CN201601354U - Infrared remote control energy-saving socket - Google Patents

Abstract

The utility model relates to an infrared remote control energy-saving socket, which comprises a socket casing, a main load jack and pluralities of auxiliary load jacks. The main load jack is electrically connected with a main load circuit, the auxiliary load jacks are electrically connected with an auxiliary load circuit, the main load circuit is electrically connected with a main load relay, the auxiliary load circuit is electrically connected with an auxiliary load relay, and the main load relay is electrically connected with the auxiliary load relay. The infrared remote control energy-saving socket further comprises an infrared remote controller and an infrared receiving module, wherein the infrared receiving module is electrically connected with the main load relay, and the infrared receiving module comprises a single chip microcomputer storage module, an infrared receiving module and a single chip microcomputer comparison module.

Description

The energy-conservation socket of a kind of infra-red remote control

Technical field

The utility model relates to a kind of socket, is meant a kind of socket that comprises infrared remote controller and infrared ray receiver module especially.

Background technology

Along with the progress of society, the living electric apparatus product that electrifing degree is more and more higher has progressed in people's the life, and the electrified product of this class makes the energy resource consumption of whole society also be geometric growth when being convenient for people to live.So how to utilize the energy, especially electric power resource to become instant problem efficiently.It all has electric power connection line aforesaid this series products, electric power connection line is plugged on the externally fed socket when in use, partial circuit energising work in the electric equipment products this moment, and the work of also not switching on of the main circuit in the electric equipment products, afterwards the user need be behind the start switch in starting electric equipment products whole electric equipment products just enter into the state of operate as normal.Such as for the TV with remote-controlled start-up function, air-conditioning or other products, its inside all is provided with the electronic circuit of keeping the remote-controlled start-up function, this part circuit and external circuit are in connected state for a long time, reaching the state that keeps this part electronic circuit energising, thereby can receive index signal from the outside.Yet such execution mode can expend a large amount of electric power resources for no reason.Now in people's living environment, there is a large amount of equipment to adopt aforesaid working method.People's ordinary practice is in some electric equipment products are put together use in concrete practice, an and shared power supply base, such as, people get used to television set and relevant video tape recorder, stereo set or other equipment put together use, these auxiliary devices can provide some additional functions of use when people use television set, such as better acoustics being provided or providing some to play the function of videotape, and people are in shutdown, usually the power supply of just getting used to the closing television machine, other equipment then is in for a long time electric holding state, and this execution mode need expend a large amount of electric power resources.In addition, another relatively typical example puts together use with equipment such as printer, scanner and computer usually for people, and in shutdown, people often only get used to closing the power supply of computer, and other equipment then is in for a long time electric holding state.

Summary of the invention

The utility model provides a kind of infra-red remote control energy-conservation socket, and it comprises infrared remote controller and infrared ray receiver module, thereby can make things convenient for the user to operate, and this is a main purpose of the present utility model.

The technical scheme that the utility model adopted is: the energy-conservation socket of a kind of infra-red remote control, it comprises Socket casing, main load jack and some secondary load jacks.This main load jack and some should being successively set on this Socket casing by pair load jack.This main load jack has plug insertion, and each should all have plug insertion by pair load jack.This main load jack is electrically connected with main load circuit, and this pair load jack is electrically connected with secondary load circuit.

When in use, the user need insert main electrical equipment this main load circuit, this electric appliances is more typically such as television set, computer or the like, simultaneously, the user need insert peripheral ancillary apparatus this pair load circuit, this class periphery ancillary apparatus is more typically such as putting equipment, playback equipment or the like with the matching used stereo set of television set, public affairs, perhaps with the matching used stereo set of computer, printing device or the like.

This main load circuit and this pair load circuit are independently of one another, are connected in parallel between this pair load circuit.This main load circuit is electrically connected with main load-relay, and this pair load circuit is electrically connected with secondary load-relay.This main load-relay is electrically connected with this pair load-relay.

