CN209877393U - Wall-hanging stove starting drive based on NB-IOT wireless transmission technique - Google Patents

Abstract

A wall-hanging stove starting drive based on NB-IOT wireless transmission technology relates to starting drive technical field. It includes: the device comprises a socket module, a relay module, a main control circuit module, a voltage transformation module and a control module; the socket module is arranged at the periphery of the wall-mounted furnace and is used for plugging a power line of the wall-mounted furnace; one end of the voltage transformation module is electrically connected with the mains supply, and the other end of the voltage transformation module is electrically connected with the main control circuit module; the relay module is electrically connected with the mains supply and is connected with the main control circuit module and the socket module, and the relay module is used for switching on or switching off the connection between the socket module and the mains supply according to a control signal sent by the main control circuit module; the control module is connected with the main control circuit module; the main control circuit module is connected with the relay module, the voltage transformation module and the control module. The wall-mounted furnace starting device adopting the technical scheme has the advantages of simple and stable control method, convenience in operation, low power consumption, strong compatibility and high reliability.

Description

Wall-hanging stove starting drive based on NB-IOT wireless transmission technique

Technical Field

The utility model relates to a starting drive technical field, concretely relates to hanging stove starting drive based on NB-IOT wireless transmission technique.

Background

With the progress of society, electric energy becomes a very important part of people's life, and the following electric appliances are also various, for example: refrigerators, washing machines, wall-mounted ovens, air conditioners, printers, and the like. Because the installation position of hanging stove is far away from bottom surface or floor, need cut off the power when hanging stove is not used in order to guarantee the power consumption safety.

The current hanging stove is all at the plug, or at the inside control module that sets up of equipment, realizes opening or closing of equipment through the remote controller, when needing the cut-off power supply, needs manually to pull out the plug from the socket, and the hanging stove that sets up like this cuts off the process of power supply loaded down with trivial details, needs the user to cut off manually moreover, and is very troublesome, consequently, remains to improve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a hanging stove starting drive based on NB-IOT wireless transmission technique, can enough inherit manual control's function, have and to carry out remote control to it through intelligent terminal, it is simple, stable to have control method, convenient operation, low power dissipation, and the compatibility is strong, the advantage that the reliability is high.

In order to achieve the above object, the utility model adopts the following technical scheme: a hanging stove starting drive based on NB-IOT wireless transmission technique includes: the device comprises a socket module, a relay module, a main control circuit module, a voltage transformation module and a control module; the socket module is arranged at the periphery of the wall-mounted furnace and is used for plugging a power line of the wall-mounted furnace to obtain electric energy; one end of the voltage transformation module is electrically connected with a mains supply, the other end of the voltage transformation module is electrically connected with the main control circuit module, and the voltage transformation module is used for converting an input mains supply voltage into a rated voltage of the main control circuit module so as to supply power to the main control circuit module; the relay module is electrically connected with a mains supply and is connected with the main control circuit module and the socket module, and the relay module is used for switching on or switching off the connection between the socket module and the mains supply according to a control signal sent by the main control circuit module so as to realize the switching on or switching off between the wall-mounted furnace and a power supply; the control module is connected with the main control circuit module and is used for a user to operate and sending an instruction to the main control circuit module according to the operation of the user so as to control the main control circuit; the main control circuit module is connected with the relay module, the voltage transformation module and the control module, and is used for receiving the instruction sent by the control module and controlling the relay module according to the instruction so as to realize the power-on or power-off of the socket module.

The control module includes: the output end of the manual switch is connected with the main control circuit module and is used for manual operation of a user so as to send an instruction to the main control circuit; the wireless communication module is electrically connected with the main control circuit module at the output end and wirelessly connected with external terminal equipment at the input end, and is used for receiving and sending an instruction to the main control circuit module when a user inputs the instruction by using the external terminal equipment; and an APP or an applet is installed on the system of the external terminal equipment, and the APP or the applet realizes the remote wireless control of the control module.

The wireless communication module is an NB-IOT module.

The wireless communication module is any one of a ZIGBEE module, a Bluetooth module, a 2.4 GWIFII module, a 5 GWIFII module and a 4G module.

The relay module is a magnetic reed relay or an electromagnetic relay.

The voltage transformation module is a transformer.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when the starting device is used for starting the wall-mounted furnace, a power line of the wall-mounted furnace is firstly plugged in the socket module, then a starting instruction is sent to the NB-IOT module through an APP or a small program installed on the mobile phone terminal through a wireless module on the mobile phone terminal, the NB-IOT module analyzes the instruction after receiving the instruction sent by the mobile phone terminal, then a starting signal is sent to the main control circuit module, the main control circuit switch controls the conduction of the relay module, so that the socket module is communicated with the commercial power, and the remote control of the wall-mounted furnace is realized; when the wall-mounted furnace is cut off, only a cut-off instruction needs to be issued on an APP or a small program on a mobile phone terminal, the NB-IOT module controls the main control circuit module, and the main control circuit module controls the relay module to be switched off, so that the power supply of the wall-mounted furnace is cut off and controlled to be switched on, and the remote control of the start or the cut-off of the wall-mounted furnace is realized; and the starting device realizes wireless communication through the NB-IOT module, so that the starting device has the advantages of simple and stable control method, convenience in operation, low power consumption, strong compatibility and high reliability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is an overall frame diagram of the present embodiment;

fig. 2 is a schematic circuit diagram of the present embodiment.

