CN205959411U - Remote control unit is switched to wireless and ultra -red intelligence - Google Patents

Abstract

The utility model provides a remote control unit is switched to wireless and ultra -red intelligence, include: button matrix circuit, wireless receiving and dispatching control circuit, infrared emission circuit, supply circuit and crystal oscillator module, button matrix circuit, infrared emission circuit, supply circuit and crystal oscillator module respectively with wireless receiving and dispatching control circuit is connected, when the transmitter data, send wireless remote control through wireless receiving and dispatching control circuit earlier and instruct to wireless device, if do not receive responseing of wireless device in specified time, then the automatic switch -over is for sending the infrared remote control instruction. The utility model discloses can switch remote control unit through same intelligence controls two or more series of same product to earlier sending wireless remote control through wireless receiving and dispatching control circuit and instructing to wireless device, if do not receive responseing of wireless device in specified time, then the automatic switch -over is for sending the infrared remote control instruction, the user need not manual switching control, easy operation, and intelligent degree is high.

Description

A kind of wireless and infrared intelligence switching remote control unit

Technical field

This utility model is related to a kind of remote control unit, more particularly, to a kind of wireless and infrared intelligence switching remote control unit.

Background technology

Present product is more and more abundanter, such as with a series of two or more models product it is likely that including The function such as infrared control and controlled in wireless, if in order to control the product with a series of two or more models, and then by many Individual remote control goes to control two or more series of same product, if wireless version and infrared version are hence it is evident that be inadequate hommization； Even, when controlling the equipment of this two wireless versions and infrared version in addition it is also necessary to be switched to remote control by Macintosh a certain Individual pattern, just can control corresponding type, that is, needs manual switching, troublesome poeration, not intelligently.

Content of the invention

Technical problem to be solved in the utility model is to need to provide a kind of intelligentized wireless and infrared intelligence to cut Change remote control unit.

In this regard, this utility model provides a kind of wireless and infrared intelligence switching remote control unit, including：Key-press matrix electricity Road, wireless receiving and dispatching control circuit, infrared transmitting circuit, power supply circuits and crystal oscillator module, described key-press matrix circuit, infrared emission Circuit, power supply circuits are connected with described wireless receiving and dispatching control circuit respectively with crystal oscillator module；When sending out data, first pass through no Line transmitting-receiving control circuit sends wireless remote control and instructs to wireless device, if not receiving answering of wireless device at the appointed time Answer, then automatically switch to transmission infrared remote instruction.

Further improvement of the utility model is, also includes LED light module, described LED light module and institute State wireless receiving and dispatching control circuit to be connected.

Further improvement of the utility model is, also includes wireless receiving and dispatching expanded circuit and wireless antenna, described wireless Antenna is connected with described wireless receiving and dispatching control circuit by wireless receiving and dispatching expanded circuit.

Further improvement of the utility model is, also includes memory module, described memory module and described wireless receiving and dispatching Control circuit is connected.

Further improvement of the utility model is, also includes infrared learning circuit, described infrared learning circuit with described Wireless receiving and dispatching control circuit is connected.

Further improvement of the utility model is, wireless receiving and dispatching control circuit includes control chip U1, electric capacity C1, electric capacity C2, inductance L1, inductance L5, inductance L6, inductance L7, inductance L8, electric capacity C11, electric capacity C10, electric capacity C12, inductance L2, inductance L3, Inductance L9, inductance L4, inductance L11, inductance L10, inductance L12, electric capacity C14, electric capacity C13, electric capacity C15, electric capacity C3 and electric capacity C4, One end of described inductance L5 is all connected with 9 pins of control chip U1 with one end of inductance L1, the other end of described inductance L5 It is connected with one end of described electric capacity C1 and one end of inductance L6 respectively, the other end ground connection of described electric capacity C1, described inductance L6 The other end be connected with one end of described electric capacity C11 and one end of electric capacity C10 respectively, the other end of described electric capacity C10 connects To first antenna interface ANT1；One end of the other end of described inductance L1 and inductance L7 is connected to the 7 of described control chip U1 Pin, the other end of described inductance L7 is connected with one end of one end, one end of inductance L8 and inductance L2 of electric capacity C2 respectively, institute State the other end ground connection of electric capacity C2, the other end of described inductance L2 connects to 6 pins of control chip U1, and described inductance L8's is another One end is connected with the other end of described electric capacity C11 and one end of electric capacity C12 respectively, the other end of described electric capacity C12 connect to Second antennal interface ANT2；One end of one end of described inductance L4 and inductance L9 is connected to 5 pins of described control chip U1, The other end of described inductance L9 is connected with one end of one end, one end of inductance L10 and electric capacity C4 of inductance L3 respectively, described electricity Hold the other end ground connection of C4, the other end of described inductance L3 connects to 6 pins of control chip U1, and described inductance L10's is another End is connected with one end of described electric capacity C14 and one end of electric capacity C13 respectively, and the other end of described electric capacity C13 connects to the 3rd Antennal interface ANT3；The other end of described inductance L4 is all connected with 3 pins of control chip U1 with one end of inductance L11, institute The other end stating inductance L11 is connected with one end of described electric capacity C3 and one end of inductance L12 respectively, and described electric capacity C3's is another End ground connection, the other end of described inductance L12 is connected with the other end of described electric capacity C14 and one end of electric capacity C15 respectively, described The other end of electric capacity C15 connects to the 4th antennal interface ANT4.

