CN207571882U - A kind of infrared forwarding device - Google Patents

Abstract

The utility model belongs to Infrared Ray Remote Control Technology field, provides a kind of infrared forwarding device, and the infrared forwarding device includes infrared transponder and wireless terminal；The infrared transponder network and the wireless terminal wireless connection by radio communication；The wireless terminal sends telecommand to the infrared transponder；The infrared transponder instructs according to telecommand generation infrared control and is sent to infrared receiving set, the infrared receiving set to be controlled to work.Mode receives the telecommand of wireless terminal by radio communication, then infrared control instruction is sent according to the telecommand received, infrared control can be carried out to a variety of infrared receiving sets, telecommand need to be only sent by wireless terminal, infrared transponder can just realize the remote control to different infrared receiving sets according to the telecommand.

Description

A kind of infrared forwarding device

Technical field

The utility model belongs to Infrared Ray Remote Control Technology field more particularly to a kind of infrared forwarding device.

Background technology

In daily life, it is various by the household electrical appliance type of infrared remote control, such as：Air-conditioning, television set, stereo set Deng.The IR remote controller that different brands, different types of household electrical appliance use is different, and user needs to find pair when in use The remote controler answered could be remotely controlled household electrical appliance.

In conclusion existing IR remote controller there are it is inconvenient for use the problem of.

Utility model content

The purpose of this utility model is to provide a kind of infrared forwarding devices, it is intended to solve existing IR remote controller and exist The problem of inconvenient for use.

The utility model provides a kind of infrared forwarding device, and the infrared forwarding device is including infrared transponder and wirelessly Terminal；

The infrared transponder network and the wireless terminal wireless connection by radio communication；

The wireless terminal sends telecommand to the infrared transponder；

The infrared transponder instructs according to telecommand generation infrared control and is sent to infrared receiving set, with The infrared receiving set is controlled to work.

Infrared forwarding device provided by the utility model, by radio communication mode receive the telecommand of wireless terminal, Then infrared control instruction is sent according to the telecommand received, infrared control can be carried out to a variety of infrared receiving sets, Telecommand need to only be sent by wireless terminal, infrared transponder can just be realized according to the telecommand infrared to be connect to different The remote control of receiving unit.Efficiently solve the problems, such as that there are inconvenient for use for existing IR remote controller.

Description of the drawings

Fig. 1 is a kind of function structure chart for infrared forwarding device that the utility model embodiment one provides；

Fig. 2 is the structure diagram of infrared transponder 11 in the corresponding embodiment one that the utility model embodiment two provides；

Fig. 3 is the structure diagram of power supply module 113 in the infrared transponder 11 that the utility model embodiment two provides；

Fig. 4 is the circuit structure diagram of power supply module 113 in the infrared transponder 11 that the utility model embodiment two provides；

Fig. 5 is the circuit structure of infrared sending module 112 in the infrared transponder 11 that the utility model embodiment two provides Figure；

Fig. 6 is the circuit structure of infrared receiving module 114 in the infrared transponder 11 that the utility model embodiment two provides Schematic diagram.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention is further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

It should be noted that term " comprising " in the specification and claims of the utility model and they are any Deformation, it is intended that cover non-exclusive include.Such as process, method or system comprising series of steps or unit, product Or equipment the step of being not limited to list or unit, but optionally further include the step of not listing or unit or can Selection of land is further included for the intrinsic other steps of these processes, method, product or equipment or unit.In addition, term " first ", " second " and " third " etc. are for distinguishing different objects, not for description particular order.

The utility model embodiment is in order to solve the problems, such as that existing IR remote controller there are inconvenient for use, provides one kind Infrared forwarding device by receiving the telecommand of wireless terminal, then sends infrared control according to the telecommand received Instruction can carry out a variety of infrared receiving sets infrared control, only need to send telecommand, infrared forwarding by wireless terminal Device can just realize the remote control to different infrared receiving sets according to the telecommand.It efficiently solves existing infrared distant Control device there are it is inconvenient for use the problem of.

In order to illustrate technical solution described in the utility model, illustrated below by specific embodiment.

Embodiment one：

Fig. 1 shows the structure for the infrared forwarding device 10 that the utility model embodiment one provides, as shown in Figure 1, infrared Retransmission unit 10 includes infrared transponder 11 and wireless terminal 12.

