CN204926483U - Learning -oriented infrared remote control of solar charging formula - Google Patents

Abstract

The utility model discloses a learning -oriented infrared remote control of solar charging formula, main content is: status indicator lamp installs in the casing openly is close to the mounting hole on top, the button sets up on the casing is positive, be equipped with " mode of learning " button in the button, perhaps the hyaline test is internal on casing front or back casing for solar cell panel fixed mounting, chargeable call installs in the casing, battery status indicator lamp, solar cell panel and chargeable call are connected with charge controller, charge controller links to each other with MCU, MCU adopts singlechip or ARM controller, EEPROM links to each other with MCU, liquid crystal display module, infrared transmission module and status indicator lamp are connected with MCU, infrared receiver module and button all are connected with MCU. The utility model discloses can study arbitrary infrared remote controller, adopt solar cell to charge, it is energy -concerving and environment -protective, use easily, avoid the battery leakage problem, extension remote controller life.

Description

A kind of solar energy charging type learning type infrared remote-controller

Technical field

The utility model relates to field of remote-control unit, in particular to a kind of solar energy charging type learning type infrared remote-controller.

Background technology

At present, Set Top Box uses popularity to improve, many cities have started the use of digital TV network, but consider that the replacing of TV is so not fast, so the Set Top Box short time becomes focus, set-top box remote controller also becomes essential product, and possesses learning functionality thus the study remote controller reaching Set Top Box+TV remote-control two-in-one composite function becomes main flow.But telepilot scheme in the market exists defect in various degree, lays particular stress on remote control mode waveshape learning, lacks the comprehensive descision to pattern, thus more weak for upset pattern learning abilities such as RCS, RC6, M4003, and can not be fully up to expectations in carrier wave study.And existing telepilot all uses dry cell, changes onetime dry cell approximately every year, occur following not enough: 1. all must spend money on battery every year, uneconomical; 2. easily produce dry cell recovery and thoroughly do not affect environmental protection.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, a kind of solar energy charging type learning type infrared remote-controller is provided, have that function is more, performance is more superior, the infrared coding of any one telepilot can be learnt, and the controlling functions to multiple infrored equipment can be realized.

The utility model solves the technical scheme that its technical matters adopts: a kind of solar energy charging type learning type infrared remote-controller, it is characterized in that, comprise battery status pilot lamp, solar panel, charge controller, rechargeable battery, EEPROM, MCU, LCD MODULE, infrared transmission module, infrared receiving module, status indicator lamp, button, housing and bonnet, described battery status pilot lamp is arranged on housing front in the mounting hole of bottom, described status indicator lamp is arranged on housing front in the mounting hole on top, described button to be arranged on housing front and button is provided with display lamp, display lamp has red and green two kinds of Show Colors, " mode of learning " button is provided with in described button, described solar panel is fixedly mounted on housing front or the back side, described rechargeable battery is arranged in housing, described bonnet is arranged on back side of shell groove, described battery status pilot lamp, solar panel is all connected with charge controller with rechargeable battery, described charge controller is connected with MCU, described MCU adopts single-chip microcomputer or ARM controller and is provided with embedded OS, described EEPROM and MCU is connected, described LCD MODULE, infrared transmission module is all connected with MCU with status indicator lamp, described infrared receiving module is all connected with MCU with button.

As preferably, described MCU onboard clock oscillator.

As preferably, described infrared transmission module is made up of carrier generator, infrared emission drive circuit and infrarede emitting diode.

As preferably, described infrared module adopts integrated infrared receiver, transmitter module.

Be provided with a mode of learning button in described button, by a mode of learning button, mode of learning pilot lamp is lighted, and telepilot enters mode of learning; In mode of learning, by the target button on this telepilot once wanting to learn, now target key indicator lamp becomes redness, enters in the study of current button, at this moment uses original telepilot to aim at this remote control window, and presses the corresponding button wanting to learn.Study completes, and the target key indicator lamp on this telepilot is green by red stain, represents this button and has learnt; Whole button has learnt, and by a mode of learning button, mode of learning pilot lamp is gone out by bright change, and this telepilot enters normal mode of operation, can start normal use.

The utility model compared with prior art has the following advantages:

1, Universal study type telepilot, can learn any infrared remote controller;

2, rechargeable solar battery, without the need to installing battery, energy-conserving and environment-protective, use easily;

3, avoid battery leakage problem, extend telepilot serviceable life.

