CN217037787U - Multi-functional wifi smart jack - Google Patents

Abstract

The utility model provides a multifunctional wifi intelligent socket, which comprises: the front cover is provided with a first heat dissipation opening; the rear cover is matched and connected with the front cover and is provided with a second heat dissipation opening; wherein, the junction of front cover and back lid still is equipped with at least one lateral part thermovent. The utility model solves the problems that: technical schemes in the related art cannot realize effective heat dissipation of the intelligent socket.

Description

Multifunctional wifi intelligent socket

Technical Field

The utility model relates to the technical field of intelligent sockets, in particular to a multifunctional wifi intelligent socket.

Background

The intelligent socket is a safety socket with a brand new concept, and has the main functions of power saving and safety. In recent years, due to the rapid popularization of 4G and 5G mobile networks and the wide-range coverage of wifi networks, the intelligent household equipment gradually enters the daily life of people. With the development of various industries, the intelligent control functions of the smart home devices are more and more, the control objects are continuously expanded, and the weak current industry which almost covers all aspects of life becomes an indispensable part of the intelligent city and the intelligent industry, and the development of the weak current industry has derived many functions so far, such as: remote switch control, data information acquisition, cooperation APP use etc..

The intelligent socket has the functions of switch control, temperature and humidity detection, 16A output and wifi transmission, and has the problems of unreasonable product volume, incomplete space utilization and the like; meanwhile, the wifi module, the relay and other circuit modules can generate a large amount of heat during normal operation, interrupted operation and faulty operation, so that the difference between the temperature and the humidity inside the socket and the environment is large, data is abnormal, the socket is easy to age when equipment is heated, electric equipment is burnt out, and fire disasters can be caused to cause loss of personnel and property in severe cases; difficulty in overhauling and disassembling the equipment and the like.

Therefore, one of the deficiencies in the related art is: technical schemes in the related art cannot realize effective heat dissipation of the intelligent socket.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problems that: technical schemes in the related art cannot realize effective heat dissipation of the intelligent socket.

In order to solve the above problems, the present invention provides a multifunctional wifi smart socket, which comprises: the front cover is provided with a first heat dissipation opening; the rear cover is matched and connected with the front cover and is provided with a second heat dissipation port; wherein, the junction of front cover and back lid still is equipped with at least one lateral part thermovent.

The effect that this embodiment can reach is: be equipped with first thermovent at smart jack's protecgulum, the back lid is equipped with the second thermovent, and smart jack's side is equipped with at least one lateral part thermovent, and a plurality of thermovents are made to a plurality of faces on smart jack, can solve smart jack serious problem that generates heat effectively.

In one embodiment of the present invention, a smart outlet includes: the temperature and humidity sensor is arranged in the intelligent socket and is used for measuring the environmental temperature and humidity; and the baffle is connected with the front cover and the rear cover in a matched manner, and the temperature and humidity sensor is isolated from other components in the intelligent socket by the baffle.

The effect that this embodiment can reach is: the baffle keeps apart temperature and humidity sensor and other components and parts in the smart jack, prevents that the heat that other components and parts in the smart jack distribute from influencing temperature and humidity sensor's sensing result, has improved temperature and humidity sensor's the sensing degree of accuracy.

In one embodiment of the utility model, at least one side heat dissipation port is arranged at one end, close to the temperature and humidity sensor, of the intelligent socket, and the space where the temperature and humidity sensor is located is communicated with the external space through the at least one side heat dissipation port.

The effect that this embodiment can reach is: the space that lateral part thermovent located temperature and humidity sensor communicates with external space, can help temperature and humidity sensor more accurately to sense smart jack's external environment humiture, also can help temperature and humidity sensor heat dissipation simultaneously.

In one embodiment of the present invention, a circuit board is disposed in the front cover, and the circuit board is provided with: the wifi module is used for wireless connection and data transmission; a relay; a transformer; and the control button is used for controlling the wifi module.

The effect that this embodiment can reach is: wifi module, relay, transformer and the control button that are equipped with in the smart jack make the smart jack possess a plurality of functions. Meanwhile, a plurality of components are integrated on the circuit board, so that the intelligent socket can utilize the space inside the equipment completely on the premise of realizing basic functions, the size of the equipment is reduced, and the intelligent socket is convenient to store and plug.

In one embodiment of the utility model, the at least one side heat dissipation opening comprises a third heat dissipation opening and a fourth heat dissipation opening, and the third heat dissipation opening and the fourth heat dissipation opening are oppositely arranged on two sides of the intelligent socket.