Infrared transponder 11 network and 12 wireless connection of wireless terminal by radio communication.

Wireless terminal 11 sends telecommand to infrared transponder 12.

Infrared transponder 11 instructs according to telecommand generation infrared control and is sent to infrared receiving set 20, with control Infrared receiving set 20 works.

In a particular application, cordless communication network includes ZigBee Small Area Wireless Communication Networks.Infrared transponder 11 is logical Cross ZigBee Small Area Wireless Communication Networks and 12 wireless connection of wireless terminal.It should be noted that above-mentioned cordless communication network The communication network realized including all technologies by radio communication.

In one embodiment, ZigBee Small Area Wireless Communication Networks, infrared transponder 11 and nothing are created by gateway Line terminal 12 is accessed as the routing device of ZigBee Small Area Wireless Communication Networks in the network, realizes wireless connection.

In a particular application, when user needs to be remotely controlled a certain infrared receiving set, by wireless terminal 12 to red Outer transponder 11 sends telecommand, and infrared transponder 11 can generate corresponding infrared control according to the telecommand received Instruction, then infrared control instruction is sent to the infrared receiving set 20, so that infrared receiving set 20 is according to the infrared control System instruction works.

The infrared forwarding device of the present embodiment by receiving the telecommand of wireless terminal, refers to according to the remote control received It enables and sends infrared control instruction, can a variety of infrared receiving sets be carried out with infrared control, need to only be sent by wireless terminal distant Control instruction, infrared transponder can just realize the remote control to different infrared receiving sets according to the telecommand, effectively solve Determined existing IR remote controller there are it is inconvenient for use the problem of.

Embodiment two：

The structure of infrared transponder 11 in the corresponding embodiment one provided Fig. 2 shows the utility model embodiment two, such as Shown in Fig. 2, infrared transponder 11 includes wireless communication module 111, infrared sending module 112 and power supply module 113.

Wireless communication module 111 is electrically connected respectively with infrared sending module 112 and power supply module 113.

Wireless communication module 111 network and 12 wireless connection of wireless terminal by radio communication, to receive telecommand.

Infrared sending module 112 generates infrared control instruction according to telecommand, and is sent to infrared receiving set 20, with Control infrared receiving set work 20.

Power supply module 113 is powered for infrared transponder 11.

In a particular application, above-mentioned wireless communication module 111 is by ZigBee Small Area Wireless Communication Networks and wirelessly whole 12 wireless connections are held, so that infrared transponder 11 is carried out wirelessly with wireless terminal 12 by ZigBee Small Area Wireless Communication Networks Communication.

In a particular application, when user needs to be remotely controlled a certain infrared receiving set 20, by wireless terminal 12 to Infrared transponder 11 sends telecommand, and wireless communication module 111 receives the telecommand, and infrared sending module 112 is according to connecing The telecommand received generates corresponding infrared control instruction, then infrared control instruction is sent to the infrared receiving set 20, so that infrared receiving set 20 works according to infrared control instruction.

In one embodiment, above-mentioned infrared transponder 11 further includes infrared receiving module 114.

Infrared receiving module 114 is electrically connected with wireless communication module 111.

Infrared receiving module 114 receives the infrared signal that infrared transmitting set 30 is sent, and is generated according to infrared signal infrared Control instruction is simultaneously sent to wireless communication module.

In a particular application, infrared transponder 11 also is able to receive the infrared signal that infrared transmitting set 30 is sent, according to The infrared signal received generates corresponding infrared remote instruction, infrared receiving set 20 to be controlled to work.Specifically, by red Outer receiving module 114 receives and the infrared signal received is sent to wireless communication module 111, and pass through red after infrared signal Outer sending module 112 generates infrared control instruction corresponding with the infrared signal, and is sent to and is sent to infrared receiving set 20, infrared receiving set 20 to be controlled to work.Alternatively, the infrared signal received passed through after infrared signal is received wireless Communication module 111 is sent to wireless terminal 12, the infrared signal is parsed by wireless terminal 12, further according to the infrared signal to nothing Line communication module 111 sends corresponding telecommand, and infrared sending module 112 generates corresponding according to the telecommand received Infrared control instructs, then infrared control instruction is sent to the infrared receiving set 20, so that 20 basis of infrared receiving set Infrared control instruction works.

