CN201491803U

CN201491803U - Electronic controlled unit used for automatically dehumidifying and sterilizing shoes

Info

Publication number: CN201491803U
Application number: CN2009203062343U
Authority: CN
Inventors: 刘瑜; 潘亚君
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-07-15
Filing date: 2009-07-15
Publication date: 2010-06-02
Anticipated expiration: 2019-07-15

Abstract

The utility model discloses an electronic controlled unit used for automatically humidifying and sterilizing shoes, particularly relates to an electronic device, which can be placed in shoes, such as mountaineering shoes, cotton shoes and the like, so as to convert mechanical energy produced in walking at ordinary times to electrical energy and store the electrical energy and can start a heating wire and an ultra-violet lamp when lying fallow. The utility model solves the technical problems by adopting the following technical schemes: the electronic controlled unit comprises a singlechip for actuating software algorithm, a generating set for converting the mechanical energy to the electrical energy, a charging circuit connected with the generating set, an energy storage device connected with the charging circuit and used for storing the electrical energy, a state detecting device used for detecting whether the shoe body lie fallow or not, an emergency start button used for starting heating and dehumidification functions to meet the emergency, a heating wire used for dehumidifying, an ultra-violet lamp used for sterilizing and deodorizing, a switch S1 used for controlling the heating wire to be charged with electricity, and a switch S2 used for controlling the ultra-violet lamp to be charged with electricity. The electronic controlled unit reclaims the mechanical energy produced in walking, converts the mechanical energy to the electrical energy to dehumidify and sterilize the shoes, and has the advantages of practical and healthy functions, energy conservation and environmental protection.

Description

A kind of electronic-controlled installation of the sterilization shoes that are used for dehumidifying automatically

Technical field

The utility model relates to a kind of electronic-controlled installation of the sterilization shoes that are used for dehumidifying automatically.

Background technology

At present, energy-conserving and environment-protective technology becomes inundant a kind of trend.Such as, solar energy and wind energy are in conjunction with the street lamp of power supply, solar powered stop-light, the flashlight of hand power etc.These devices convert some solar energy, wind energy, mechanical energy to electric energy, realize the function that some are specific, not only saved the energy, and mounting, commissioning and maintenance are all very convenient.

For some footwear, such as climbing boot, cotton-padded shoes are very easy to accumulation sweat vapour, become moist, and multiply bacterium easily.Also have,, in field, mountain-climbing way, cannot handle shoes for some special occasions.If use hot hair dryer and bactericidal lamp to handle separately, use very inconvenience, and the operation of also having no idea in the open air.

Summary of the invention

The purpose of this utility model is in order to overcome the problems referred to above of existing footwear dehumidifying sterilization, introduce the energy-conserving and environment-protective technology, a kind of electronic-controlled installation that is used for the sterilization that can dehumidify automatically of footwear is provided, can in the shoes use, convert mechanical energy to electric energy specifically, and store, when shoes are vacant, start heating and dehumidification and deodorization functions.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of electronic-controlled installation of the sterilization shoes that are used for dehumidifying automatically, the single-chip microcomputer that comprises the executive software algorithm, mechanical energy is converted to the TRT of electric energy, the charging circuit that is connected with described TRT, the energy storage device that is used for store electrical energy that is connected with described charging circuit, be used to detect the condition checkout gear whether the footwear body leaves unused, the heating key circuit that is used for emergency start heating and dehumidification function, heater strip that is used to dehumidify and the uviol lamp that is used for deodorization and sterilization, and be used to control the switch S 1 whether described heater strip switches on, be used to control the switch S 2 whether described uviol lamp switches on.

Described charging circuit is provided with input and connects described TRT, comprises commutation diode D1, Zener diode D2 and filter capacitor C1, and output connects described energy storage device.

Described heating key circuit, by key switch K1, the operational amplifier OP1 of resistance R 1 and formation follower forms, and the output of described operational amplifier OP1 connects the IO3 port of described single-chip microcomputer.

