounting groove 11 for place solar cell panel, solar cell panel can take out and impel solar cell panel mounting groove 11. And when solar cell panel took outside, spacing I14 of post supported and leaned on spacing II 15 of post, realized spacingly, avoided solar cell panel to drop from solar cell panel mounting groove 11. And the closing plate 13 serves to close the front of the socket housing to prevent the solar cell panel from falling off from the other side of the solar cell panel mounting groove 11 when the solar cell panel is propelled.

The rechargeable mobile socket board is characterized in that an on-off switch I is arranged on a connecting wire I of the rechargeable mobile socket board, an on-off switch II is arranged on a connecting wire II, an on-off switch III is arranged on a connecting wire III, and the on-off switch I, the on-off switch II and the on-off switch III are respectively connected with a control component. With the structure, the control component can control the on-off of each on-off switch, and the communication control of each component is realized under different conditions.

When the solar cell panel 12 is drawn out to the outside of the solar cell panel mounting groove 11 and the solar cell panel 12 is in a state of converting solar energy into electric energy, the control part is set to be in a structure which can enable the connecting line II to be in a disconnected state by controlling the disconnection of the on-off switch II. At this moment, connecting wire I and connecting wire III intercommunication realize the normal power supply of these two connecting wires.

When the solar cell panel 12 pushes the interior of the solar cell panel mounting groove 11 and the solar cell panel 12 stops converting solar energy into electric energy, the control part is set to be in a structure capable of enabling the connecting line I to be in a disconnected state by controlling the disconnection of the on-off switch I. When the solar panel 12 is pushed to the inside of the solar panel mounting groove 11 and the solar panel 12 stops converting solar energy into electric energy, the control part is set to be in a structure capable of enabling the connecting line III to be in a disconnected state by controlling the on-off switch III to be disconnected. At the moment, the connecting wire II is communicated, the storage battery supplies power to the socket board body, and the socket board body is guaranteed to be supplied with electric energy no matter whether the solar cell panel is in a state of converting solar energy into electric energy.

The present invention has been described in connection with the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments disclosed, but is intended to cover various modifications, changes and equivalents of the embodiments of the invention, and its application to other applications without departing from the spirit and scope of the invention.

Claims

1. A rechargeable mobile socket board is characterized in that: comprises a socket board body (1), wherein the socket board body (1) comprises a socket board shell (2), a plurality of charging jacks (3) are arranged on the socket board body (1), a storage battery (4) is arranged at the lower part of the socket board body (1), the storage battery (4) comprises a storage battery shell (5), a socket board shell groove (6) with a T-shaped cross section is arranged on the side surface of the socket board shell (2), a storage battery shell groove (7) with a T-shaped cross section is arranged on the side surface of the storage battery shell (5), the upper part of a connecting plate (8) is clamped in the socket board shell groove (6) through an upper connecting block (9) with a T-shaped cross section, the lower part of the connecting plate (8) is clamped in the storage battery shell groove (7) through a lower connecting block (10) with a T-shaped cross section, and a solar cell panel mounting groove (11) is formed between the lower part of the socket board shell (2) and the upper part of the storage battery shell (5), the solar cell panel (12) is movably inserted into the solar cell panel mounting groove (11), the front part of the socket board shell (2) is provided with a closed plate (13) extending towards the direction of the storage battery shell (5), the rear part of the socket board shell (2) is provided with a limiting column I (14), and the position, close to the front part of the socket board shell (2), of the solar cell panel (12) is provided with a limiting column II (15);

the solar cell panel (12) of the rechargeable mobile socket board is communicated with the storage battery (4) through a connecting wire I, the storage battery (4) is communicated with the socket board body (1) through a connecting wire II, and the solar cell panel (12) is communicated with the socket board body (1) through a connecting wire III;

the rechargeable mobile socket board is characterized in that an on-off switch I is arranged on a connecting wire I of the rechargeable mobile socket board, an on-off switch II is arranged on a connecting wire II, an on-off switch III is arranged on a connecting wire III, and the on-off switch I, the on-off switch II and the on-off switch III are respectively connected with a control component;

when the solar cell panel (12) is pulled out to the outside of the solar cell panel mounting groove (11) and the solar cell panel (12) is in a state of converting solar energy into electric energy, the control part is set to be in a structure which enables the connecting wire II to be in a disconnected state by controlling the disconnection of the on-off switch II.

2. The rechargeable mobile socket fascia according to claim 1, wherein: the socket board is characterized in that a socket board shell groove (6) with a T-shaped cross section is formed in the side face of one side of the socket board shell (2), a socket board shell groove (6) with a T-shaped cross section is formed in the side face of the other side of the socket board shell (2), a storage battery shell groove (7) with a T-shaped cross section is formed in the side face of one side of the storage battery shell (5), and a storage battery shell groove (7) with a T-shaped cross section is formed in the side face of the other side of the storage battery shell (5).

3. The rechargeable mobile socket fascia according to claim 2, wherein: the upper part of each connecting plate (8) of the rechargeable mobile socket plate is clamped in a socket plate shell groove (6) through an upper connecting block (9) with a T-shaped section, and the lower part of each connecting plate (8) is clamped in a storage battery shell groove (7) through a lower connecting block (10) with a T-shaped section.

4. The rechargeable mobile socket deck according to claim 1 or 2, wherein: when the solar panel (12) is pushed to the inside of the solar panel mounting groove (11) and the solar panel (12) stops converting solar energy into electric energy, the control part is set to be in a structure enabling the connecting line I to be in a disconnected state by controlling the disconnection of the on-off switch I.

5. The rechargeable mobile socket fascia according to claim 4, wherein: when the solar panel (12) is pushed to the inside of the solar panel mounting groove (11) and the solar panel (12) stops converting solar energy into electric energy, the control part is set to be in a structure enabling the connecting line III to be in a disconnected state by controlling the on-off switch III to be disconnected.