Description of reference numerals: 1. a socket module; 2. a relay module; 3. a main control circuit module; 4. a voltage transformation module; 5. a control module; 6. a manual switch; 7. an NB-IOT module; 8. a first coil terminal; 9. a second coil terminal; 10. a first switch terminal; 11. a second switch terminal; 12. a first power supply terminal; 13. a second power supply terminal; 14. a first on-off terminal; 15. a second break-make terminal; 16. a first input terminal; 17. a second input terminal; 18. a first output terminal; 19. a second output terminal; 20. and a zero line binding post.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without making a contribution, but all the embodiments are protected by the patent law within the scope of the claims of the present invention.

The embodiment relates to a wall-hanging stove starting drive based on NB-IOT wireless transmission technology, as shown in fig. 1, includes: the socket module comprises a socket module 1, a relay module 2, a main control circuit module 3, a voltage transformation module 4 and a control module 5.

As shown in fig. 1, the socket module 1 is disposed at the periphery of the wall-hanging stove, and the socket module 1 is used for plugging a power line of the wall-hanging stove, so as to obtain electric energy for the wall-hanging stove. One end of the voltage transformation module 4 is electrically connected with the mains supply, the other end of the voltage transformation module is electrically connected with the main control circuit module 3, and the voltage transformation module 4 is used for converting the input mains supply voltage into the rated voltage of the main control circuit module 3 so as to supply power to the main control circuit module 3. The relay module 2 is electrically connected with a mains supply, the relay module 2 is connected with the main control circuit module 3 and the socket module 1, and the relay module 2 is used for switching on or switching off the connection between the socket module 1 and the mains supply according to a control signal sent by the main control circuit module 3, so that the switching on or switching off between the wall-mounted furnace and the power supply is realized. The control module 5 is connected with the main control circuit module 3, and the control module 5 is used for a user to operate and sending an instruction to the main control circuit module 3 according to the operation of the user, so as to control the main control circuit. The main control circuit module 3 is connected with the relay module 2, the voltage transformation module 4 and the control module 5, and the main control circuit module 3 is used for receiving an instruction sent by the control module 5 and controlling the relay module 2 according to the instruction so as to realize the power-on or power-off of the socket module 1.

As shown in fig. 1, the control module 5 includes: a manual switch 6 and a wireless communication module. The output end of the manual switch 6 is connected with the main control circuit module 3, and the manual switch 6 is used for manual operation of a user, so that an instruction is sent to the main control circuit, and manual starting or stopping of the wall-mounted furnace is achieved. The output end of the wireless communication module is electrically connected with the main control circuit module 3, and the input end of the wireless communication module is wirelessly connected with external terminal equipment. When a user inputs an instruction by using the external terminal device, the wireless communication module is used for receiving the instruction and sending the instruction to the main control circuit module 3. An APP or an applet is installed on a system of the external terminal device, and the APP or the applet realizes remote wireless control of the control module 5.

In this embodiment, the utility power is 220V household power, and the wireless communication module is an NB-IOT module 7. The relay module 2 is an electromagnetic relay. The voltage transformation module 4 is a transformer. The external terminal equipment is a mobile phone terminal. In other embodiments, the wireless communication module is any one of a ZIGBEE module, a bluetooth module, a 2.4GWIFI module, a 5GWIFI module, and a 4G module. The relay module 2 may be a reed relay. The voltage transformation module 4 may be replaced by a rechargeable battery. The external terminal equipment is a tablet computer. The commercial power can also be 110V,380V and the like.

As shown in fig. 1 and 2, the relay module 2 is an electromagnetic relay, and a coil, a coil terminal, and a switch terminal are provided on the electromagnetic relay. The main control circuit module 3 is provided with a power supply wiring terminal, an on-off wiring terminal, an NB-IOT module 7 and a manual control switch. The transformation module 4 is a transformer, an input binding post and an output binding post are arranged on the transformer, and two coil binding posts are arranged and are respectively a first coil binding post 8 and a second coil binding post 9. The switch terminals are provided in two, and are a first switch terminal 10 and a second switch terminal 11, respectively. The power supply terminals are provided in two, and are a first power supply terminal 12 and a second power supply terminal 13, respectively. The number of the on-off terminals is two, and the two terminals are a first on-off terminal 14 and a second on-off terminal 15. The input terminals are provided in two, respectively a first input terminal 16 and a second input terminal 17. The output terminals are provided with two, respectively first 18 and second 19 output terminals. The socket module 1 is provided with a neutral terminal 20. The rest are provided with one.