Further improvement of the utility model is, described infrared transmitting circuit includes resistance R9, resistance R7, audion Q1, resistance R8, infrared transmitting tube D2 and infrared transmitting tube D3, one end of described resistance R9 connects to described wireless receiving and dispatching control electricity Road, the other end of described resistance R9 is connected with one end of described resistance R7 and the base stage of audion Q1 respectively, described audion The emitter stage of Q1 is connected with one end of described resistance R8, and the other end of described resistance R7 and the other end of resistance R8 connect to electricity Source, the colelctor electrode of described audion Q1 is respectively connecting to the anode of described infrared transmitting tube D2 and the sun of infrared transmitting tube D3 Pole, the negative electrode of described infrared transmitting tube D2 and the negative electrode of infrared transmitting tube D3 are grounded respectively.

Compared with prior art, the beneficial effects of the utility model are：Can be by same intelligence switching remote control dress Put the two or more series to the same product including wireless version and infrared version to be controlled, and, control when sending During the data of instruction, first pass through wireless receiving and dispatching control circuit transmission wireless remote control and instruct to wireless device, if at the appointed time Do not receive the response of wireless device, then automatically switch to transmission infrared remote instruction；Therefore, user is without manual switching control System, simple to operate, intelligence degree is high.

Brief description

Fig. 1 is a kind of module frame chart of embodiment of this utility model；

Fig. 2 is a kind of wireless receiving and dispatching control circuit, LED light module and the crystal oscillator module of embodiment of this utility model Circuit theory diagrams；

Fig. 3 is a kind of circuit theory diagrams of the key-press matrix circuit of embodiment of this utility model；

Fig. 4 is a kind of circuit theory diagrams of the infrared transmitting circuit of embodiment of this utility model；

Fig. 5 is a kind of circuit theory diagrams of the wireless receiving and dispatching expanded circuit of embodiment of this utility model.

Specific embodiment

Below in conjunction with the accompanying drawings, preferably embodiment of the present utility model is described in further detail.

As shown in Figures 1 to 4, this example provides a kind of wireless and infrared intelligence switching remote control unit it is characterised in that wrapping Include：Key-press matrix circuit 2, wireless receiving and dispatching control circuit 1, infrared transmitting circuit 3, power supply circuits 4 and crystal oscillator module 5, described press Key matrix circuit 2, infrared transmitting circuit 3, power supply circuits 4 are connected with described wireless receiving and dispatching control circuit 1 respectively with crystal oscillator module 5 Connect；When sending out data, first pass through wireless receiving and dispatching control circuit 1 transmission wireless remote control to instruct to wireless device, if in regulation The interior response not receiving wireless device, then automatically switch to transmission infrared remote instruction.

Wireless receiving and dispatching control circuit 1 described in this example preferably employs the wireless Soc chip being integrated with MCU and wireless transceiver, On the basis of Digiplex, increase function of infrared remote control, so that described intelligence switching remote control unit both can be controlled and wirelessly set For it is also possible to control traditional infrared equipment.For producer, a remote control can control at least two type.

As shown in Figure 1 and Figure 5, this example also includes LED light module 6, wireless receiving and dispatching expanded circuit 7 and wireless antenna, Described LED light module 6 is connected with described wireless receiving and dispatching control circuit 1, and described wireless antenna is extended by wireless receiving and dispatching Circuit 7 is connected with described wireless receiving and dispatching control circuit 1, is used for realizing wireless extensions function.

This example further preferably includes memory module and infrared learning circuit, and described memory module controls electricity with described wireless receiving and dispatching Road 1 is connected；Described infrared learning circuit is connected with described wireless receiving and dispatching control circuit 1, such as real by infrared transmitting tube etc. Existing infrared learning function.

