CN217158851U - Socket with improved structure - Google Patents

Abstract

The embodiment of the application provides a socket. The socket includes: the shell is provided with a jack, and the jack is used for plugging load equipment; the sensor is located inside the shell, and under the condition that the jack is plugged into the load equipment, the sensor is used for controlling the power supply equipment to disconnect a circuit for supplying power to the load equipment when detecting that the environmental information meets the preset condition. According to the socket of the embodiment of the application, the power supply circuit can be controlled by sensing the environmental information through the sensor, and the power consumption waste is avoided.

Description

Socket with improved structure

Technical Field

The application belongs to the technical field of smart sockets, and particularly relates to a socket.

Background

At present, along with the large-area construction of an internet, the scale of a machine room is continuously enlarged, and power utilization equipment is also continuously increased. In the electricity consumption concentration area, the number of sockets is large, and the connected electricity consumption equipment consumes power all the time. Therefore, the socket capable of timely switching on and off the power supply becomes a popular choice.

The problem of remote control can be solved to current smart jack, but need the manual break-make of carrying out operation control socket power supply, when the user forgets to carry out relevant operation, cause the long-time work of electrical apparatus easily, and then cause the power consumption extravagant.

Disclosure of Invention

The embodiment of the application provides a socket, can control the break-make of power supply through the perception device, avoids the power consumption extravagant.

In a first aspect, an embodiment of the present application provides a socket, including:

the shell is provided with a jack, and the jack is used for plugging load equipment;

the sensor is positioned in the shell, one end of the sensor can be electrically connected with the power supply equipment, and the other end of the sensor is electrically connected with the jack of the socket; under the condition that the jack is plugged in the load equipment, the sensor is used for controlling the power supply equipment to disconnect a circuit for supplying power to the load equipment when detecting that the environmental information meets the preset condition.

The socket of this application embodiment can detect environmental information through the inside sensor of socket, and when environmental information did not satisfy the preset condition, the sensor was in the state of opening circuit, and corresponding supply circuit also was in the state of opening circuit, stopped the power supply, has avoided load equipment's power consumption extravagant.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments of the present application will be briefly described below, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a socket according to an embodiment of the present disclosure;

FIG. 2 is a functional circuit diagram according to an embodiment of the present disclosure;

FIG. 3 is a functional circuit schematic provided by an embodiment of the present application;

FIG. 4 is a functional circuit schematic provided by an embodiment of the present application;

FIG. 5 is a functional circuit schematic provided by an embodiment of the present application;

FIG. 6 is a functional circuit schematic provided by an embodiment of the present application;

FIG. 7 is a functional circuit schematic provided by an embodiment of the present application;

fig. 8 is a schematic view of a socket according to an embodiment of the present disclosure.

Detailed Description

Features of various aspects and exemplary embodiments of the present application will be described in detail below, and in order to make objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are intended to be illustrative only and are not intended to be limiting. It will be apparent to one skilled in the art that the present application may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the present application by illustrating examples thereof.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

At present, the intelligent socket on the market can solve the problem of remote control, but operates by a user when in use, and when the user forgets to turn off a power supply, the electric appliance is still in a use state, so that electricity consumption is wasted.

In order to solve the problem of the prior art, the embodiment of the application provides a socket. The following describes a socket provided in an embodiment of the present application.

Fig. 1 shows a block diagram of a socket provided in an embodiment of the present application. As shown in fig. 1, the socket includes:

the housing 110 is provided with a jack 130 for plugging a load device.

The jacks arranged on the shell are a plurality of national standard jacks and are used for plugging load equipment through plugs.

A sensor 120, which is located inside the housing, one end of the sensor is electrically connected to the power supply device 140, and the other end of the sensor is electrically connected to the jack of the socket; in the case where the jack is plugged into the load device 150, the sensor is configured to control the power supply device to disconnect the circuit for supplying power to the load device when detecting that the environmental information satisfies the preset condition.

The sensor can be a human body, infrared or light ray detection module, one end of the sensor is electrically connected with the power supply equipment, and the other end of the sensor is electrically connected with the jack of the socket. Under the condition that the load equipment is plugged in the jack, when the sensor detects that the environmental information meets the preset condition, specifically, when the sensor detects that no person moves and no light changes exist in the sensing area, the sensor is changed into a circuit breaking state, and the power supply equipment cannot supply power to the load equipment plugged in the jack, namely, the disconnection of a power supply circuit is controlled.