As shown in fig. 1 and 2, when the socket module is wired, the first switch terminal 10 is connected to the live wire of the 220V power supply through a wire, and the second switch terminal 11 is connected to the socket module 1 through a wire. The first coil binding post 8 is connected with the first on-off binding post 14 through a conducting wire, and the second coil binding post 9 is connected with the second on-off binding post 15 through a conducting wire. The first power supply terminal 12 is connected to the first output terminal 18 by a wire, and the second power supply terminal 13 is connected to the second output terminal 19 by a wire. The first input terminal 16 is connected with the live wire of the 220V power supply through a lead, and the second input terminal 17 is connected with the zero wire of the 220V power supply. The neutral terminal 20 on the socket module 1 is connected to the neutral.

When the main control circuit module 3 receives a starting control signal, the on-off switch is switched on, the main control circuit module 3 supplies power to the coil of the electromagnetic relay, and the coil enables the first switch wiring terminal 10 and the second switch wiring terminal 11 to be switched on under the power-on condition, so that the electromagnetic relay is switched on and further supplies power to the socket module 1.

The working principle of the present embodiment is roughly as follows: when the starting device is used for starting the wall-mounted furnace, a power line of the wall-mounted furnace is firstly plugged in the socket module 1, then an APP or a small program installed on a mobile phone terminal sends a starting instruction to the NB-IOT module 7 through a wireless module on the mobile phone terminal, the NB-IOT module 7 analyzes the instruction after receiving the instruction sent by the mobile phone terminal, then a starting signal is sent to the main control circuit module 3, the main control circuit switch controls the relay module 2 to be conducted, so that the socket module 1 is conducted with the mains supply, and the remote control of the wall-mounted furnace is realized; when the wall-mounted boiler is switched off, only a switching-off instruction needs to be issued on an APP or a small program on a mobile phone terminal, the NB-IOT module 7 controls the main control circuit module 3, and the main control circuit module 3 controls the relay module 2 to be switched off, so that the power supply of the wall-mounted boiler is switched off and controlled, and the remote control of the switching-on or switching-off of the wall-mounted boiler is realized; and the starting device realizes wireless communication through the NB-IOT module 7, so that the starting device has the advantages of simple and stable control method, convenient operation, low power consumption, strong compatibility and high reliability.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims (6)

1. A hanging stove starting drive based on NB-IOT wireless transmission technique, its characterized in that includes: the device comprises a socket module (1), a relay module (2), a main control circuit module (3), a voltage transformation module (4) and a control module (5);

the socket module (1) is arranged on the periphery of the wall-mounted furnace and is used for plugging a power line of the wall-mounted furnace to obtain electric energy;

one end of the voltage transformation module (4) is electrically connected with a mains supply, the other end of the voltage transformation module is electrically connected with the main control circuit module (3), and the voltage transformation module (4) is used for converting an input mains supply voltage into a rated voltage of the main control circuit module (3) so as to supply power to the main control circuit module (3);

the relay module (2) is electrically connected with a mains supply and is connected with the main control circuit module (3) and the socket module (1), and the relay module (2) is used for switching on or switching off the connection between the socket module (1) and the mains supply according to a control signal sent by the main control circuit module (3) so as to realize the switching on or switching off between the wall-mounted stove and the power supply;

the control module (5) is connected with the main control circuit module (3), and the control module (5) is used for a user to operate and sending an instruction to the main control circuit module (3) according to the operation of the user so as to control the main control circuit;

the main control circuit module (3) is connected with the relay module (2), the voltage transformation module (4) and the control module (5), and the main control circuit module (3) is used for receiving an instruction sent by the control module (5) and controlling the relay module (2) according to the instruction so as to realize the power-on or power-off of the socket module (1).

2. The NB-IOT wireless transmission technology-based wall-hanging stove starting device according to claim 1, wherein the control module (5) comprises:

the output end of the manual switch (6) is connected with the main control circuit module (3) and is used for manual operation of a user so as to send an instruction to the main control circuit; and the number of the first and second groups,

the wireless communication module is electrically connected with the main control circuit module (3) at the output end and is wirelessly connected with external terminal equipment at the input end, and when a user inputs an instruction by using the external terminal equipment, the wireless communication module is used for receiving the instruction and sending the instruction to the main control circuit module (3); and an APP or an applet is installed on the system of the external terminal equipment, and the APP or the applet realizes the remote wireless control of the control module (5).

3. The wall-hanging stove starting device based on the NB-IOT wireless transmission technology as claimed in claim 2, wherein the wireless communication module is an NB-IOT module (7).

4. The NB-IOT wireless transmission technology-based wall-hanging stove starting device as claimed in claim 2, wherein the wireless communication module is any one of a ZIGBEE module, a Bluetooth module, a 2.4 GWIFISI module, a 5 GWIFISI module and a 4G module.

5. The NB-IOT wireless transmission technology-based wall-hanging stove starting device according to claim 3 or 4, characterized in that the relay module (2) is a reed relay or an electromagnetic relay.

6. The NB-IOT wireless transmission technology-based wall-hanging stove starting device according to claim 3 or 4, characterized in that the voltage transformation module (4) is a transformer.