In the time of work, when main electrical equipment inserts in this main load circuit, the user starts the switch of main electrical equipment, this moment, this main load-relay is connected in the time of main electric power supply, by the operation principle of relay, time-delay 5-8 should start by the pair load-relay second, and connects to peripheral ancillary apparatus power supply.

And when the user closed main electrical equipment, this main load-relay quit work, and time-delay 5-8 should quit work by the pair load-relay second, and stopped to eliminate the purpose that electric appliance standby expends electric power resource to peripheral ancillary apparatus power supply thereby reach.One end of aforesaid this Socket casing is connected with power outlet, and this power outlet is electrically connected with external circuit.

The energy-conservation socket of this infra-red remote control of the present utility model also comprises infrared remote controller and infrared ray receiver module, wherein, this infrared ray receiver module is arranged in this Socket casing, this infrared ray receiver module is electrically connected with this main load-relay, this infrared ray receiver module comprises the single-chip microcomputer memory module, infrared ray receiver module and single-chip microcomputer comparing module, this infrared ray receiver module and this single-chip microcomputer memory module form electrical connection, this single-chip microcomputer memory module and this single-chip microcomputer comparing module form electrical connection, this infrared ray receiver module is corresponding with this infrared remote controller

When using, this infrared ray receiver module receives the infrared signal of sending from this infrared remote controller, and this signal transferred in this single-chip microcomputer memory module, this single-chip microcomputer comparing module will be stored in information in this single-chip microcomputer memory module and the information of himself compares, under the situation of both information unanimities, this single-chip microcomputer comparing module is exported a signal to this infrared ray receiver module, and this infrared ray receiver module sends instruction connects to main electric power supply this main load-relay.

The beneficial effects of the utility model are: the utility model comprises infrared remote controller and infrared ray receiver module as mentioned above, wherein, this infrared ray receiver module is arranged in this Socket casing, this infrared ray receiver module is electrically connected with this main load-relay, this infrared ray receiver module comprises the single-chip microcomputer memory module, infrared ray receiver module and single-chip microcomputer comparing module, when using, this infrared ray receiver module receives the infrared signal of sending from this infrared remote controller, and this signal transferred in this single-chip microcomputer memory module, this single-chip microcomputer comparing module will be stored in information in this single-chip microcomputer memory module and the information of himself compares, under the situation of both information unanimities, this single-chip microcomputer comparing module is exported a signal to this infrared ray receiver module, this infrared ray receiver module sends instruction connects to main electric power supply this main load-relay, thereby reaches the effect that makes things convenient for the user to use.

Description of drawings

Fig. 1 is a front view of the present utility model;

Fig. 2 is a circuit block diagram of the present utility model;

Fig. 3 is a circuit diagram of the present utility model.

Embodiment

As shown in Figure 1 to Figure 3, the energy-conservation socket of a kind of infra-red remote control, it comprises Socket casing 10, main load jack 20 and some secondary load jacks 30.

This main load jack 20 and some should being successively set on this Socket casing 10 by pair load jack 30.

This main load jack 20 has plug insertion 21, and each should all have plug insertion 31 by pair load jack 30.

This main load jack 20 is electrically connected with main load circuit 22, and this pair load jack 30 is electrically connected with secondary load circuit 32.

When in use, the user need insert main electrical equipment this main load circuit 22, this electric appliances is more typically such as television set, computer or the like, simultaneously, the user need insert peripheral ancillary apparatus this pair load circuit 32, this class periphery ancillary apparatus is more typically such as putting equipment, playback equipment or the like with the matching used stereo set of television set, public affairs, perhaps with the matching used stereo set of computer, printing device or the like.

This main load circuit 22 is independently of one another with this pair load circuit 32, is connected in parallel between this pair load circuit 32.

This main load circuit 22 is electrically connected with main load-relay 23, and this pair load circuit 32 is electrically connected with secondary load-relay 33.

This main load-relay 23 is electrically connected with this pair load-relay 33.