The socket that this application embodiment provided can detect environmental information through the inside sensor of socket, and when environmental information did not satisfy the preset condition, the sensor was in the state of opening circuit, and corresponding supply circuit also was in the state of opening circuit, stopped the power supply, has avoided load equipment's power consumption extravagant.

In some embodiments, the power supply is a power supply and the sensor is connected to a hot wire of the power supply. The power supply comprises a live wire, a zero wire and a ground wire. The sensor is connected in series with the power supply original live wire.

In some embodiments, the socket further comprises: and one end of the first switch 160 is connected with the sensor, and the other end of the first switch is connected with the jack, so that a user can control the on-off of a circuit for supplying power to the load equipment by the power supply equipment. When the switch is in a closed state, the on-off of a circuit for supplying power to the jack by the power supply source is controlled by determining whether the information detected by the sensor meets a preset condition; when the switch is disconnected, the circuit for supplying power to the jack by the power supply source is always in a disconnected state, and the load equipment cannot be supplied with power. Wherein the state of the switch is controlled by the user.

In some embodiments, the receptacle further comprises: and two ends of the second switch 170 are respectively connected with two ends of the sensor, and are used for controlling the on-off of a circuit for supplying power to the load equipment by the power supply equipment by a user. Two ends of the second switch are respectively connected with two ends of the sensor, and the second switch and the sensor are in a parallel connection state at the moment. When the second switch is in a closed state or the sensor detects that the environmental information does not meet the preset condition, namely when the second switch is in the closed state or the sensor is in a path state, the circuit for supplying power to the jack by the power supply is a path, and at the moment, the power supply can supply power to the load equipment on the jack; when the second switch is turned off and the sensor detects that the environmental information meets the preset condition, namely the second switch is in the off state and the sensor is in the state, the circuit for supplying power to the jack by the power supply source is in an open circuit state, and at the moment, the power supply source cannot supply power to the load equipment on the jack.

In some embodiments, the socket further comprises: the second load device 210 is connected with one end of the sensor, and the sensor is further used for controlling the power supply device to disconnect a circuit for supplying power to the second load device; or the second load equipment is connected with one end of the first switch connecting jack, and the sensor is also used for controlling the power supply equipment to disconnect the circuit for supplying power to the second load equipment. The second load device is a remote electric device which is powered out by the socket. When the second load equipment is connected with one end of the sensor and the environmental information detected by the sensor meets the preset condition, controlling the power supply equipment to disconnect a circuit for supplying power to the second load equipment; and when the environmental information detected by the sensor does not meet the preset condition, controlling the power supply equipment to switch on a circuit for supplying power to the second load equipment. When the second load equipment is connected with one end of the connecting jack of the first switch, if the first switch is in a closed state, the sensor detects that the environmental information meets the preset condition, the circuit for supplying power to the second load equipment by the power supply source is in an on state, the circuit for supplying power to the second load equipment by the power supply source does not meet the preset condition, and the circuit for supplying power to the second load equipment by the power supply source is in an off state. And if the first switch is in the off state, the circuit for supplying power to the second load equipment by the power supply source is in the off state. Wherein the state of the first switch is controlled by a user.

In some embodiments, when the second load device is connected to one end of the sensor, there is also a second switch, and the second switch and the sensor are in parallel. When the second switch is in a closed state or the sensor detects that the environmental information does not meet the preset condition, namely when the second switch is in the closed state or the sensor is in an access state, the circuit for supplying power to the second load equipment by the power supply source is an access, and at the moment, the power supply source can supply power to the second load equipment; when the second switch is turned off and the sensor detects that the environmental information meets the preset condition, namely the second switch is in an off state and the sensor is in a state, the circuit for supplying power to the second load equipment by the power supply source is in an open circuit state, and at the moment, the power supply source cannot supply power to the second load equipment.