Described condition checkout gear is provided with light-sensitive device D3, resistance R 2 and reference voltage E, and operational amplifier OP2, described operational amplifier OP2 constitutes comparator, and output connects the IO4 port of described single-chip microcomputer.

Described switch S 1, comprise switching tube Q1, the emitter stage of described switching tube Q1 connects described energy storage device, colelctor electrode connects described heater strip by diode D4, base stage connects the colelctor electrode of triode Q2 by resistance R 4, the grounded emitter of described triode Q2, base stage connect the IO1 mouth of described single-chip microcomputer by resistance R 3.

Described switch S 2, comprise switching tube Q3, the emitter stage of described switching tube Q3 connects described energy storage device, colelctor electrode connects described uviol lamp by diode D5, base stage connects the colelctor electrode of triode Q4 by resistance R 6, the grounded emitter of described triode Q4, base stage connect the IO2 mouth of described single-chip microcomputer by resistance R 5.

The beneficial effects of the utility model mainly show: but 1 self power generation, energy-conserving and environment-protective; 2, easy to use, be not subjected to site limitation, applicable to the field; 3, can dehumidify, but also sterilization.

Description of drawings

Fig. 1 is the systematic schematic diagram of electronic-controlled installation;

Fig. 2 is the charging circuit schematic diagram of electronic-controlled installation;

Fig. 3 is the heating key circuit schematic diagram of electronic-controlled installation;

Fig. 4 is the condition checkout gear schematic diagram of electronic-controlled installation;

Fig. 5 is switch S 1 schematic diagram of electronic-controlled installation;

Fig. 6 is switch S 2 schematic diagrams of electronic-controlled installation.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is further described.

With reference to Fig. 1-6, a kind of electronic-controlled installation of the sterilization shoes that are used for dehumidifying automatically, the single-chip microcomputer 1 that comprises the executive software algorithm, mechanical energy is converted to the TRT 2 of electric energy, the charging circuit 3 that is connected with described TRT 2, the energy storage device that is used for store electrical energy 4 that is connected with described charging circuit 3, be used to detect the condition checkout gear 8 whether the footwear body leaves unused, the heating key circuit 7 that is used for emergency start heating and dehumidification function, heater strip 5 that is used to dehumidify and the uviol lamp 6 that is used for deodorization and sterilization, and be used to control the switch S 1 whether described heater strip 5 switches on, be used to control the switch S 2 whether described uviol lamp 6 switches on.

Described charging circuit 3 is provided with input and connects described TRT 2, comprises commutation diode D1, Zener diode D2 and filter capacitor C1, and output connects described energy storage device 4.As shown in Figure 2, the unidirectional conducting of commutation diode D1 is used to collect the pulse voltage that produces from described TRT 2, and this pulse is charged to described energy storage device 4, and capacitor C 1 plays filter action, and Zener diode D2 is for can absorb too high pulse voltage.

Described heating key circuit 7, by key switch K1, the operational amplifier OP1 of resistance R 1 and formation follower forms, and the output of described operational amplifier OP1 connects the IO3 port of described single-chip microcomputer 1.As shown in Figure 3, described key switch K1 one termination power VCC, the other end connects the in-phase input end of described resistance R 1 and described operational amplifier OP1, described resistance R 1 other end ground connection.End of oppisite phase and the output of described operational amplifier OP1 connect and compose follower, and output connects the IO3 port of described single-chip microcomputer 1.

Described condition checkout gear 8 is provided with light-sensitive device D3, resistance R 2 and reference voltage E, and operational amplifier OP2, described operational amplifier OP2 constitutes comparator, and output connects the IO4 port of described single-chip microcomputer.As shown in Figure 4, the negative electrode of described light-sensitive device D3 connects power supply VCC, and anode connects the in-phase end of described resistance R2 and described operational amplifier OP2, simultaneously described resistance R 2 other end ground connection; The end of oppisite phase of described operational amplifier OP2 connects described reference voltage E, and the output of described operational amplifier OP2 connects the IO4 port of described single-chip microcomputer 1.

