CN103618178A - Zero-standby zero power consumption energy-saving socket - Google Patents

Abstract

The present invention provides an energy-saving socket with zero standby and zero power consumption, which includes a socket body and a main control socket set on the socket body. The socket body also includes an automatic switch relay JK1, a manual touch key switch _K1 , a power module and The current monitoring module, the signal conditioning module, the comparison module, the delay control module, the relay driver module and the _J1 relay wire package connected in sequence; the relay JK1 and the manual touch key switch K1 are connected in parallel and one end is connected to the entrance of the external circuit On the live wire L, the other end is respectively connected to the power module and the main control socket through the current monitoring module. The socket of the present invention controls the opening and closing of the JK1 relay through the signal transmission speed and function between each module and the J1 relay line package, thereby controlling the opening and closing of the main and auxiliary control sockets, thereby realizing energy saving and environmental protection in the true sense, and the The socket is convenient to use, safe and environment-friendly, and easy to popularize.

Description

An energy-saving socket with zero standby and zero power consumption

technical field

The invention belongs to the field of energy conservation and environmental protection, and relates to an energy-saving socket with zero standby and zero power consumption.

Background technique

With the widespread use of household appliances and office appliances, coupled with people's living habits of using electricity, the waste of electricity due to electrical standby is as high as 18 billion kWh every year, which is equivalent to the annual power generation of three Daya Bay nuclear power plants! In China, 1.2 billion kilowatt-hours of electricity is wasted every year by leaving monitors and printers on standby after get off work! The annual market demand for power sockets exceeds 100 million! In response to the "1 Watt Plan" advocated by the International Energy Agency (IEA), the State Council is also promoting the "Ten Ten Energy Conservation Projects" during the "Twelfth Five-Year Plan" period, including the Zero Standby and Zero Energy The call for "reducing standby energy consumption" put forward in the Five "Energy Saving and Emission Reduction National Action Plan" makes "energy saving" no longer a slogan. Through design, the performance of ordinary sockets is improved, and ordinary sockets are technologically innovated to better adapt to the needs of people's lives. Use requirements, its function of automatically turning off electrical appliances at the right time solves people's habits of using electricity, and solves problems such as "drones" and "long-time standby" from a technical level, which greatly saves electric energy and conforms to the future development trend of electrical appliances. , On this basis, its functions can be expanded in the future, and finally it can be developed in the direction of intelligent sockets and more design concepts can be proposed.

At present, the design of the zero-power socket of the prior art is to automatically cut off the power supply of the main control circuit and the auxiliary control electrical appliances after the main control circuit is powered off for a period of time, and this socket cannot realize real zero power consumption; and the prior art There are two ways to restore the electrical work: one is to use manual reset, and the other is to use the remote control to reset. The manual reset switch of the manual reset mode is integrated with the socket, and cannot be separated from the socket body, and cannot be placed in a convenient place for operation. The reset of the remote control not only has the standby energy consumption triggered by the remote control, but cannot truly achieve "zero power consumption", but also is not suitable for use in places without remote controls such as office areas.

Contents of the invention

According to the needs and deficiencies of the above fields, the present invention provides an energy-saving socket with zero standby and zero power consumption. The socket of the present invention is environmentally friendly, energy-saving, easy to use, and applicable to any place where sockets can be used.

Technical scheme of the present invention is as follows:

An energy-saving socket with zero standby and zero power consumption, comprising a socket body and a main control jack socket set on the socket body, characterized in that the socket body also includes an automatic switch relay JK1, a manual touch key switch K ₁ , a power module , a current monitoring module, a signal conditioning module, a comparison module, a delay control module, a relay driver module and a J1 relay wire package; the relay JK1 and the manual touch key switch K ₁ are connected in parallel and one end is connected to the fire wire L at the entrance of the external circuit , the other end is respectively connected to the power module and the main control socket through the current monitoring module; the current monitoring module is connected to the signal conditioning module, the comparison module, the delay control module, the relay driver module and the J1 relay wire package in sequence.