In some embodiments, the socket includes: one end of the first switch is connected with the sensor, and the other end of the first switch is connected with the jack and used for controlling the power supply equipment to switch on and off a power supply circuit of the load equipment by a user; the two ends of the second switch are respectively connected with the two ends of the sensor and used for controlling the on-off of a circuit for supplying power to the load equipment by the power supply equipment by a user; the second load equipment is connected with one end of the sensor, and the sensor is also used for controlling the power supply equipment to disconnect a circuit for supplying power to the second load equipment; or the second load equipment is connected with one end of the first switch connecting jack, and the sensor is also used for controlling the power supply equipment to disconnect the circuit for supplying power to the second load equipment; the electric wire connection installation position comprises at least three installation positions and is used for enabling the socket to be connected with different functional circuits through selecting different installation positions by a user, and each functional circuit comprises a sensor, a first switch, a second switch, second load equipment and a jack. The socket comprises three power supply circuits, and when a user uses the socket, the user selects one wire installation position of the socket each time to realize the function corresponding to the selected installation position.

A power supply circuit is shown in fig. 2, and includes a power supply line, a neutral line, a ground line, a sensor, a switch, a two-hole jack and a three-hole jack. Wherein the switch is a first switch. One end of the sensor is connected with a live wire of the power supply, one end of the sensor is connected with the first switch and the second load equipment, and the grounding end of the sensor is connected with a ground wire of the power supply. The other end of the first switch is connected with the L holes of the two-hole jack and the three-hole jack. And the N holes of the two-hole jack and the three-hole jack are respectively connected with a zero line of a power supply source, and the upper jack of the three-hole jack is connected with a ground wire of the power supply source. At this time, the sensor simultaneously controls the power supply of the jack and the second load device, and the first switch further controls the power supply of the jack.

A power supply circuit is shown in fig. 3, and includes a power supply line, a neutral line, a ground line, a sensor, a switch, a two-hole jack and a three-hole jack. Wherein the switch is a first switch. One end of the sensor is connected with a live wire of the power supply, one end of the sensor is connected with the first switch, and the grounding end of the sensor is connected with a ground wire of the power supply. The other end of the first switch is connected with the second load equipment, the two-hole jack and the L hole of the three-hole jack. The two-hole jack and the three-hole jack are respectively connected with a zero line of a power supply, wherein the upper jack of the three-hole jack is connected with a ground wire of the power supply. At the moment, the sensor and the first switch jointly control the power supply of the second load equipment and the jack, and the second load equipment and the jack are powered only when the sensor is in the on state and the switch is in the off state.

A power supply circuit is shown in FIG. 4, and includes a power supply line, a neutral line, a ground line, a sensor, a switch, a two-hole jack and a three-hole jack. Wherein the switch is a second switch. One end of the sensor is connected with a live wire of the power supply, the grounding end of the sensor is connected with a ground wire of the power supply, and one end of the sensor is connected with the second load equipment, the L holes of the two-hole jacks and the L holes of the three-hole jacks. The second switch is connected in parallel with the sensor. The two-hole jack and the three-hole jack are respectively connected with a zero line of a power supply, wherein the upper jack of the three-hole jack is connected with a ground wire of the power supply. At the moment, the sensor and the second switch jointly control the power supply of the second load equipment and the jack, and the power supply of the second load equipment and the jack can be disconnected only when the sensor is in an open circuit state and the second switch is also in an off state.

In some embodiments, the first switch and the second switch are ordinary switches or timed switches. When the first switch and the second switch are timing switches, a user can set the switch effective time to enable the first switch and the second switch to be switched off or on after the preset time, and other functions of the timing switches are the same as those of common switches.

In some embodiments, the socket further comprises a fuse 180, one end of the fuse is connected to the second load device, and the other end of the fuse is connected to one end of the sensor or one end of the first switch connection jack, for disconnecting the circuit for supplying power to the second load device from the power supply device when the current of the circuit for supplying power to the second load device from the power supply device exceeds a preset threshold. When the supply current of the socket to the outside or the inside exceeds a threshold value, the fuse is fused. The position of the fuse in the power supply circuit is shown in fig. 5, 6, and 7.

In some embodiments, the receptacle comprises: at least one of a three-hole jack, a two-hole jack, and a Universal Serial Bus (USB) interface. The jacks on the socket can be a combination of three-jack jacks, two-jack jacks and a USB, and the number of each jack can be set without limitation.

In some embodiments, the receptacle further comprises: and the display area is positioned on the shell and is used for displaying the state of the fuse. When the power supply current of the socket to the outside or the inside is overlarge and exceeds a threshold value, the fuse is fused, the color of the fuse display area is changed, such as blacking and reddening, or the fuse is visually displayed to be fused through the display area. Thereby protecting the whole circuit from being burnt out due to short circuit. For example, the display area may be a transparent display area.

