CN116565646B

CN116565646B - Self-winding extension socket with temperature self-sensing prompt function

Info

Publication number: CN116565646B
Application number: CN202310832636.1A
Authority: CN
Inventors: 冯剑军; 周加良; 宣燕红
Original assignee: Hangzhou Hongshi Electric Co ltd
Current assignee: Hangzhou Hongshi Electric Co ltd
Priority date: 2023-07-08
Filing date: 2023-07-08
Publication date: 2024-04-30
Anticipated expiration: 2043-07-08
Also published as: CN116565646A

Abstract

The invention discloses a self-winding socket with a temperature self-sensing prompt function, which is characterized by further comprising a wiring device arranged on a socket body and used for connecting a power line, and a self-winding mechanism arranged on the socket body and used for self-winding; the self-winding mechanism comprises a shell, a winding mechanism movably arranged in the shell, a motor arranged in the shell and used for driving the winding mechanism to rotate so as to automatically wind wires, and a storage battery arranged in the shell and used for supplying power to the motor. According to the invention, through the arrangement of the self-winding mechanism, wires with corresponding lengths can be released according to requirements during use, meanwhile, when the wires are required to be wound, the wires can be wound automatically through the self-winding mechanism without manual winding, and the problem that the wires are wound together in a disordered manner when the wires are wound in the shell is avoided, so that the self-winding mechanism is simple and convenient to operate, and convenient to collect and use.

Description

Self-winding extension socket with temperature self-sensing prompt function

Technical Field

The invention relates to a socket, in particular to a self-winding socket with a temperature self-sensing prompt function.

Background

The extension socket is generally used for an adapter wire of a power supply; the row inserts among the prior art all are equipped with a main electric wire that is used for connecting the power, and when the user wants to collect the main electric wire of row inserts, all twine the main electric wire through personnel and collect, but usually can hardly be as desired, because main electric wire often can oneself twine together, especially when main electric wire is longer, often can take place the phenomenon of twining the knot, still need the wiring when using each time, very troublesome, and the length of main electric wire on row inserts can't change, when main electric wire is longer, and when using position and socket are nearer, main electric wire all is scattered on the ground, bring very big inconvenience for user's carrying and use row inserts.

In the prior art, if short circuit and other phenomena occur in the use process of the socket, the internal temperature rises, even combustion and fire occur, and if the user does not find the socket in time, the fire is easy to happen. Therefore, a self-winding extension socket with a temperature self-sensing prompt function is provided.

Disclosure of Invention

The invention aims to solve the problems and provides a self-winding extension socket with a temperature self-sensing prompt function.

In order to achieve the above purpose, the invention provides a self-winding extension socket with a temperature self-sensing prompt function, which comprises a socket body; the automatic wire winding device is characterized by further comprising a wiring device, a wire winding mechanism, a plug-in structure and a safety module, wherein the wiring device is arranged on the row plug body and used for connecting a power wire, the wire winding mechanism is arranged on the row plug body and used for winding wires, the plug-in structure is arranged on the wire winding mechanism and the row plug body and is convenient for detachably arranging the wire winding mechanism on the row plug body, and the safety module is arranged on the row plug body and used for sensing temperature to play a role in prompting and safety protection; the safety module comprises a control module arranged in the extension socket body, an induction module for inducing temperature, a prompting module for prompting and a relay; the self-winding mechanism comprises a shell, a winding mechanism movably arranged in the shell, a motor arranged in the shell and used for driving the winding mechanism to rotate so as to automatically wind wires, and a storage battery arranged in the shell and used for supplying power to the motor; the winding mechanism comprises a supporting shaft arranged in the shell, a transmission gear movably arranged on the supporting shaft, a winding shaft movably arranged on the supporting shaft and the transmission gear, a driving gear which is movably arranged on the shell, is in transmission connection with the motor and is in meshed connection with the transmission gear, a first bevel gear arranged on the supporting shaft, a second bevel gear arranged on the transmission gear and in meshed connection with the bevel gear, and a reciprocating mechanism arranged on the second bevel gear and the winding shaft and used for driving the winding shaft to perform reciprocating motion.

Further preferably, the support shaft is further provided with a conductive slip ring.