As shown in Fig. 2 this example wireless receiving and dispatching control circuit 1 includes control chip U1, electric capacity C1, electric capacity C2, inductance L1, electricity Sense L5, inductance L6, inductance L7, inductance L8, electric capacity C11, electric capacity C10, electric capacity C12, inductance L2, inductance L3, inductance L9, inductance L4, inductance L11, inductance L10, inductance L12, electric capacity C14, electric capacity C13, electric capacity C15, electric capacity C3 and electric capacity C4, described inductance L5 One end be all connected with 9 pins of control chip U1 with one end of inductance L1, the other end of described inductance L5 respectively with described One end of electric capacity C1 is connected with one end of inductance L6, the other end ground connection of described electric capacity C1, and the other end of described inductance L6 divides It is not connected with one end of described electric capacity C11 and one end of electric capacity C10, the other end of described electric capacity C10 connects to first antenna Interface ANT1；One end of the other end of described inductance L1 and inductance L7 is connected to 7 pins of described control chip U1, described electricity The other end of sense L7 is connected with one end of one end, one end of inductance L8 and inductance L2 of electric capacity C2 respectively, described electric capacity C2's The other end is grounded, and the other end of described inductance L2 connects to 6 pins of control chip U1, the other end of described inductance L8 respectively with The other end of described electric capacity C11 is connected with one end of electric capacity C12, and the other end of described electric capacity C12 connects and connects to the second antenna Mouth ANT2；One end of one end of described inductance L4 and inductance L9 is connected to 5 pins of described control chip U1, described inductance L9 The other end be connected with one end of one end, one end of inductance L10 and electric capacity C4 of inductance L3 respectively, described electric capacity C4's is another End ground connection, the other end of described inductance L3 connects to 6 pins of control chip U1, the other end of described inductance L10 respectively with institute The one end stating electric capacity C14 is connected with one end of electric capacity C13, and the other end of described electric capacity C13 connects to third antenna interface ANT3；The other end of described inductance L4 is all connected with 3 pins of control chip U1 with one end of inductance L11, described inductance L11 The other end be connected with one end of described electric capacity C3 and one end of inductance L12 respectively, the other end of described electric capacity C3 ground connection, institute The other end stating inductance L12 is connected with the other end of described electric capacity C14 and one end of electric capacity C15 respectively, described electric capacity C15's The other end connects to the 4th antennal interface ANT4.Described control chip U1 can be MCU.

As shown in figure 4, infrared transmitting circuit 3 described in this example includes resistance R9, resistance R7, audion Q1, resistance R8, infrared One end of transmitting tube D2 and infrared transmitting tube D3, described resistance R9 connects to described wireless receiving and dispatching control circuit 1, described resistance R9 The other end be connected with one end of described resistance R7 and the base stage of audion Q1 respectively, the emitter stage of described audion Q1 and institute The one end stating resistance R8 is connected, and the other end of described resistance R7 and the other end of resistance R8 connect to power end, described three poles The colelctor electrode of pipe Q1 is respectively connecting to the anode of described infrared transmitting tube D2 and the anode of infrared transmitting tube D3, described infrared emission The negative electrode of the negative electrode of pipe D2 and infrared transmitting tube D3 is grounded respectively.

Because wireless device is after receiving data, a response can be returned to sender；So utilizing this technology, can To judge wireless device whether in span of control.The concrete scheme of this example is：When sending out data, it is sent to first and wirelessly set Standby, if wireless device is not replied at the appointed time then it is assumed that be currently needed for control is infrared equipment, automatically switch Send infrared signal.The described stipulated time can preset it is also possible to be carried out self-defined according to user's needs and use environment Setting.

This example can be by same intelligence switching remote control unit to the same product including wireless version and infrared version Two or more series be controlled, and, when send control instruction data when, first pass through wireless receiving and dispatching control circuit 1 Sending wireless remote control to instruct to wireless device, if not receiving the response of wireless device at the appointed time, automatically switching to Send infrared remote instruction；Therefore, user is without manual switching control, simple to operate, and intelligence degree is high.

The specific embodiment of the above is better embodiment of the present utility model, not limits this practicality with this new Type be embodied as scope, scope of the present utility model includes being not limited to this specific embodiment, all according to this utility model Shape, the equivalence changes made of structure are all in protection domain of the present utility model.