In one embodiment, as shown in figure 3, power supply module 113 includes battery unit 1131 and voltage regulation unit 1132.

The output terminal of battery unit 1131 is electrically connected with the input terminal of voltage regulation unit 1132, the output terminal of voltage regulation unit 1132 It is electrically connected with infrared transponder 11.

Battery unit 1131 exports electric energy.Voltage regulation unit 1132 is exported after voltage stabilizing is carried out to electric energy to infrared transponder 11, It powers for infrared transponder 11.

As shown in figure 4, battery unit 1131 includes battery BT1, first resistor R1, second resistance R2 and the first capacitance C1。

The anode of battery BT1 is connect with the first end of first resistor R1, the cathode ground connection of battery BT1, first resistor R1's Second end is connect with the first end of second resistance R2, the second end of second resistance R2 ground connection, the first end of the first capacitance C1 and the The first end connection of one resistance R1, the second end ground connection of the first capacitance C1, the first end of the first capacitance C1 is battery unit 1131 Output terminal.

Voltage regulation unit 1132 includes voltage stabilizing chip U1, the second capacitance C2, third capacitance C3, the first inductance L1.

Input terminals of the input pin Vin of voltage stabilizing chip U1 for voltage regulation unit 1132, the enabled pin CE of voltage stabilizing chip U1 It is connect with the input pin Vin of voltage stabilizing chip U1, the grounding pin Vss ground connection of voltage stabilizing chip U1, the output of voltage stabilizing chip U1 is drawn Foot Vout is connect with the first end of the second capacitance C2, the second end ground connection of the second capacitance C2, the first end output of the second capacitance C2 First supply voltage VCC1, the first end of third capacitance C3 are connect with the first end of the second capacitance C2, and the second of third capacitance C3 End ground connection, the first end of the first inductance L1 are connect with the first end of third capacitance C3, the second end output second of the first inductance L1 Supply voltage VCC2.

In a particular application, above-mentioned first supply voltage VCC1 is 3.3V, and above-mentioned second supply voltage VCC2 is channel radio Believe the operating voltage needed for wireless communication chips in module 111.

In a particular application, the model ME6207 of above-mentioned voltage stabilizing chip U1.

In one embodiment, as shown in figure 5, infrared sending module 112 includes 3rd resistor R3, light emitting diode LED1, switching tube Q1, the 4th resistance R4 and the 5th resistance R5.

The first end of 3rd resistor R3 accesses the first supply voltage VCC1, the second end and light emitting diode of 3rd resistor R3 The anode connection of LED1, the cathode of Light-emitting diode LED 1 are connect with the first end of switching tube Q1, the second termination of switching tube Q1 Ground, the controlled end of switching tube Q1 are connect with the first end of the 4th resistance R4, the second end ground connection of the 4th resistance R4, the 5th resistance R5 First end connect with the first end of the 4th resistance R4, the second end of the 5th resistance R5 connection wireless communication module 111.

In one embodiment, as shown in fig. 6, above-mentioned infrared receiving module 114 includes infrared receiver probe U2 and the 6th Resistance R6.

The power pins VCC of infrared receiver probe U2 is connect with the first end of the 6th resistance R6, and the second of the 6th resistance R6 Terminate the second supply voltage VCC2, the grounding pin GND ground connection of infrared receiver probe U2, the output terminal of infrared receiver probe U2 OUT is connect with wireless communication module 111.

In a particular application, the model HS0038 of above-mentioned infrared receiver probe U2.

Infrared transponder in the one infrared forwarding device of corresponding embodiment that embodiment two provides, by wireless terminal to red Outer transponder sends telecommand, and wireless communication module receives the telecommand, and infrared sending module is according to the remote control received Instruction generates corresponding infrared control instruction, then infrared control instruction is sent to the infrared receiving set, so that infrared connect Receiving unit works according to infrared control instruction.In addition, infrared transponder also be able to receive by infrared receiving module it is red The infrared signal that outgoing jet device is sent generates corresponding infrared remote instruction according to the infrared signal received, red to control Outer receiving device work.It can just be realized according to the telecommand or infrared signal by infrared transponder and infrared be connect to different The remote control of receiving unit efficiently solve the problems, such ass that there are inconvenient for use for existing IR remote controller.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. a kind of infrared forwarding device, which is characterized in that the infrared forwarding device includes infrared transponder and wireless terminal；

The infrared transponder network and the wireless terminal wireless connection by radio communication；

The wireless terminal sends telecommand to the infrared transponder；

The infrared transponder instructs according to telecommand generation infrared control and is sent to infrared receiving set, with control The infrared receiving set work.