In the time of work, when main electrical equipment inserts in this main load circuit 22, the user starts the switch of main electrical equipment, this moment, this main load-relay 23 is connected in the time of main electric power supply, by the operation principle of relay, time-delay 5-8 should start by pair load-relay 33 second, and connects to peripheral ancillary apparatus power supply.

And when the user closed main electrical equipment, this main load-relay 23 quit work, and time-delay 5-8 should quit work by pair load-relay 33 second, and stopped to eliminate the purpose that electric appliance standby expends electric power resource to peripheral ancillary apparatus power supply thereby reach.

One end of aforesaid this Socket casing 10 is connected with power outlet 11, and this power outlet 11 is electrically connected with external circuit.

The energy-conservation socket of this infra-red remote control of the present utility model also comprises infrared remote controller 40 and infrared ray receiver module 50, wherein, this infrared ray receiver module 50 is arranged in this Socket casing 10, and this infrared ray receiver module 50 is electrically connected with this main load-relay 23.

This infrared ray receiver module 50 comprises single-chip microcomputer memory module 51, infrared ray receiver module 52 and single-chip microcomputer comparing module 53.

This infrared ray receiver module 52 forms electrical connection with this single-chip microcomputer memory module 51, and this single-chip microcomputer memory module 51 forms electrical connection with this single-chip microcomputer comparing module 53, and this infrared ray receiver module 52 is corresponding with this infrared remote controller 40.

When using, this infrared ray receiver module 52 receives the infrared signal of sending from this infrared remote controller 40, and this signal transferred in this single-chip microcomputer memory module 51, this single-chip microcomputer comparing module 53 will be stored in information in this single-chip microcomputer memory module 51 and the information of himself compares, under the situation of both information unanimities, this single-chip microcomputer comparing module 53 outputs one signal is to this infrared ray receiver module 50, and this infrared ray receiver module 50 sends instruction connects to main electric power supply this main load-relay 23.

The utility model is in concrete enforcement, and dividing on the socket has major and minor load; Host computer, TV are received on the main load socket, and other electric equipment is received on the socket of secondary load; Open the electrical equipment that connects on the main load socket, the electrical equipment that connects on the secondary load socket just has energized; Close the electrical equipment that connects on the main load socket, the electrical equipment that connects on the secondary load socket cuts out automatically; To through existing common socket, have idling consumption after electrical equipment cuts out or leak pass part electrical equipment and cause electric energy loss, smart jack of the present utility model can be after closing main electrical equipment, automatically close other ancillary apparatus, effectively saves energy prolongs appliance life, reduces the security appliance accident.The utility model increases the infra-red remote control controlling receiver on the basis of smart jack, can be user-friendly.

Claims (2)

1. energy-conservation socket of infra-red remote control, it comprises Socket casing, main load jack and some secondary load jacks, this main load jack and some should being successively set on this Socket casing by pair load jack, this main load jack has plug insertion, each should all have plug insertion by pair load jack, this main load jack is electrically connected with main load circuit, this pair load jack is electrically connected with secondary load circuit, it is characterized in that: this main load circuit and this pair load circuit are independently of one another, be connected in parallel between this pair load circuit, this main load circuit is electrically connected with main load-relay, this pair load circuit is electrically connected with secondary load-relay, this main load-relay is electrically connected with this pair load-relay

The energy-conservation socket of this infra-red remote control also comprises infrared remote controller and infrared ray receiver module, wherein, this infrared ray receiver module is arranged in this Socket casing, this infrared ray receiver module is electrically connected with this main load-relay, this infrared ray receiver module comprises single-chip microcomputer memory module, infrared ray receiver module and single-chip microcomputer comparing module, this infrared ray receiver module and this single-chip microcomputer memory module form electrical connection, this single-chip microcomputer memory module and this single-chip microcomputer comparing module form electrical connection, and this infrared ray receiver module is corresponding with this infrared remote controller.

2. the energy-conservation socket of a kind of infra-red remote control described in claim 1, it is characterized in that: an end of this Socket casing is connected with power outlet, and this power outlet is electrically connected with external circuit.

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