CN111641085A

CN111641085A - Temperature monitoring-based intelligent power-off control device system for mobile phone

Info

Publication number: CN111641085A
Application number: CN202010517172.1A
Authority: CN
Inventors: 林素妹; 王连进
Original assignee: Chaiwang Mechanical Equipment Design Office Quanzhou Taiwan Investment Zone
Current assignee: Chaiwang Mechanical Equipment Design Office Quanzhou Taiwan Investment Zone
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2020-09-08

Abstract

The invention discloses a mobile phone intelligent power-off control device system based on temperature monitoring, and relates to the field of intelligent home safety facility devices. In the invention: the socket body is provided with corresponding plug jacks; a pressure connecting rod mechanism is movably arranged between the adjacent plug jacks; the pressure connecting rod mechanism is connected with an end side fixing ring plate, a temperature sensing probe and a first fixing ring plate; the temperature sensing probe is connected with the temperature sensing device through an information/signal transmission line; the pressure sensing device is connected with the main processing controller through an information/signal transmission line; the temperature sensing device is connected with the main processing controller through an information/signal transmission line; the main processing controller is connected with the power-on controller through an electric/signal transmission control line. According to the invention, when the temperature of the mobile phone charging plug is too high, the power-off operation is carried out on the plug jack through the power-on controller, so that the risk of power supply dangerous accidents is reduced, and the safety coefficient of the mobile phone in the charging process is enhanced.

Description

Temperature monitoring-based intelligent power-off control device system for mobile phone

Technical Field

The invention relates to the field of intelligent household safety facility devices, in particular to a mobile phone intelligent power-off control device system based on temperature monitoring.

Background

The socket is a socket into which one or more circuit wiring can be inserted, through which various wiring can be inserted, so that connection with other circuits is facilitated, and connection and disconnection of the circuit and the copper member are achieved finally.

In people's daily life, the use of smart phones is quite popular and frequent. The charging times of the smart phone are also frequent. When the smart phone is charged, particularly when a quick-charging charger is used, the current during charging is too large, so that large heat is easily generated, and if a line in a socket or the charger is aged, a power supply dangerous accident is easily caused; how to reduce the risk that the dangerous accident of power takes place in the cell-phone charging process, strengthen the factor of safety of cell-phone in carrying out the charging process, become the problem that needs to solve.

Disclosure of Invention

The invention aims to provide a mobile phone intelligent power-off control device system based on temperature monitoring, so that when a mobile phone charging plug has an overhigh temperature, a plug jack is powered off by a power-on controller in time, the risk of power supply dangerous accidents is reduced, and the safety coefficient of a mobile phone in the charging process is enhanced.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides a mobile phone intelligent power-off control device system based on temperature monitoring, which comprises a socket body, wherein corresponding plug jacks are arranged on the socket body; a pressure connecting rod mechanism is movably arranged between the adjacent plug jacks; one end side of the pressure connecting rod mechanism is fixedly connected with an end side fixing ring plate; the other end side of the pressure connecting rod mechanism is fixedly provided with a temperature sensing probe; a first fixed ring plate is fixedly arranged on the pressure connecting rod mechanism; the socket body is internally and fixedly provided with a socket plate fixing ring plate and a fixing support ring plate; a pressure sensing device, a temperature sensing device and a power-on controller are fixedly arranged in the socket body; the socket body is internally and fixedly provided with a main processing controller; the temperature sensing probe is connected with the temperature sensing device through an information/signal transmission line; the pressure sensing device is connected with the main processing controller through an information/signal transmission line; the temperature sensing device is connected with the main processing controller through an information/signal transmission line; the main processing controller is connected with the power-on controller through an electric/signal transmission control line.

Wherein, the socket board fixing ring board is provided with a through hole structure matched with the position and the structure size of the pressure link mechanism.

Wherein, the fixed supporting ring plate is provided with a connecting rod movable through hole; the position and the structural size of the connecting rod movable through hole are matched with those of the pressure connecting rod mechanism.

The pressure connecting rod mechanism is sleeved with a first restoring spring mechanism and a second restoring spring mechanism; the first restoring spring mechanism is positioned between the socket board fixing ring board and the first fixing ring board; the second restoring spring mechanism is positioned between the first fixed ring plate and the fixed supporting ring plate.

And the stiffness coefficients of the first and second complex spring mechanisms are matched.

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

according to the socket, the movable pressure connecting rod mechanism is arranged on the socket body, the corresponding pressure sensing device is arranged, the pressure sensing device is touched and pressed through the pressure connecting rod mechanism, and the plug jacks are electrified through the electrifying controller, so that the electricity utilization safety of the socket and the plug is enhanced; through set up temperature sensing probe at pressure link mechanism's distolateral, transmit real-time plug temperature to main processing controller through temperature sensing device to when the cell-phone charging plug takes place the excess temperature, timely through the circular telegram controller to plug jack outage operation, reduced the risk that the power dangerous accident took place, thereby strengthened the factor of safety of cell-phone in carrying out the charging process.