2. infrared forwarding device according to claim 1, which is characterized in that the infrared transponder includes radio communication mold Block, infrared sending module and power supply module；

The wireless communication module is electrically connected respectively with infrared sending module and the power supply module；

The wireless communication module network and the wireless terminal wireless connection by radio communication, are referred to receiving the remote control It enables；

The infrared sending module generates the infrared control according to the telecommand and instructs, and be sent to the infrared receiver Equipment, the infrared receiving set to be controlled to work；

The power supply module is powered for the infrared transponder.

3. infrared forwarding device according to claim 2, which is characterized in that the infrared transponder further includes infrared receiver Module；

The infrared receiving module is electrically connected with the wireless communication module；

The infrared receiving module receives the infrared signal that infrared transmitting set is sent, and infrared control is generated according to the infrared signal System instructs and is sent to the wireless communication module.

4. infrared forwarding device according to claim 2, which is characterized in that the power supply module is including battery unit and surely Press unit；

The output terminal of the battery unit is electrically connected with the input terminal of the voltage regulation unit, the output terminal of the voltage regulation unit and institute State infrared transponder electrical connection；

The battery unit exports electric energy；

Output is supplied to the infrared transponder for the infrared transponder after the voltage regulation unit carries out the electric energy voltage stabilizing Electricity.

5. infrared forwarding device according to claim 4, which is characterized in that the battery unit includes battery, the first electricity Resistance, second resistance and the first capacitance；

The anode of the battery is connect with the first end of the first resistor, the cathode ground connection of the battery, the first resistor Second end connect with the first end of the second resistance, the second end of second resistance ground connection, the of first capacitance One end is connect with the first end of the first resistor, the second end ground connection of first capacitance, the first end of first capacitance Output terminal for the battery unit.

6. infrared forwarding device according to claim 4, which is characterized in that the voltage regulation unit includes voltage stabilizing chip, the Two capacitances, third capacitance, the first inductance；

The input pin of the voltage stabilizing chip be the voltage regulation unit input terminal, the enabled pin of the voltage stabilizing chip with it is described The input pin connection of voltage stabilizing chip, the grounding pin ground connection of the voltage stabilizing chip, the output pin of the voltage stabilizing chip and institute State the first end connection of the second capacitance, the second end ground connection of the second capacitance, the first power supply of first end output of second capacitance Voltage, the first end of the third capacitance are connect with the first end of second capacitance, the second end ground connection of the third capacitance, The first end of first inductance is connect with the first end of the third capacitance, and the second end output second of first inductance supplies Piezoelectric voltage.

7. infrared forwarding device according to claim 2, which is characterized in that the infrared sending module includes third electricity Resistance, light emitting diode, switching tube, the 4th resistance and the 5th resistance；

The first end of the 3rd resistor accesses the first supply voltage, the second end of the 3rd resistor and the light emitting diode Anode connection, the cathode of the light emitting diode connect with the first end of the switching tube, and the second of the switching tube terminates Ground, the controlled end of the switching tube are connect with the first end of the 4th resistance, the second end ground connection of the 4th resistance, described The first end of 5th resistance is connect with the first end of the 4th resistance, the second end connection radio communication mold of the 5th resistance Block.

8. infrared forwarding device according to claim 3, which is characterized in that the infrared receiving module includes infrared receiver Probe and the 6th resistance；

The power pins of the infrared receiver probe are connect with the first end of the 6th resistance, the second end of the 6th resistance Connect the second supply voltage, the grounding pin ground connection of the infrared receiver probe, the output terminal of the infrared receiver probe with it is described Wireless communication module connects.

9. infrared forwarding device according to claim 7, which is characterized in that the switching tube is NPN type triode；

The base stage of the NPN type triode is the controlled end of the switching tube, and the current collection of the NPN type triode is extremely described to be opened Close the first end of pipe, the second end of the extremely described switching tube of transmitting of the NPN type triode.

10. infrared forwarding device according to claim 1, which is characterized in that the cordless communication network includes ZigBee Small Area Wireless Communication Networks.