The power supply module is used to provide a stable low voltage for the energy-saving control system; the current monitoring module is connected to the signal conditioning module for monitoring the working current of the electrical appliances on the socket; the signal conditioning module is connected to the current The monitoring module and the comparison module are used to rectify and filter the current signal detected by the current monitoring module; the comparison module is connected to the signal conditioning module and the delay control module, and is used to combine the current signal rectified and filtered by the signal conditioning module with the The set value is compared to obtain the current signal of the working state of the electrical appliance; the delay control module is connected to the comparison module and the relay drive module, and is used to make the delay circuit work and stop the delay circuit according to the current signal of the electrical working state obtained by the comparison module. Work, or send a signal that the electrical appliance is not powered on or in a standby state; the relay drive module is connected to the delay control module and the J1 relay wire package, and is used to drive the current of the J1 relay wire package, thereby controlling the opening and closing of the relay JK1; The J1 relay line pack is connected to the relay drive module for controlling the opening and closing of the relay JK1.

The main control socket is a three-hole main control socket.

It also includes one or more auxiliary control sockets arranged in parallel with the power supply module.

It also includes a normally-connected socket, which is a three-hole socket, and is connected in parallel with the power module through the relay JK1 or the manual touch key switch _K1 .

The manual touch key switch K ₁ is located outside the socket body, and the manual touch key switch K ₁ is connected to the socket body through wires.

The socket sockets on the socket body are all three-hole socket sockets, and the three-hole socket sockets and the power module are connected with live wire L, neutral wire N, and ground wire G respectively drawn out from the plug.

The beneficial effects of socket of the present invention are:

The socket of the present invention controls the opening and closing of the JK1 relay through the power supply module, the current monitoring module, the signal conditioning module, the comparison module, the delay control module, the relay drive module and the signal transmission speed and function between the J1 relay wire package, thereby controlling the main The opening and closing of the auxiliary control jack seat, so as to realize the real sense of energy saving and environmental protection;

The main and auxiliary control jack sockets in the socket of the present invention are connected to the live wire L, the neutral wire N, and the ground wire G respectively drawn out from the plug, and the main control socket is directly connected in series with the current detection module. In the present invention, by monitoring the main Control the working status of the electrical appliances on the control socket to control the opening and closing of the entire energy-saving system, thereby also controlling the power consumption of all auxiliary control sockets;

The normally open socket in the socket of the present invention is connected in parallel with the power supply module through the relay JK1 and/or the manual touch key switch _K1 , and the opening and closing of the normally open socket is only controlled by the external power supply circuit of the source and is not subject to any switch Or/and the impact of the energy-saving control system at the other end, so it can be used as a normally-connected socket for refrigerators and other electrical appliances that cannot be powered off; it is easy to use, safe and environmentally friendly;

The manual touch key switch K ₁ of the present invention can have a certain distance from the _socket body, when the socket body is installed on the ground, on a table, etc. place of operation.

Description of drawings

FIG. 1 is a schematic diagram of the internal composition and principle of a preferred socket of the present invention, wherein, 1 is a manual touch key switch K ₁ .

Detailed ways

The following examples are provided in order to further understand the present invention better, are not limited to the best implementation mode, and do not limit the content and protection scope of the present invention, anyone under the inspiration of the present invention or use the present invention Any product identical or similar to the present invention obtained by combining features of other prior art falls within the protection scope of the present invention.

The manual touch key switch K ₁₁ involved in the present invention, when the button or the trigger point is manually touched or pressed, the switch K ₁ 1 is turned on, and when the hand leaves the button or the trigger point, the switch K ₁ 1 is turned off or disconnected.

Fig. 1 is a schematic diagram of the internal composition and principle of a zero-standby, zero-power consumption energy-saving socket according to the present invention. As shown in Figure 1, the zero-standby, zero-power consumption energy-saving socket of the present invention includes a socket body and a main control socket set on the socket body, and is characterized in that the socket body also includes an automatic switch relay JK1, a manual touch key switch K ₁ 1, power supply module, current monitoring module, signal conditioning module, comparison module, delay control module, relay driver module and J1 relay wire package; the relay JK1 and manual touch key switch K ₁ 1 are connected in parallel and one end is connected to On the fire wire L at the entrance of the external circuit, the other end is respectively connected to the power module and the main control jack socket through the current monitoring module; the current monitoring module and the signal conditioning module, the comparison module, the delay control module, the relay driver module and the J1 relay The wire packs are connected sequentially.