Drawings

FIG. 1 is a schematic structural diagram of a mobile phone intelligent power-off control device system based on temperature monitoring according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

wherein: 1-a socket body; 2-plug and jack; 3-a pressure linkage mechanism; 4-a pressure sensing device; 5-temperature sensing means; 6-a power-on controller; 7-a main processing controller; 8-socket board fixing ring board; 9-a first stationary ring plate; 10-end side fixing ring plate; 11-fixing the support ring plate; 12-connecting rod movable through hole; 13-a first return spring mechanism; 14-a second return spring mechanism; 15-temperature sensing probe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention relates to a temperature monitoring-based mobile phone intelligent power-off control device system, which comprises a socket body 1, wherein a corresponding plug jack 2 is arranged on the socket body 1; a pressure connecting rod mechanism 3 is movably arranged between the adjacent plug jacks 2; one end side of the pressure connecting rod mechanism 3 is fixedly connected with an end side fixing ring plate 10; the other end side of the pressure connecting rod mechanism 3 is fixedly provided with a temperature sensing probe 15; a first fixed ring plate 9 is fixedly arranged on the pressure connecting rod mechanism 3; a socket board fixing ring board 8 and a fixing support ring board 11 are fixedly arranged in the socket body 1; a pressure sensing device 4, a temperature sensing device 5 and a power-on controller 6 are fixedly arranged in the socket body 1; a main processing controller 7 is fixedly arranged in the socket body 1; the temperature sensing probe 15 is connected with the temperature sensing device 5 through an information/signal transmission line; the pressure sensing device 4 is connected with the main processing controller 7 through an information/signal transmission line; the temperature sensing device 5 is connected with the main processing controller 7 through an information/signal transmission line; the main processing controller 7 is connected to the energization controller 6 through an electric/signal transmission control line.

Furthermore, a through hole structure matched with the position and the structure size of the pressure link mechanism 3 is arranged on the socket board fixing ring board 8.

Further, a connecting rod movable through hole 12 is formed in the fixed supporting ring plate 11; the position and the structural size of the connecting rod movable through hole 12 are matched with those of the pressure connecting rod mechanism 3.

Further, a first restoring spring mechanism 13 and a second restoring spring mechanism 14 are sleeved on the pressure connecting rod mechanism 3; the first restoring spring mechanism 13 is positioned between the socket board fixing ring board 8 and the first fixing ring board 9; the second restoring spring mechanism 14 is located between the first fixed ring plate 9 and the fixed support ring plate 11.

Further, the stiffness coefficients of the first and second

restoring spring mechanisms

13 and 14 are matched.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a cell-phone intelligence outage controlling means system based on temperature monitoring which characterized in that:

the socket comprises a socket body (1), wherein corresponding plug jacks (2) are arranged on the socket body (1);

a pressure connecting rod mechanism (3) is movably arranged between the adjacent plug jacks (2);

one end side of the pressure connecting rod mechanism (3) is fixedly connected with an end side fixing ring plate (10);

the other end side of the pressure link mechanism (3) is fixedly provided with a temperature sensing probe (15);

a first fixed ring plate (9) is fixedly arranged on the pressure connecting rod mechanism (3);

a socket board fixing ring board (8) and a fixing support ring board (11) are fixedly arranged in the socket body (1);

a pressure sensing device (4), a temperature sensing device (5) and an electrifying controller (6) are fixedly arranged in the socket body (1);

a main processing controller (7) is fixedly arranged in the socket body (1);

the temperature sensing probe (15) is connected with the temperature sensing device (5) through an information/signal transmission line;

the pressure sensing device (4) is connected with a main processing controller (7) through an information/signal transmission line;

the temperature sensing device (5) is connected with the main processing controller (7) through an information/signal transmission line;

the main processing controller (7) is connected with the electrifying controller (6) through an electric/signal transmission control circuit.

2. The mobile phone intelligent power-off control device system based on temperature monitoring as claimed in claim 1, wherein:

and the socket board fixing ring board (8) is provided with a through hole structure matched with the pressure connecting rod mechanism (3) in position and structure size.

3. The mobile phone intelligent power-off control device system based on temperature monitoring as claimed in claim 1, wherein:

a connecting rod movable through hole (12) is formed in the fixed supporting ring plate (11);

the position and the structural size of the connecting rod movable through hole (12) are matched with those of the pressure connecting rod mechanism (3).

4. The mobile phone intelligent power-off control device system based on temperature monitoring as claimed in claim 1, wherein:

a first restoring spring mechanism (13) and a second restoring spring mechanism (14) are sleeved on the pressure connecting rod mechanism (3);

the first restoring spring mechanism (13) is positioned between the socket board fixing ring board (8) and the first fixing ring board (9);

the second restoring spring mechanism (14) is positioned between the first fixed ring plate (9) and the fixed support ring plate (11).

5. The mobile phone intelligent power-off control device system based on temperature monitoring as claimed in claim 4, wherein:

the stiffness coefficients of the first restoring spring mechanism (13) and the second restoring spring mechanism (14) are matched.