The effect that this embodiment can reach is: third thermovent and fourth thermovent set up in the smart jack both sides relatively, can make the air of third thermovent department and the air of fourth thermovent department form the convection current for circulation of air in the smart jack, and then strengthened smart jack's heat dissipation function, avoid the inside components and parts during operation of smart jack to produce a large amount of heats and lead to its data unusual, burn out equipment even and cause the conflagration.

In one embodiment of the utility model, the first heat dissipation opening is located close to the wifi module.

The effect that this embodiment can reach is: the wifi module accessible first thermovent dispels the heat, avoids the wifi module during operation overheated production potential safety hazard.

In one embodiment of the utility model, the third heat dissipation port is located close to the wifi module, and the fourth heat dissipation port is located close to the relay.

The effect that this embodiment can reach is: wifi module accessible third thermovent heat dissipation, relay accessible fourth thermovent heat dissipation is equipped with the thermovent near the more components and parts that generate heat, can help smart jack to dispel the heat effectively, avoids the heat to accumulate in its inside.

In one embodiment of the utility model, a three-pin metal insertion sheet is arranged outside the front cover, a metal elastic sheet connected with the three-pin metal insertion sheet is arranged in the front cover, and a socket corresponding to the metal elastic sheet is arranged on the rear cover.

The effect that this embodiment can reach is: three-pin metal inserted sheet and metal shrapnel can provide the electric energy for the components and parts in the smart jack, and the setting of socket can be for providing the inserted hole with electrical apparatus, and help smart jack realizes its function.

In an embodiment of the utility model, the first heat dissipation opening, the second heat dissipation opening and the at least one side heat dissipation opening are all elongated hollow structures arranged in parallel.

The effect that this embodiment can reach is: the heat dissipation opening in the intelligent socket is of a long strip-shaped hollow structure, the intelligent socket can be helped to improve the heat dissipation efficiency of the intelligent socket, the air inside and outside the intelligent socket can be rapidly circulated with the external air through the heat dissipation opening of the long strip-shaped hollow structure, and the problem of insufficient heat dissipation due to low heat dissipation efficiency is avoided.

In one embodiment of the utility model, the front cover and the rear cover are connected through the clamping groove, and the smart socket is provided with at least one screw hole at the joint of the front cover and the rear cover.

The effect that this embodiment can reach is: the front cover is connected with the rear cover through the clamping groove, the clamping groove is simple and stable in connection mode, and the intelligent socket is convenient to disassemble and maintain. The setting of screw hole has further improved smart jack overall structure's stability and fastness.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional wifi intelligent socket in an embodiment of the present invention;

fig. 2 is a side view of a multifunctional wifi smart socket of an embodiment of the present invention;

fig. 3 is a rear view of the multifunctional wifi smart socket of the embodiment of the present invention;

fig. 4 is a bottom view of the multifunctional wifi smart socket according to the embodiment of the present invention;

FIG. 5 is a schematic view of the internal structure of the front cover according to the embodiment of the present invention;

fig. 6 is a schematic view of the internal structure of the rear cover according to the embodiment of the present invention.

Description of the reference numerals:

100-a multifunctional wifi intelligent socket; 200-a front cover; 210-a temperature and humidity sensor; 220-a circuit board; 221-wifi module; 222-a relay; 223-a transformer; 224-control buttons; 230-three-pin metal insert; 240-metal shrapnel; 300-rear cover; 310-a baffle; 330-screw hole; 340-a socket; 400-side heat dissipation ports; 410-a first heat sink; 420-a second heat sink; 430-a third heat sink; 440-fourth heat dissipation port.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

[ first embodiment ] A method for manufacturing a semiconductor device

Referring to fig. 1 and 3, the present invention provides a multifunctional wifi smart socket, the smart socket 100 includes: the front cover 200, the front cover 200 has the first heat-dissipating vent 410; the rear cover 300, the rear cover 300 is connected with the front cover 200 in a matching way, and the rear cover 300 is provided with a second heat-radiating opening 420; wherein, at least one side heat-dissipating vent 400 is further provided at the junction of the front cover 200 and the rear cover 300.

In the present embodiment, the smart socket 100 includes a front cover 200 and a rear cover 300, and the front cover 200 is connected to the rear cover 300. The smart socket 100 is connected to the commercial power, and the electric appliance obtains electric energy by being inserted into the smart socket 100. The front cover 200 is one end of the smart jack 100 connected to the commercial power, and the rear cover 300 is one end of the smart jack 100 connected to the electrical appliance.