Claims (7)

1. a kind of wireless and infrared intelligence switching remote control unit is it is characterised in that include：Key-press matrix circuit, wireless receiving and dispatching Control circuit, infrared transmitting circuit, power supply circuits and crystal oscillator module, described key-press matrix circuit, infrared transmitting circuit, power supply electricity Road is connected with described wireless receiving and dispatching control circuit respectively with crystal oscillator module；When sending out data, first pass through wireless receiving and dispatching control Circuit sends wireless remote control and instructs to wireless device, if not receiving the response of wireless device at the appointed time, automatically cuts It is changed to transmission infrared remote instruction.

2. wireless and infrared intelligence switching remote control unit according to claim 1 refers to it is characterised in that also including LED Show lamp module, described LED light module is connected with described wireless receiving and dispatching control circuit.

3. wireless and infrared intelligence switching remote control unit according to claim 1 is it is characterised in that also include wirelessly receiving Send out expanded circuit and wireless antenna, described wireless antenna passes through wireless receiving and dispatching expanded circuit and described wireless receiving and dispatching control circuit phase Connect.

4. the wireless and infrared intelligence switching remote control unit according to claims 1 to 3 any one it is characterised in that Also include memory module, described memory module is connected with described wireless receiving and dispatching control circuit.

5. wireless and infrared intelligence switching remote control unit according to claim 4 is it is characterised in that also include infrared Practise circuit, described infrared learning circuit is connected with described wireless receiving and dispatching control circuit.

6. the wireless and infrared intelligence switching remote control unit according to claims 1 to 3 any one it is characterised in that Wireless receiving and dispatching control circuit includes control chip U1, electric capacity C1, electric capacity C2, inductance L1, inductance L5, inductance L6, inductance L7, inductance L8, electric capacity C11, electric capacity C10, electric capacity C12, inductance L2, inductance L3, inductance L9, inductance L4, inductance L11, inductance L10, inductance L12, electric capacity C14, electric capacity C13, electric capacity C15, electric capacity C3 and electric capacity C4, one end of described inductance L5 and one end of inductance L1 all with 9 pins of control chip U1 are connected, the other end of described inductance L5 respectively with one end of described electric capacity C1 and inductance L6 one End is connected, the other end ground connection of described electric capacity C1, other end one end and the electricity with described electric capacity C11 respectively of described inductance L6 The one end holding C10 is connected, and the other end of described electric capacity C10 connects to first antenna interface ANT1；Described inductance L1's is another One end of end and inductance L7 is connected to 7 pins of described control chip U1, the other end of described inductance L7 respectively with electric capacity C2 One end, one end of inductance L8 be connected with one end of inductance L2, the other end of described electric capacity C2 ground connection, described inductance L2's is another One end connects to 6 pins of control chip U1, the other end other end and the electric capacity with described electric capacity C11 respectively of described inductance L8 One end of C12 is connected, and the other end of described electric capacity C12 connects to the second antennal interface ANT2；One end of described inductance L4 and One end of inductance L9 is connected to 5 pins of described control chip U1, the other end of described inductance L9 respectively with inductance L3 one End, one end of inductance L10 are connected with one end of electric capacity C4, the other end ground connection of described electric capacity C4, and described inductance L3's is another End connects to 6 pins of control chip U1, other end one end and the electric capacity C13 with described electric capacity C14 respectively of described inductance L10 One end be connected, the other end of described electric capacity C13 connects to third antenna interface ANT3；The other end of described inductance L4 and electricity One end of sense L11 is all connected with 3 pins of control chip U1, and the other end of described inductance L11 is respectively with described electric capacity C3's One end is connected with one end of inductance L12, the other end of described electric capacity C3 ground connection, the other end of described inductance L12 respectively with institute The other end stating electric capacity C14 is connected with one end of electric capacity C15, and the other end of described electric capacity C15 connects to the 4th antennal interface ANT4.

7. the wireless and infrared intelligence switching remote control unit according to claims 1 to 3 any one it is characterised in that Described infrared transmitting circuit includes resistance R9, resistance R7, audion Q1, resistance R8, infrared transmitting tube D2 and infrared transmitting tube D3, One end of described resistance R9 connects to described wireless receiving and dispatching control circuit, the other end of described resistance R9 respectively with described resistance R7 One end be connected with the base stage of audion Q1, the emitter stage of described audion Q1 is connected with one end of described resistance R8, institute The other end of the other end and resistance R8 of stating resistance R7 connects to power end, and the colelctor electrode of described audion Q1 is respectively connecting to institute State the anode of infrared transmitting tube D2 and the anode of infrared transmitting tube D3, the negative electrode of described infrared transmitting tube D2 and infrared transmitting tube D3 Negative electrode be grounded respectively.