The power module is used to provide stable low voltage for the energy-saving control system;

The current monitoring module is connected to the signal conditioning module for monitoring the working current of the electrical appliances on the three-hole socket;

The signal conditioning module is connected to the current monitoring module and the comparison module, and is used to rectify and filter the current signal detected by the current monitoring module;

The comparison module is connected to the signal conditioning module and the delay control module, and is used to compare the rectified and filtered current signal of the signal conditioning module with the set value, so as to obtain the current signal of the working state of the electrical appliance;

The delay control module is connected to the comparison module and the relay drive module, and is used to make the delay circuit work or not work according to the current signal of the electrical appliance working state obtained by the comparison module, or to send a signal that the electrical appliance is not turned on or in a standby state;

The relay drive module is connected to the delay control module and the J1 relay wire pack, and is used to drive the current of the J1 relay wire pack, thereby controlling the opening and closing of the relay JK1;

The J1 relay line pack is connected to the relay drive module for controlling the opening and closing of the relay JK1.

Preferably, the master socket is a three-hole master socket.

Preferably, the zero-standby, zero-power consumption energy-saving socket of the present invention further includes one or more three-hole auxiliary control sockets arranged in parallel with the power module.

Preferably, the zero-standby, zero-power consumption energy-saving socket of the present invention further includes a normally-connected socket, the normally-connected socket is a three-hole socket, through which the relay JK1 or the manual touch key switch _K1 1 is connected in parallel with the power module.

Preferably, the manual touch key switch K ₁ 1 of the zero-standby, zero-power consumption energy-saving socket of the present invention is located outside the socket body, and the manual touch key switch K ₁ 1 is connected to the socket body through wires.

The socket sockets on the socket body are all three-hole socket sockets, and the three-hole socket sockets and the power module are connected with live wire L, neutral wire N, and ground wire G respectively drawn out from the plug.

The shell of the socket body is made of insulating material, which is energy-saving, environmentally friendly, safe and convenient.

The lengths of the wires connecting the manual touch key switch K ₁ 1 and the socket body are in various specifications and are easy to use. The lengths of the plug wires are of various specifications and are convenient to use.

The appearance of the manual touch key switch K ₁ 1 can be in various shapes to meet the needs of different consumer groups.

In the socket of the present invention, the working mode of each electrical component is as follows: when the manual touch key switch K ₁ 1 is pressed, the 220V power supply is switched on, and the power module starts to generate a stable low voltage, and the current monitoring module, signal conditioning module, and comparison module , delay control module, relay drive module, etc. start to work, and finally make the JK1 relay pull in. The main control socket ④, the auxiliary control socket ③ and the auxiliary control socket ② are powered on and can be installed on the main control socket ④, the auxiliary control socket ③ and the auxiliary control socket ② electrical appliances.

When the electrical appliance installed on the main control socket ④ is in the power-on or normal working state, the current monitoring module monitors the working current of the electrical appliance on the main control socket ④, and rectifies and filters the signal through the signal conditioning module, then passes After the comparison module compares with the set value, it outputs the signal of normal operation of the electrical appliance, the delay circuit in the delay control module does not work, the relay drive module normally drives the wire package of the J1 relay, and the JK1 relay pulls in, making the circuit in a working state. The main control socket ④, the auxiliary control socket ③ and the auxiliary control socket ② are powered on, and the electrical appliances work normally.