The front cover 200 is provided with a first heat vent 410, the rear cover 300 is provided with a second heat vent 420, and the junction of the front cover 200 and the rear cover 300 is further provided with at least one side heat vent 400. It should be noted that at least one side heat dissipation opening 400 is disposed at the connection position of the front cover 200 and the rear cover 300, and the side heat dissipation opening 400 may be disposed at a position on the front cover 200 close to the connection position of the front cover 200 and the rear cover 300; the side heat-radiating hole 400 may be formed at a portion of the rear cover 300 near the connection of the front cover 200 and the rear cover 300; or at the junction of the front cover 200 and the rear cover 300, that is, a part of the side heat-dissipating vent 400 is provided on the front cover 200, and another part of the side heat-dissipating vent 400 is provided on the rear cover 300.

Alternatively, the front cover 200 and the rear cover 300 are coupled by bolts.

Preferably, the front cover 200 is connected to the rear cover 300 in a card slot connection.

Preferably, the number of the side heat-radiating holes 400 is 3, and the side heat-radiating holes are respectively provided at three sides of the smart socket 100.

It can be understood that the front cover 200 of the smart socket 100 is provided with the first heat sink 410, the rear cover 300 is provided with the second heat sink 420, the side surface of the smart socket 100 is provided with at least one side heat sink 400, and a plurality of heat sinks are manufactured on a plurality of surfaces of the smart socket 100, so that the problem of serious heat generation of the smart socket 100 can be effectively solved.

[ second embodiment ] A

Referring to fig. 5 and 6, in one particular embodiment, the smart socket 100 includes: the temperature and humidity sensor 210 is arranged in the intelligent socket 100, and the temperature and humidity sensor 210 is used for measuring the environmental temperature and humidity; the baffle 310 is connected with the front cover 200 and the rear cover 300 in a matching manner, and the temperature and humidity sensor 210 is isolated from other components in the smart socket 100 by the baffle 310.

In this embodiment, the smart socket 100 includes a temperature and humidity sensor 210 and a baffle 310, where the temperature and humidity sensor 210 is used to measure ambient temperature and humidity, and the baffle 310 isolates the temperature and humidity sensor 210 from other components in the smart socket 100.

It should be noted that the baffle 310 includes at least 2 baffle sheets, one end of the baffle 310 is connected to the front cover 200, and the other end is connected to the rear cover 300, and the baffle 310 cooperates with the inner wall of the smart jack 100 to isolate the temperature and humidity sensor 210 from other components in the smart jack 100.

Alternatively, the baffle 310 is coupled to the front cover 200 and the rear cover 300 by bolts.

Preferably, the baffle 310 is connected with the front cover 200 and the rear cover 300 in a snap-fit manner.

Preferably, the smart socket 100 is provided on the front cover 200, and the barrier 310 is provided on the rear cover 300.

It can be understood that the baffle 310 isolates the temperature and humidity sensor 210 from other components in the smart socket 100, so as to prevent heat emitted by other components in the smart socket 100 from affecting the sensing result of the temperature and humidity sensor 210, thereby improving the sensing accuracy of the temperature and humidity sensor 210.

[ third embodiment ] A

Referring to fig. 4, 5 and 6, in a specific embodiment, one end of the smart socket 100 close to the temperature and humidity sensor 210 is provided with at least one side heat sink 400, and the space where the temperature and humidity sensor 210 is located is communicated with the external space through the at least one side heat sink 400.

In this embodiment, at least one side heat sink 400 is disposed at one end of the smart socket 100 close to the temperature/humidity sensor 210. The side heat dissipation vent 400 may be provided at a portion of the front cover 200 near a connection of the front cover 200 and the rear cover 300; the side heat dissipation port 400 may be provided at a portion of the rear cover 300 near a connection of the front cover 200 and the rear cover 300; or at the junction of the front cover 200 and the rear cover 300. The temperature and humidity sensor 210 is isolated from other components in the smart socket 100 by the baffle 310, and the space where the temperature and humidity sensor 210 is located is communicated with the external space through the side heat dissipation opening 400.

Understandably, the space where the temperature and humidity sensor 210 is located is communicated with the external space through the lateral heat dissipation opening 400, so that the temperature and humidity sensor 210 can be helped to more accurately sense the external environment temperature and humidity of the smart socket 100, and meanwhile, the temperature and humidity sensor 210 can also be helped to dissipate heat.

[ fourth example ] A

Referring to fig. 5, in a specific embodiment, a circuit board 220 is disposed in the front cover 200, and the circuit board 220 is provided with: the wifi module 221, the wifi module 221 is used for wireless connection and data transmission; a relay 222; a transformer 223; and a control button 224, wherein the control button 224 is used for controlling the wifi module 221.