Further preferably, the reciprocating mechanism comprises an eccentric shaft arranged on the bevel gear and a moving groove arranged on the winding shaft and matched with the eccentric shaft.

Further preferably, baffles are further arranged on two sides of the winding shaft.

Further preferably, the plugging structure comprises a limit groove arranged on the extension socket body and a plug block arranged on the shell and adapted to the limit groove; the shell is provided with a hollow groove for preventing interference of the alignment.

Further preferably, the wiring device comprises a wiring cavity arranged on the row plug body, a conductive spring piece arranged in the wiring cavity, a wire inserting hole arranged on the row plug body and communicated with the wiring cavity for inserting wires, and a pressing piece movably arranged on the row plug body and used for fixedly inserting wires in the wire inserting hole.

Further preferably, the compressing piece is provided with an arc surface matched with the wire at one end, a plurality of teeth used for clamping the wire are arranged on the arc surface, a spring is arranged between the other end and the row socket body, and the compressing piece and the row socket body are provided with spring limiting columns which are sleeved with each other.

Further preferably, the safety module comprises a circuit board arranged in the extension socket body, the control module is an MCU module arranged on the circuit board, the sensing module is a temperature sensor which is arranged in the shell and electrically connected with the circuit board to sense temperature and transmit data to the MCU module, and the prompting module is a flashing lamp or a buzzer which is arranged in or outside the shell and electrically connected with the circuit board.

According to the invention, through the arrangement of the safety module, the safety protection function is realized when the socket is used, when the temperature in the socket is too high, the flashing lamp is controlled to flash or the buzzer is controlled to make a sound through the MCU module so as to prompt a user that the temperature is too high, and the user is prompted to check and overhaul in time due to possible faults; when the user is not in or receives the prompt and the temperature is continuously increased to the set critical point, the MCU module controls the relay to automatically cut off the circuit, so that the problem of fire caused by fire after the temperature is too high due to circuit faults is avoided, and the safety usability is improved;

Through the setting from line mechanism, can release the line of corresponding length when using according to the demand, when needs draw in to the line simultaneously, the accessible is automatic with the line rolling from line mechanism, and need not draw in through manual drawing in to the line draws in can not take place the problem that the line is chaotic and incomplete to wind together still in the shell, easy operation is convenient, is convenient for collect and use.

Drawings

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

FIG. 2 is a schematic view of a partial cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a partial structure of a socket body according to the present invention;

FIG. 4 is a schematic view of a partial cross-sectional structure of a wiring device of the present invention;

FIG. 5 is a schematic view of a partial structure of a wiring device of the present invention;

FIG. 6 is a schematic view of the self-winding structure of the present invention;

FIG. 7 is a schematic view of a part of the self-winding structure in the present invention;

FIG. 8 is a schematic cross-sectional view of the self-winding structure of the present invention;

Fig. 9 is a schematic diagram of a use flow of the security module of the present invention.

Legend description: 1. a socket body; 2. a wiring device; 21. a wiring cavity; 22. a conductive spring piece; 23. a plug wire hole; 24. a pressing member; 241. a cambered surface; 242. teeth; 243. a spring; 244. a spring limit column; 3. a self-winding mechanism; 31. a housing; 311. a hollow groove; 32. a winding mechanism; 321. a support shaft; 322. a transmission gear; 323. a spool; 324. a drive gear; 325. bevel gears I; 326. bevel gears II; 327. a conductive slip ring; 328. a baffle; 33. a motor; 34. a storage battery; 35. a reciprocating mechanism; 351. an eccentric shaft; 352. a moving groove; 4. a plug-in structure; 41. a limit groove; 42. and (5) inserting blocks.

Detailed Description

The invention further provides a self-winding socket with a temperature self-sensing prompt function by combining with the attached drawings.

