CN206636067U - A kind of anti-icing wimble device of eaves - Google Patents

Abstract

An anti-ice cone device for eaves, which includes an air outlet of an air conditioner external unit, an air induction pipe, a wind generator, a circulating air duct, a controller, a battery, a heating plate, and a temperature sensor; The wind generator is installed inside the air induction pipe, and the other end of the air induction pipe is directly connected with the circulating air duct. The utility model can solve the problem that ice cones are often produced on the eaves of some houses and buildings in rainy and snowy weather, which not only endangers the safety of pedestrians, but also affects the appearance. However, the existing solution is manual deicing, which is dangerous and The problem of low efficiency.

Description

An anti-icing cone device for eaves

technical field

The utility model belongs to the field of household equipment, in particular to an anti-ice cone device for eaves.

Background technique

With the improvement of people's living standards, people's requirements for a comfortable environment are getting higher and higher, and air conditioners have become an indispensable household appliance for people. During the working process of the air conditioner, the outside of the air conditioner will discharge air at a certain speed. At the same time, when the air-conditioning system is heating in winter, the gas discharged from the exhaust system has higher thermal energy than the external environment. However, the existing equipment directly discharges the air to the outside, which does not effectively utilize this part of thermal energy and wind energy. , resulting in a waste of resources. In addition, the weather is cold in winter, and under rainy and snowy weather, ice cones are often produced at the eaves of some houses and buildings, which not only endangers the safety of pedestrians, but also affects the appearance. The existing solution is manual deicing, which is dangerous and not efficient.

Contents of the invention

The technical problem to be solved by the utility model is to provide a kind of eave anti-icicle device for the above-mentioned deficiencies in the prior art. The safety of pedestrians also affects the appearance, and the existing solution is manual deicing, which is dangerous and inefficient.

The purpose of utility model is to realize like this:

An anti-ice cone device for eaves, which includes an air outlet of an air conditioner external unit, an air duct, a wind generator, a circulating air duct, a controller, a battery, an electric heater, and a temperature sensor; an air duct is installed at the air outlet of an air conditioner, and is small The wind generator is installed inside the air induction pipe, and the other end of the air induction pipe is directly connected with the circulating air duct.

The wind generator inside the above-mentioned air induction pipe is connected to the controller, the storage battery is electrically connected to the controller, the electric heater is electrically connected to the storage battery through wires, and the temperature sensor is electrically connected to the controller.

The temperature sensor mentioned above is directly installed on the surface of the circulating air duct.

The above-mentioned electric heater is fixedly installed inside the circulating air duct.

The above-mentioned circulating air duct is evenly laid at the position where the eaves are easy to freeze.

The above-mentioned controller is a single-chip microcomputer chip or an embedded system.

The above-mentioned temperature sensor adopts the capacitive temperature sensor of AM2305 model.

The wind power generator mentioned above adopts the DLZ-300M model wind power generator.

By adopting the above structure, the utility model can have the beneficial effects of preventing the eaves from freezing and heating the eaves before freezing by recycling the wind energy and thermal energy of the external unit of the air conditioner. Through the cooperation of wind generators, controllers and batteries, as well as the use of air induction pipes and circulating air ducts, the originally wasted wind energy is recycled for power generation and heating electric heaters, effectively avoiding the occurrence of icing cones on the eaves when the temperature is low in winter.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further described:

Fig. 1 is the structural representation of the utility model.

Fig. 2 is a block diagram of the utility model.

detailed description

An eaves anti-icing device shown in Fig. 1 is shown in the figure, including an air outlet of an air conditioner external unit 1, an air duct 2, a wind power generator 3, a circulating air duct 4, a controller 5, a battery 6, an electric heater 7, a temperature sensor8.

The air outlet 1 of the air conditioner external unit is equipped with an air induction pipe 2 , a small wind power generator 3 is installed inside the air induction pipe 2 , and the other end of the air induction pipe 2 is directly connected with the circulating air duct 4 . The circulating air duct 4 is evenly laid at the position where the eaves are easy to freeze.