Accompanying drawing explanation

Fig. 1 is the Facad structure schematic diagram of a kind of embodiment of the present utility model;

Fig. 2 is the structure schematic diagram of a kind of embodiment of the present utility model;

Fig. 3 is control structure schematic diagram of the present utility model.

Description of reference numerals:

1-battery status pilot lamp, 2-solar panel, 3-charge controller, 4-rechargeable battery, 5-EEPROM, 6-MCU, 7-LCD MODULE, 8-infrared transmission module, 9-infrared receiving module, 10-status indicator lamp, 11-button, 12-housing, 13-bonnet.

Embodiment

Below in conjunction with drawings and Examples, the utility model embodiment is described:

As Fig. 1, shown in 2 and 3, it illustrates a kind of embodiment of the present utility model, a kind of solar energy charging type learning type infrared remote-controller, comprises battery status pilot lamp 1, solar panel 2, charge controller 3, rechargeable battery 4, EEPROM5, MCU6, LCD MODULE 7, infrared transmission module 8, infrared receiving module 9, status indicator lamp 10, button 11, housing 12 and bonnet 13, described battery status pilot lamp 1 is arranged on housing front in the mounting hole of 12 bottoms, described status indicator lamp 10 is arranged on housing front in the mounting hole on 12 tops, described button 11 to be arranged on housing 12 front and button 12 is provided with display lamp, display lamp has red and green two kinds of Show Colors, " mode of learning " button is provided with in described button 11, described solar panel 2 is fixedly mounted on housing 12 front or the back side, described rechargeable battery 4 is arranged in housing 12, described bonnet 13 is arranged on housing 12 back side groove, described battery status pilot lamp 1, solar panel 2 is all connected with charge controller 3 with rechargeable battery 4, and described charge controller 3 is connected with MCU6, and described MCU6 adopts ARM controller and is provided with embedded OS, and described EEPROM5 and MCU6 is connected, described LCD MODULE 7, infrared transmission module 8 is all connected with MCU6 with status indicator lamp 10, and described infrared receiving module 9 is all connected with MCU6 with button 11.

Preferably, described MCU6 onboard clock oscillator.

Preferably, described infrared transmission module 8 is made up of carrier generator, infrared emission drive circuit and infrarede emitting diode.

Preferably, described infrared module 9 adopts integrated infrared emission, receiver module.

By reference to the accompanying drawings the utility model preferred implementation is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can also make a variety of changes under the prerequisite not departing from the utility model aim.

Do not depart from design of the present utility model and scope can make many other and change and remodeling.Should be appreciated that the utility model is not limited to specific embodiment, scope of the present utility model is defined by the following claims.

Claims (4)

1. a solar energy charging type learning type infrared remote-controller, is characterized in that, comprises battery status pilot lamp, solar panel, charge controller, rechargeable battery, EEPROM, MCU, LCD MODULE, infrared transmission module, infrared receiving module, status indicator lamp, button, housing and bonnet, described battery status pilot lamp is arranged on housing front in the mounting hole of bottom, described status indicator lamp is arranged on housing front in the mounting hole on top, described button to be arranged on housing front and button is provided with display lamp, display lamp has red and green two kinds of Show Colors, " mode of learning " button is provided with in described button, described solar panel is fixedly mounted on housing front or the back side, described rechargeable battery is arranged in housing, described bonnet is arranged on back side of shell groove, described battery status pilot lamp, solar panel is all connected with charge controller with rechargeable battery, and described charge controller is connected with MCU, and described MCU adopts single-chip microcomputer or ARM controller and is provided with embedded OS, and described EEPROM and MCU is connected, described LCD MODULE, infrared transmission module is all connected with MCU with status indicator lamp, and described infrared receiving module is all connected with MCU with button.

2. a kind of solar energy charging type learning type infrared remote-controller as claimed in claim 1, is characterized in that having status indicator lamp to show during described study.

3. a kind of solar energy charging type learning type infrared remote-controller as claimed in claim 2, is characterized in that, described infrared module adopts reception, launches integral type infrared module.

4. a kind of solar energy charging type learning type infrared remote-controller as claimed in claim 3, is characterized in that, described MCU onboard clock oscillator.