Referring to fig. 1-9, a self-winding power strip with a temperature self-sensing prompt function comprises a power strip body 1; the power line automatic wire winding device is characterized by further comprising a wiring device 2 which is arranged on the row socket body 1 and used for connecting a power line, a self-winding mechanism 3 which is arranged on the row socket body 1 and used for self-winding, a plug-in structure 4 which is arranged on the self-winding mechanism 3 and the row socket body 1 and is convenient for detachably arranging the self-winding mechanism 3 on the row socket body 1, and a safety module which is arranged on the row socket body 1 and used for inducing temperature to play a role in prompting and safety protection; the safety module comprises a control module, an induction module, a prompting module and a relay, wherein the control module is arranged in the extension socket body 1, the induction module is used for inducing temperature, and the prompting module plays a role in prompting; the self-winding mechanism 3 comprises a shell 31, a winding mechanism 32 movably arranged in the shell 31, a motor 33 arranged in the shell 31 and used for driving the winding mechanism 32 to rotate so as to automatically wind wires, and a storage battery 34 arranged in the shell 31 and used for supplying power to the motor 33;

The shell 31 is also provided with a switch button for controlling the starting and stopping of the self-winding mechanism 3, when the socket is used, the electric wire is connected with the socket to charge the storage battery while the power is supplied, so that the problem of no electricity is caused when the storage battery is used;

Through the arrangement of the safety module, the safety protection function is achieved when the socket is used, when the temperature in the socket is too high, the flashing lamp is controlled to flash or the buzzer is controlled to make a sound through the MCU module so as to prompt a user that the temperature is too high, faults are likely to occur, and prompt the user to check and overhaul in time; when the user is not in or receives the prompt and the temperature is continuously increased to the set critical point, the MCU module controls the relay to automatically cut off the circuit, so that the problem of fire caused by fire after the temperature is too high due to circuit faults is avoided, and the safety usability is improved;

Through the setting from line mechanism 3, can release the line of corresponding length according to the demand during the use, when needs draw in to the line simultaneously, the accessible is drawn in the line mechanism 3 is automatic with the line rolling, and need not draw in through manual, and the line draws in and still can not take place the chaotic problem of winding of line together in shell 31, easy operation is convenient, is convenient for collect and use.

Further, the winding mechanism 32 includes a supporting shaft 321 installed in the housing 31, a transmission gear 322 movably installed on the supporting shaft 321, a winding shaft 323 movably installed on the supporting shaft 321 and the transmission gear 322, a driving gear 324 movably installed on the housing 31 and in transmission connection with the motor 33, and in meshing connection with the transmission gear 322, a first bevel gear 325 fixedly installed on the supporting shaft 321 by welding or the like, a second bevel gear 326 movably installed on the transmission gear 322 and in meshing connection with the first bevel gear 325, and a reciprocating mechanism 35 provided on the second bevel gear 326 and the winding shaft 323 for driving the winding shaft 323 to perform reciprocating motion; the supporting shaft 321 is also provided with a conductive slip ring 327;

Through the arrangement of the conductive slip ring 327, one end of a wire wound on the winding shaft 323 is connected with the conductive slip ring 327, the conductive slip ring 327 is also connected with the extension socket body through the wire, and the conductive slip ring 327 is used for electric connection, so that the phenomenon that the winding work cannot be performed due to interference of a connection point of the wire on rotation of the winding shaft 323 is avoided;

Further, the reciprocating mechanism 35 includes an eccentric shaft 351 provided on the bevel gear two 326, and a moving groove 352 provided on the spool 323 and adapted to the eccentric shaft 351;

When winding, the winding is performed: starting the motor 33, driving the driving gear 324 to rotate by the motor 33, driving the driving gear 322 to rotate by meshing and matching, driving the winding shaft 323 and the bevel gear I325 to rotate by the driving gear 322, driving the bevel gear II 326 to rotate by meshing when the bevel gear I325 rotates, driving the eccentric shaft 351 arranged on the bevel gear II 326 to rotate by the bevel gear II 326, and driving the winding shaft 323 to influence the reciprocating movement by matching with the moving groove 352 on the winding shaft 323 in the rotating process of the eccentric shaft 351, wherein the winding shaft 323 performs winding and winding in the rotating process.

Further, the two sides of the winding shaft 323 are also provided with the baffle plates 328, and the arrangement of the baffle plates 328 plays a role in limiting the wire wound on the winding shaft 323, so that the wire is prevented from sliding from the two sides and is prevented from being used normally.

The driving gear 322 is connected with the spool 323 through a key, and the driving gear 322 can drive the spool 323 to rotate and simultaneously plays a role in guiding the reciprocating movement of the spool 323.