In this embodiment, a circuit board 220 is disposed in the front cover 200, and the circuit board 220 is provided with: wifi module 221, relay 222, transformer 223, and control buttons 224.

Note that the circuit board 220 is not attached to the front cover 200. The wifi module 221 is used for providing wireless connection and data transmission for a user, the relay 222 and the transformer 223 are used for supporting the operation of the wifi module 221 and the temperature and humidity sensor 210, and the control button 224 is used for controlling the wifi module 221.

Preferably, the circuit board 220 is connected to the front cover 200 by a bolt.

It can be understood that the wifi module 221, the relay 222, the transformer 223 and the control button 224 are arranged in the smart socket 100, so that the smart socket 100 has a plurality of functions. Meanwhile, a plurality of components are integrated on the circuit board 220, so that the intelligent socket 100 can utilize the space inside the equipment completely on the premise of realizing basic functions, the size of the equipment is reduced, and the intelligent socket 100 can be stored and plugged conveniently.

[ fifth embodiment ]

Referring to fig. 1, 2 and 5, in a specific embodiment, the at least one side heat dissipation opening 400 includes a third heat dissipation opening 430 and a fourth heat dissipation opening 440, and the third heat dissipation opening 430 and the fourth heat dissipation opening 440 are oppositely disposed at both sides of the smart socket 100.

In the present embodiment, the at least one side heat dissipation opening 400 includes a third heat dissipation opening 430 and a fourth heat dissipation opening 440, and the third heat dissipation opening 430 and the fourth heat dissipation opening 440 are oppositely disposed at the junction of the front cover 200 and the rear cover 300 on the smart socket 100.

Understandably, the third heat dissipation opening 430 and the fourth heat dissipation opening 440 are oppositely arranged at two sides of the intelligent socket 100, so that the air at the third heat dissipation opening 430 and the air at the fourth heat dissipation opening 440 form convection, the air circulation in the intelligent socket 100 is accelerated, the heat dissipation function of the intelligent socket 100 is further enhanced, the phenomenon that a large amount of heat is generated during the working of the internal components of the intelligent socket 100 to cause data abnormality is avoided, and even equipment is burnt out to cause fire.

[ sixth embodiment ]

Referring to fig. 1 and 5, in one particular embodiment, the first heat sink 410 is located proximate to the wifi module 221.

In this embodiment, the first heat dissipating port 410 is disposed on the front cover 200, the position of the first heat dissipating port 410 on the front cover 200 corresponds to the position of the wifi module 221 on the circuit board 220, and the space where the wifi module 221 is located can be communicated with the external space through the first heat dissipating port 410.

Understandably, the wifi module 221 can radiate heat through the first heat dissipation opening 410, so that potential safety hazards caused by overheating of the wifi module 221 during working are avoided.

[ seventh embodiment ]

Referring to fig. 5, in a specific embodiment, the third heat dissipation opening 430 is located close to the wifi module 221, and the fourth heat dissipation opening 440 is located close to the relay 222.

In this embodiment, the third heat dissipation opening 430 and the fourth heat dissipation opening 440 are disposed at two opposite sides of the smart socket 100, and the wifi module 221 and the relay 222 are disposed on the circuit board 220. The wifi module 221 is located closer to the third heat sink 430 on the circuit board 220, and the relay 222 is located closer to the fourth heat sink 440 on the circuit board 220.

Understandably, the wifi module 221 can dissipate heat through the third heat dissipating port 430, the relay 222 can dissipate heat through the fourth heat dissipating port 440, and the heat dissipating ports are disposed near the components that generate more heat, so as to help the smart socket 100 to dissipate heat effectively and avoid heat accumulation inside the smart socket.

[ eighth embodiment ]

Referring to fig. 1, 3 and 5, in a specific embodiment, a three-pin metal insertion sheet 230 is disposed outside the front cover 200, a metal elastic sheet 240 connected to the three-pin metal insertion sheet 230 is disposed inside the front cover 200, and a socket 340 corresponding to the metal elastic sheet 240 is disposed on the rear cover 300.

In this embodiment, the three-pin metal insertion sheet 230 is connected to the mains supply, the circuit board 220 in the front cover 200 is provided with the metal elastic sheet 240, the metal elastic sheet 240 is connected to the three-pin metal insertion sheet 230, and the electric energy is transmitted to the components on the circuit board 220 through the three-pin metal insertion sheet 230, the metal elastic sheet 240 and the circuit board 220. The rear cover 300 is provided with a socket 340 corresponding to the metal elastic sheet 240, and the electric appliance is connected with the metal elastic sheet 240 through the socket 340, so as to obtain electric energy.