Described switch S 1 is arranged in the middle of described energy storage device 4 and the described heater strip 5, and whether control heater strip 5 works.As shown in Figure 5, the emitter stage of switching tube Q1 connects described energy storage device 4, colelctor electrode connects described heater strip 5 by diode D4, base stage connects the colelctor electrode of triode Q2 by resistance R 4, described triode Q2 grounded emitter, base stage connect the IO1 port of described single-chip microcomputer by resistance R 3.

Described switch S 2 is arranged between described energy storage device 4 and the described uviol lamp 6, and whether control uviol lamp 6 works.As shown in Figure 6, the emitter stage of switching tube Q3 connects described energy storage device 4, colelctor electrode connects described uviol lamp 6 by diode D5, base stage connects the colelctor electrode of triode Q4 by resistance R 6, described triode Q4 grounded emitter, base stage connect the IO2 port of described single-chip microcomputer by resistance R 5.

In sum, this utility model is utilized walk about downward kinetic energy in the process of people, converts electric energy to and stores; When single-chip microcomputer detects shoes when vacant, give the power supply of heat-generating pipe and uviol lamp, the sterilization that dehumidifies simultaneously can be by the heating key circuit, and the emergency start heater strip carries out dehumidified heating mode.This scheme is easy to use, saves environmental protection, applicable to the field.

Claims

1. the electronic-controlled installation of the sterilization shoes that are used for dehumidifying automatically, it is characterized in that: the single-chip microcomputer that comprises the executive software algorithm, mechanical energy is converted to the TRT of electric energy, the charging circuit that is connected with described TRT, the energy storage device that is used for store electrical energy that is connected with described charging circuit, be used to detect the condition checkout gear whether the footwear body leaves unused, the heating key circuit that is used for emergency start heating and dehumidification function, heater strip that is used to dehumidify and the uviol lamp that is used for deodorization and sterilization, and be used to control the switch S 1 whether described heater strip switches on, be used to control the switch S 2 whether described uviol lamp switches on.

2. the electronic-controlled installation of a kind of sterilization shoes that are used for dehumidifying automatically as claimed in claim 1, it is characterized in that: described charging circuit, input is set connects described TRT, comprise commutation diode D1, Zener diode D2 and filter capacitor C1, output connects described energy storage device.

3. the electronic-controlled installation of a kind of sterilization shoes that are used for dehumidifying automatically as claimed in claim 1, it is characterized in that: described heating key circuit, by key switch K1, the operational amplifier OP1 of resistance R 1 and formation follower forms, and the output of described operational amplifier OP1 connects the IO3 port of described single-chip microcomputer.

4. the electronic-controlled installation of a kind of sterilization shoes that are used for dehumidifying automatically as claimed in claim 1, it is characterized in that: described condition checkout gear, light-sensitive device D3 is set, resistance R 2 and reference voltage E, operational amplifier OP2, described operational amplifier OP2 constitutes comparator, and output connects the IO4 port of described single-chip microcomputer.

5. the electronic-controlled installation of a kind of sterilization shoes that are used for dehumidifying automatically as claimed in claim 1, it is characterized in that: described switch S 1, comprise switching tube Q1, the emitter stage of described switching tube Q1 connects described energy storage device, colelctor electrode connects described heater strip by diode D4, base stage is passed through the colelctor electrode that resistance R 4 connects triode Q2, the grounded emitter of described triode Q2, and base stage connects the IO1 mouth of described single-chip microcomputer by resistance R 3.

6. the electronic-controlled installation of a kind of sterilization shoes that are used for dehumidifying automatically as claimed in claim 1, it is characterized in that: described switch S 2, comprise switching tube Q3, the emitter stage of described switching tube Q3 connects described energy storage device, colelctor electrode connects described uviol lamp by diode D5, base stage is passed through the colelctor electrode that resistance R 6 connects triode Q4, the grounded emitter of described triode Q4, and base stage connects the IO2 mouth of described single-chip microcomputer by resistance R 5.