Further, the plugging structure 4 includes a limiting groove 41 disposed on the socket body 1, and a plug 42 disposed on the housing 31 and adapted to the limiting groove 41; the shell 31 is provided with a hollow groove 311 for preventing interference of alignment;

Through the arrangement of the limiting groove 41 and the inserting block 42, the inserting block 42 is in interference fit with the limiting groove 41, and when the shell 31 is installed on the row socket body 1, the inserting block 42 is only required to be inserted into the limiting groove 41 along the limiting groove 41; through the setting of empty slot 311, when installing shell 31, at first with the line with arrange the termination on inserting body 1 and be connected, then at installation shell 31, make shell 31 through empty slot 311 play the effect of dodging to the line when the installation, avoid the line to the installation of shell 31 to cause the interference.

Further, the wiring device 2 comprises a wiring cavity 21 arranged on the row socket body 1, a conductive spring piece 22 arranged in the wiring cavity 21, a wire insertion hole 23 arranged on the row socket body 1 and communicated with the wiring cavity 21 for inserting wires, and a pressing piece 24 movably arranged on the row socket body 1 for fixedly inserting wires in the wire insertion hole 23; by installing the conductive spring piece 22 in the wiring cavity 21, the conductive spring piece 22 is communicated with the conductive device in the socket body 1, the wire is inserted along the wire insertion hole 23 and then presses the conductive spring piece 22 when being connected with the conductive spring piece 22, and the wire is pressed by the elasticity of the conductive spring piece 22 to be in contact with the conductive spring piece 22 so as to conduct electricity.

Further, one end of the pressing piece 24 matched with the wire is provided with a cambered surface 241 matched with the wire, the cambered surface 241 is provided with a plurality of teeth 242 used for clamping the wire, a spring 243 is arranged between the other end of the cambered surface 241 and the socket body 1, the pressing piece 24 and the socket body 1 are provided with a spring limit post 244, and the spring 243 is sleeved and arranged on the spring limit post 244; through the arrangement of the cambered surface 241 and the plurality of teeth 242 in the cambered surface 241, the outer ring of the wire is pressed through the cambered surface 241, the compressing piece 24 is pushed by the reset force of the spring 243 to rotate by taking the movable connecting point of the compressing piece 24 and the socket body 1 as a base point, so that the compressing piece 24 is pushed to compress the wire, and meanwhile, the teeth 242 compress the wire, the installation firmness of the wire is improved, and the wire is prevented from being disconnected; through the arrangement of the pressing piece 24 of the spring 243, when the wire is required to be disassembled and assembled, the wire can be pulled out only by pressing the pressing piece 24 and then driving one end of the pressing piece 24 to tilt, and the teeth 242 can not press the wire any more;

When in use, the automatic winding device can be used by adopting an independent wire to be connected with the extension socket body 1 according to the requirements, and can also be used by adopting a self-winding structure to be connected with the extension socket body 1.

Further, the safety module comprises a circuit board arranged in the socket body 1, the control module is an MCU module arranged on the circuit board, the sensing module is a temperature sensor which is arranged in the shell 31 and electrically connected with the circuit board for sensing temperature and transmitting data to the MCU module, and the prompting module is a flashing lamp or a buzzer which is arranged in or outside the shell 31 and electrically connected with the circuit board;

When the temperature in the socket is too high, the flashing lamp is controlled by the MCU module to flash or the buzzer emits sound to prompt a user that the temperature is too high, faults possibly occur, and prompt the user to check and overhaul in time; when the user is not in or receives the prompt and the temperature is continuously increased to the set critical point, the MCU module controls the relay to automatically cut off the circuit and waits for the maintenance of the staff.

The application process of the invention comprises the following steps:

When winding, the winding is performed: starting the motor 33, wherein the motor 33 drives the driving gear 324 to rotate, the driving gear 324 drives the transmission gear 322 to rotate through meshing fit, the transmission gear 322 drives the winding shaft 323 and the bevel gear I325 to rotate, the bevel gear I325 drives the bevel gear II 326 to rotate through meshing when rotating, the bevel gear II 326 drives the eccentric shaft 351 arranged on the bevel gear II 326 to rotate, and the eccentric shaft 351 drives the winding shaft 323 to influence reciprocating movement through the fit of the moving groove 352 on the winding shaft 323 in the rotating process, and the winding shaft 323 performs winding and winding work in the rotating process;

when the wire is pulled, an operator only needs to pull out the wire with corresponding length according to the requirement and then use the wire.