It can be understood that, the three-pin metal insertion sheet 230 and the metal elastic sheet 240 can provide electric energy for components in the smart socket 100, and the socket 340 can provide an insertion opening for electrical equipment, so as to help the smart socket 100 to realize functions thereof.

[ ninth example ] A

Referring to fig. 1, 2 and 3, in a specific embodiment, the first heat dissipating opening 410, the second heat dissipating opening 420 and the at least one side heat dissipating opening 400 are all elongated hollow structures arranged in parallel.

Understandably, the heat dissipation port in the intelligent socket 100 is a long strip-shaped hollow structure, so that the intelligent socket 100 can be helped to improve the heat dissipation efficiency, the heat dissipation port of the air inside and outside the intelligent socket 100 can be quickly circulated with the external air through the long strip-shaped hollow structure, and the problem of insufficient heat dissipation caused by low heat dissipation efficiency is avoided.

[ tenth embodiment ]

Referring to fig. 4, 5 and 6, in a specific embodiment, the front cover 200 and the rear cover 300 are connected by a card slot, and the smart socket 100 is provided with at least one screw hole 330 at the connection of the front cover 200 and the rear cover 300.

In this embodiment, the front cover 200 and the rear cover 300 are connected by a snap groove, and a plurality of snap grooves are provided at the connecting edge of the front cover 200 and the rear cover 300 to be engaged with each other. The smart socket 100 is provided with at least one screw hole 330 at a connection position of the front cover 200 and the rear cover 300, and the screw hole 330 is used to connect the front cover 200 and the rear cover 300.

It can be understood that the front cover 200 and the rear cover 300 are connected through the card slot, and the card slot connection mode is simple and stable, thereby facilitating the disassembly and maintenance of the smart socket 100. The screw holes 330 are further provided to improve the stability and firmness of the overall structure of the smart socket 100.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. A multifunctional wifi smart jack (100), characterized in that the smart jack (100) comprises:

the front cover (200), the said front cover (200) has first heat vents (410);

the rear cover (300) is matched and connected with the front cover (200), and the rear cover (300) is provided with a second heat dissipation opening (420);

wherein, the junction of the front cover (200) and the back cover (300) is also provided with at least one side heat-dissipating opening (400).

2. The smart jack (100) of claim 1, wherein the smart jack (100) comprises:

the temperature and humidity sensor (210) is arranged in the intelligent socket (100), and the temperature and humidity sensor (210) is used for measuring the temperature and the humidity of the environment;

the temperature and humidity sensor (210) is isolated from other components in the intelligent socket (100) through the baffle (310), the baffle (310) is connected with the front cover (200) and the rear cover (300) in a matched mode.

3. The smart socket (100) according to claim 2, wherein the at least one side heat dissipation opening (400) is disposed at an end of the smart socket (100) close to the temperature and humidity sensor (210), and a space where the temperature and humidity sensor (210) is located is communicated with an external space through the at least one side heat dissipation opening (400).

4. The smart jack (100) of claim 1, wherein the front cover (200) has a circuit board (220) disposed therein, the circuit board (220) having thereon:

the wifi module (221), the wifi module (221) is used for wireless connection and data transmission;

a relay (222);

a transformer (223);

a control button (224), the control button (224) for controlling the wifi module (221).

5. The smart jack (100) of claim 4, wherein the at least one side heat sink (400) comprises a third heat sink (430) and a fourth heat sink (440), the third heat sink (430) and the fourth heat sink (440) being disposed opposite each other on both sides of the smart jack (100).

6. The smart jack (100) of claim 4, wherein the first heat sink (410) is located proximate to the wifi module (221).

7. The smart jack (100) of claim 5, wherein the third heat sink (430) is located proximate to the wifi module (221) and the fourth heat sink (440) is located proximate to the relay (222).

8. The smart jack (100) according to any one of claims 1 to 7, wherein a three-pin metal insertion piece (230) is arranged outside the front cover (200), a metal elastic piece (240) connected with the three-pin metal insertion piece (230) is arranged inside the front cover (200), and a socket (340) corresponding to the metal elastic piece (240) is arranged on the rear cover (300).

9. The smart socket (100) according to any one of claims 1 to 7, wherein the first heat dissipation opening (410), the second heat dissipation opening (420) and the at least one side heat dissipation opening (400) are all elongated hollow structures arranged in parallel.

10. The smart jack (100) according to any one of claims 1 to 7, wherein the front cover (200) and the rear cover (300) are connected by a card slot, and the smart jack (100) is provided with at least one screw hole (330) at the connection of the front cover (200) and the rear cover (300).

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