The wind generator 3 inside the air induction pipe 2 is directly electrically connected to the controller 5 , the battery 6 is electrically connected to the controller, the electric heater 7 is electrically connected to the battery 6 through wires, and the temperature sensor 8 is electrically connected to the controller 5 .

The temperature sensor 8 is directly installed on the surface of the circulating air duct. The electric heater 7 is fixedly installed in the circulating air duct 4 inside.

At the same time, the wind discharged from the air outlet 1 of the air conditioner external unit drives the small wind generator 3 to work and generate electricity, and the generated electric energy is stored in the battery 6 through the controller 5 . When the temperature sensor 8 detects that the temperature inside the circulating air duct 4 is too low, the controller 5 controls the storage battery 6 to supply power to the heating sheet 7, so that the heating sheet 7 heats up and the temperature in the circulating air duct 4 is increased, thereby avoiding icing on the eaves surface.

When the air conditioner is working normally in winter, the air outlet 1 of the external unit of the air conditioner discharges hot air that is continuously stable and higher than the outdoor temperature to the air duct 2. 4 Play the role of heating, heat preservation and antifreeze.

The above-mentioned temperature sensor adopts the capacitive temperature sensor of AM2305 model.

The wind power generator mentioned above adopts the DLZ-300M model wind power generator.

The above-mentioned controller can choose single-chip microcomputer or embedded system or PLC. The single-chip microcomputer is 80C52 single-chip microcomputer.

For those skilled in the art, electronic components such as single-chip microcomputers, temperature sensors, and wind power generators belong to the well-known technologies of those skilled in the art, and the selection of their models is not limited to the description in this manual. The connection and control relationship between single-chip microcomputers and conventional electronic components It belongs to the common knowledge of those skilled in the art and will not be repeated in this specification.

With the above structure, when in use, the eaves anti-icing cone device of the present invention has the function of recycling the wind energy and heat energy of the external unit of the air conditioner. When the air conditioner is working, the wind discharged from the air outlet 1 of the external unit of the air conditioner drives the small wind-driven generator 3 to work. Power generation, through the controller 5, the generated electric energy is stored in the battery 6, and at the same time, the air discharged from the air outlet 1 of the external unit of the air conditioner has a certain amount of heat energy, which is diverted to the circulating air duct 4 through the air induction pipe 2, and plays a role in the circulating air duct 4. Heating and insulation to prevent the eaves from freezing. When the temperature sensor 8 inside the circulating air duct detects that the temperature is lower than the set value, the controller 5 controls the battery 6 to supply power to the electric heating sheet 7, so that the electric heating sheet 7 generates heat to increase the temperature in the circulating air duct 4, thereby avoiding eaves knotting. ice.

Claims (5)

1. a kind of anti-icing wimble device of eaves, it is characterised in that it includes outdoor machine of air-conditioner air outlet（1）, induced duct（2）, wind-force hair Motor（3）, circulation air path（4）, controller（5）, battery（6）, electric heating piece（7）, temperature sensor（8）；Outdoor machine of air-conditioner air-out Mouthful（1）Induced duct is installed（2）, small-sized wind power generator（3）Installed in induced duct（2）Inside, induced duct（2）Other end end With circulation air path（4）It is joined directly together.

A kind of 2. anti-icing wimble device of eaves according to claim 1, it is characterised in that：The induced duct（2）Internal wind Power generator（3）With controller（5）Connection, battery（6）It is electrically connected with the controller, electric heating piece（7）With battery（6）By leading Line electrically connects, temperature sensor（8）Electricity connects controller（5）.

A kind of 3. anti-icing wimble device of eaves according to claim 1 or 2, it is characterised in that：The temperature sensor（8）Directly Connect and be arranged on circulation air path surface.

A kind of 4. anti-icing wimble device of eaves according to claim 1 or 2, it is characterised in that：The electric heating piece（7）Fixed peace Mounted in circulation air path（4）It is internal.

A kind of 5. anti-icing wimble device of eaves according to claim 1, it is characterised in that：The controller（5）For single-chip microcomputer Chip or embedded system.