The scope of protection of the present invention is not limited to the above embodiments and variations thereof. Conventional modifications and substitutions by those skilled in the art based on the content of the present embodiment fall within the protection scope of the present invention.

Claims

1. A self-winding extension socket with a temperature self-sensing prompt function comprises a socket body (1); the automatic wire winding device is characterized by further comprising a wiring device (2) which is arranged on the row socket body (1) and used for connecting a power wire, a self-winding mechanism (3) which is arranged on the row socket body (1) and used for self-winding, a plug-in structure (4) which is arranged on the self-winding mechanism (3) and the row socket body (1) and is convenient for detachably arranging the self-winding mechanism (3) on the row socket body (1), and a safety module which is arranged on the row socket body (1) and used for sensing temperature to play a role in prompting and safety protection; the safety module comprises a control module arranged in the extension socket body (1), an induction module for inducing temperature, a prompting module for prompting and a relay; the self-winding mechanism (3) comprises a shell (31), a winding mechanism (32) movably arranged in the shell (31), a motor (33) arranged in the shell (31) and used for driving the winding mechanism (32) to rotate so as to automatically wind wires, and a storage battery (34) arranged in the shell (31) and used for supplying power to the motor (33); the winding mechanism (32) comprises a supporting shaft (321) arranged in the shell (31), a transmission gear (322) movably arranged on the supporting shaft (321), a winding shaft (323) movably arranged on the supporting shaft (321) and the transmission gear (322), a driving gear (324) movably arranged on the shell (31) and in transmission connection with the motor (33) and in meshed connection with the transmission gear (322), a first bevel gear (325) arranged on the supporting shaft (321), a second bevel gear (326) arranged on the transmission gear (322) and in meshed connection with the first bevel gear (325), and a reciprocating mechanism (35) arranged on the second bevel gear (326) and the winding shaft (323) and used for driving the winding shaft (323) to reciprocate; the reciprocating mechanism (35) comprises an eccentric shaft (351) arranged on the bevel gear II (326), and a moving groove (352) which is arranged on the winding shaft (323) and is matched with the eccentric shaft (351); the plug-in structure (4) comprises a limit groove (41) arranged on the extension socket body (1) and a plug block (42) arranged on the shell (31) and matched with the limit groove (41); the shell (31) is provided with a hollow groove (311) for preventing the interference of the alignment; the wiring device (2) comprises a wiring cavity (21) arranged on the row socket body (1), a conductive spring piece (22) arranged in the wiring cavity (21), a wire inserting hole (23) which is arranged on the row socket body (1) and communicated with the wiring cavity (21) and used for inserting wires, and a pressing piece (24) movably arranged on the row socket body (1) and used for fixedly inserting the wires in the wire inserting hole (23).

2. The self-winding power strip with a temperature self-sensing prompt function according to claim 1, wherein: and the supporting shaft (321) is also provided with a conductive slip ring (327).

3. The self-winding power strip with a temperature self-sensing prompt function according to claim 1, wherein: and baffle plates (328) are arranged on two sides of the winding shaft (323).

4. The self-winding power strip with a temperature self-sensing prompt function according to claim 1, wherein: the wire clamping device is characterized in that one end of the pressing piece (24) matched with the wire is provided with an arc surface (241) matched with the wire, a plurality of teeth (242) used for clamping the wire are arranged on the arc surface (241), springs (243) are arranged between the other end of the pressing piece and the row-plug body (1), spring limiting columns (244) are arranged on the pressing piece (24) and the row-plug body (1), and the springs (243) are sleeved on the spring limiting columns (244).

5. The self-winding power strip with a temperature self-sensing prompt function according to claim 1, wherein: the safety module comprises a circuit board arranged in the extension socket body (1), the control module is an MCU module arranged on the circuit board, the sensing module is a temperature sensor which is arranged in the shell (31) and electrically connected with the circuit board, is used for sensing temperature and transmitting data to the MCU module, and the prompting module is a flashing lamp or a buzzer which is arranged in the shell (31) or outside and electrically connected with the circuit board.