In some embodiments, the structure of the socket is schematically shown in fig. 8, and includes a sensing area 1, a switch area 2, a jack area 3, an insurance display area 4 and a function selection area 5.

In some embodiments, the receptacle includes a rear housing, a decorative mechanism removably coupled to the rear housing, and a power-on mechanism removably coupled to the rear housing. The decoration mechanism comprises a panel and a decoration ring, and the decoration ring is detachably connected with the rear shell and is positioned on one side of the rear shell; the panel and the decorative ring are detachably connected and are positioned on one side of the decorative ring away from the rear shell. Wherein, the panel has the insertion hole, and the insertion hole is located the panel and keeps away from the side of decorating the circle.

The socket that this application embodiment provided can detect environmental information through the sensor, when environmental information does not satisfy the preset condition, can the automatic disconnection power supply unit's connection, is that the load of connecting on the socket is in the off-state, has avoided the power consumption extravagant.

As described above, only the specific embodiments of the present application are provided, and it can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the system, the module and the unit described above may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again. It should be understood that the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the present application, and these modifications or substitutions should be covered within the scope of the present application.

Claims (11)

1. A socket, comprising:

the plug jack is arranged on the shell and used for plugging load equipment;

the sensor is positioned in the shell, one end of the sensor can be electrically connected with power supply equipment, and the other end of the sensor is electrically connected with the jack of the socket; under the condition that the jack is plugged with the load equipment, the sensor is used for controlling the power supply equipment to cut off a circuit for supplying power to the load equipment when detecting that the environmental information meets the preset condition.

2. The socket of claim 1, wherein the power supply is a power supply and the sensor is connected to a hot wire of the power supply.

3. The receptacle of claim 2, further comprising:

and one end of the first switch is connected with the sensor, and the other end of the first switch is connected with the jack, and the first switch is used for controlling the on-off of a circuit for supplying power to the load equipment by the power supply equipment by a user.

4. The receptacle of claim 2, further comprising:

and two ends of the second switch are respectively connected with two ends of the sensor and used for controlling the on-off of a circuit for supplying power to the load equipment by the power supply equipment by a user.

5. The receptacle of claim 3, further comprising:

and the second load equipment is connected with one end of the first switch, which is connected with the jack, and the sensor is also used for controlling the power supply equipment to disconnect the circuit for supplying power to the second load equipment.

6. The receptacle of claim 4, further comprising:

and the second load equipment is connected with one end of the sensor, and the sensor is also used for controlling the power supply equipment to disconnect the circuit for supplying power to the second load equipment.

7. The receptacle of claim 2, comprising:

one end of the first switch is connected with the sensor, and the other end of the first switch is connected with the jack and used for controlling the on-off of a power supply circuit of the power supply equipment for the load equipment by a user;

the two ends of the second switch are respectively connected with the two ends of the sensor and used for controlling the on-off of a circuit for supplying power to the load equipment by the power supply equipment by a user;

the second load equipment is connected with one end of the sensor, and the sensor is also used for controlling the power supply equipment to disconnect a circuit for supplying power to the second load equipment;

or

The second load equipment is connected with one end of the first switch, which is connected with the jack, and the sensor is also used for controlling the power supply equipment to disconnect the circuit for supplying power to the second load equipment;

the electric wire connection installation position comprises at least three installation positions and is used for enabling the socket to be connected with different functional circuits through selecting different installation positions by a user, and each functional circuit comprises a sensor, a first switch, a second switch, second load equipment and a jack.

8. The receptacle of claim 7, wherein the first switch and the second switch are normal switches or timed switches.

9. The socket of claim 7, further comprising a fuse, one end of the fuse being connected to the second load device, the other end of the fuse being connected to one end of the sensor, or one end of the first switch being connected to the jack, for disconnecting the circuit of the power supply device for supplying power to the second load device when the current of the circuit of the power supply device for supplying power to the second load device exceeds a preset threshold.

10. The receptacle of claim 7, wherein the receptacle comprises: at least one of a three-hole jack, a two-hole jack, and a Universal Serial Bus (USB) interface.

11. The receptacle of claim 9, further comprising:

a display area on the housing for displaying a state of the fuse.

Images