When the electrical appliance installed on the main control socket ④ is not turned on or is in the standby state, the current monitoring module detects that the operating current of the electrical appliance on the main control socket ④ is lower than the normal working current, and rectifies the signal through the signal conditioning module 1. After filtering, the comparison module compares with the set value to output a signal that the electrical appliance is not turned on or in a standby state, and the delay circuit in the delay control module starts to work. If the electric appliance is still not turned on or in the standby state within the set time, a signal that the electric appliance is not turned on or in the standby state is sent to the relay driving module. After the relay driver module receives the signal that it is not powered on or in the standby state, it cuts off the current on the J1 relay wire package, thereby controlling the JK1 relay to make it disconnect. There is no power on the main control socket ④②, the auxiliary control socket ③ and the auxiliary control socket ②, and the electrical appliances on them are in a state of zero standby power consumption.

The normally-connected socket ① is always in a state of power, which is suitable for equipment that cannot be powered off.

Sockets are generally placed on the ground, under the table, behind the cabinet or other places that are inconvenient for personnel to operate and have better concealment. The present invention draws out the manual touch key switch K ₁ 1 and places them separately, which can be placed on a convenient touch place, easy to touch.

The energy-saving system in the present invention can detect the working state of the electrical appliances on the main and auxiliary control sockets, no matter whether the electrical appliances are in normal operation, standby or shutdown, and can be detected, and the detected signals are transmitted to J1 step by step Relay wire package, so as to control the automatic switch JK1 relay, and then control the opening and closing of the main and auxiliary control sockets. The socket of the present invention only needs to touch the manual touch key switch K11 when it is first used, and the opening and closing of the back is completely controlled by the use status of the electrical appliances on the main control 1, which can truly realize energy saving and zero power consumption, and is safe, environmentally friendly, Easy to use, easy to popularize.

Claims (7)

1. a zero standby zero-power-consumption energy-saving socket, comprises the main control plug jack seat arranging on jack body and jack body, it is characterized in that, also comprises automatic switch relay J K1, manual touch controlled key K switch in this jack body ₁, power module, current monitoring module, signal condition module, comparison module, time delay control module, relay driving module and J1 relay line bag; Described relay J K1 and manually touch controlled key K switch ₁the live wire L that rear one end in parallel is connected to external circuits entrance is upper, and the other end connects respectively power module and connects main control plug jack seat by current monitoring module; Described current monitoring module and signal condition module, comparison module, time delay control module, relay driving module and J1 relay line bag are linked in sequence.

2. zero standby zero-power-consumption energy-saving socket according to claim 1, is characterized in that, described power module is used to described energy-saving control system that stable low pressure is provided; Described current monitoring module connects described signal condition module, for monitoring the operating current of electrical equipment on described jack base; Described signal condition module connects current monitoring module and comparison module, for the current signal that current monitoring module is detected, carries out rectification and filtering; Described comparison module connects signal condition module and time delay control module, for the rectification of signal condition module and filtered current signal and set point are compared, thereby obtains the current signal of electrical appliance operating state; Described time delay control module connects comparison module and relay driving module, for making delay circuit work, do not work according to the current signal of the electrical work state of comparison module gained, or sends electrical equipment in the signal of start or holding state not; Described relay driving module connects time delay control module and J1 relay line bag, for driving the electric current of J1 relay line bag, thus the folding of control relay JK1; Described J1 relay line bag connects described relay driving module, for the folding of control relay JK1.

3. zero standby zero-power-consumption energy-saving socket according to claim 1, is characterized in that, described main control plug jack seat is three hole main control plug jack seats.

4. zero standby zero-power-consumption energy-saving socket according to claim 1, is characterized in that, also comprises the one or more secondary control jack base being arranged in parallel with described power module.

5. zero standby zero-power-consumption energy-saving socket according to claim 1, is characterized in that, also comprise a normal open jack base, described normal open jack base is three hole jack bases, by described relay J K1 or described manual touch controlled key K switch ₁be in parallel with described power module.

6. zero standby zero-power-consumption energy-saving socket according to claim 1, is characterized in that described manual touch controlled key K switch ₁be positioned at the outside of described jack body, described manual touch controlled key K switch ₁be connected by wire with jack body.

7. zero standby zero-power-consumption energy-saving socket according to claim 1, it is characterized in that, jack base on described jack body is three hole jack bases, and described three hole jack bases are connected with the live wire L being drawn by plug respectively, zero line N, ground wire G with described power module.

Images