CN201517828U - Energy-saving control device connected with air conditioner and air conditioner - Google Patents

Abstract

The utility model discloses an energy-saving control device connected with an air conditioner and the air conditioner, wherein the energy-saving device comprises a temperature measuring probe, a control circuit and a ventilation device; the temperature measuring probe is arranged outdoors and is connected with the input end of the control circuit, and the output end of the control circuit is respectively connected with the air conditioner and the ventilation device; the temperature measuring probe is used for measuring the outdoor temperature, when the outdoor temperature is lower than a first preset temperature, the temperature measuring probe outputs a first control signal to the control circuit, the control circuit sends a first closing signal to the air conditioner according to the first control signal and sends a first opening signal to the ventilation device, the air conditioner stops working according to the first closing signal, and the ventilation device keeps indoor and outdoor air circulation according to the first opening signal. The utility model can measure the outdoor temperature, automatically control the air conditioner to work according to the outdoor temperature change, and save the electric energy to the utmost extent; and the ventilation device is started while the air conditioner is closed, a user does not need to open a window, and the air conditioner is convenient and quick.

Description

An energy-saving control device connected with an air conditioner and an air conditioner

technical field

The utility model relates to an energy-saving control device connected with an air conditioner and an air conditioner.

Background technique

According to the conservative statistics of the China Household Appliance Maintenance Association, the social ownership of household air conditioners in my country has exceeded 200 million units, of which, the annual sales volume of small (below 5P) air conditioners has reached 21 million units. The use time of household air conditioners is mainly concentrated in summer evenings. In the hottest 90 days, each air conditioner works for an average of 3 hours a day, and the bedroom air conditioner works for an average of 6 hours a day. If each air conditioner loses one hour per day on average, the country will save more than 200 million kWh of electricity every day.

People must close the doors and windows when using the air conditioner. Because people are generally in deep sleep at night, if the air conditioner stops working, it is difficult to open the doors and windows in time, the indoor air will not circulate, and various heat sources in the room will rapidly increase the temperature, making the room hot and stuffy. Therefore, most people turn on the air conditioner for the whole night or most of the night. In fact, the temperature tends to drop after sunset at night. During the daily life, the indoor air is not circulated enough and the building absorbs heat during the day. Sultry, after a period of time after sunset (about 10:00 p.m.), the outdoor temperature will drop to meet people's comfort requirements. If the outdoor natural air is introduced at this time to improve the indoor air quality, the air conditioner can be turned off, thereby saving money. energy.

Contents of the invention

The purpose of the utility model is to provide an energy-saving control device connected with an air conditioner and an air conditioner, which can save electric energy.

In order to achieve the above object, the utility model has taken the following technical solutions:

An energy-saving control device connected to an air conditioner, characterized in that it includes a temperature measuring probe, a control circuit, and a ventilation device;

The temperature measuring probe is installed outdoors and connected to the input end of the control circuit, and the output end of the control circuit is respectively connected to the air conditioner and the ventilation device;

The temperature measuring probe is used to measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the temperature measuring probe outputs a first control signal to the control circuit, and the control circuit sends a signal to the control circuit according to the first control signal. The air conditioner sends a first closing signal and sends a first opening signal to the ventilation device, the air conditioner stops working according to the first closing signal, and the ventilation device maintains indoor and outdoor air circulation according to the first opening signal.

An air conditioner, including an air conditioner body, a temperature measuring probe, a control circuit and a ventilation device;

The temperature measuring probe is installed outdoors and connected to the input end of the control circuit, and the output end of the control circuit is respectively connected to the air conditioner body and the ventilation device;

The temperature measuring probe is used to measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the temperature measuring probe outputs a first control signal to the control circuit, and the control circuit sends a signal to the control circuit according to the first control signal. The air conditioner sends a first closing signal and sends a first opening signal to the ventilation device, the air conditioner stops working according to the first closing signal, and the ventilation device maintains indoor and outdoor air circulation according to the first opening signal.

The utility model relates to an energy-saving control device connected with an air conditioner and an air conditioner, which can measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the air conditioner is controlled to stop working, and the ventilation device is activated at the same time to maintain indoor and outdoor air circulation. After about 10 o'clock in the evening, the air conditioner can stop working, saving electricity to the greatest extent; and the ventilation device is started at the same time as the air conditioner is turned off, so that the user does not need to open the window, which is convenient and quick.

Description of drawings

Fig. 1 is a schematic diagram of the structural principle of an energy-saving control device connected to an air conditioner in an embodiment of the present invention;

Fig. 2 is a schematic structural diagram of an embodiment of the energy-saving control device connected with the air conditioner of the present invention.

Detailed ways

The utility model relates to an energy-saving control device connected with an air conditioner and an air conditioner, which can measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the air conditioner is controlled to stop working, and the ventilation device is activated at the same time to maintain indoor and outdoor air circulation. After about 10 o'clock in the evening, the air conditioner can stop working, saving electricity to the greatest extent; and the ventilation device is started at the same time as the air conditioner is turned off, so that the user does not need to open the window, which is convenient and quick.

The content of the present utility model will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

The energy-saving control device connected with the air conditioner of the utility model, as shown in Figure 1, includes a temperature measuring probe, a control circuit, and a ventilation device;

The temperature measuring probe is installed outdoors and connected to the input end of the control circuit, and the output end of the control circuit is respectively connected to the air conditioner and the ventilation device;

The temperature measuring probe is used to measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the temperature measuring probe outputs a first control signal to the control circuit, and the control circuit sends a signal to the control circuit according to the first control signal. The air conditioner sends a first closing signal and sends a first opening signal to the ventilation device, the air conditioner stops working according to the first closing signal, and the ventilation device maintains indoor and outdoor air circulation according to the first opening signal. The first predetermined temperature is 26 degrees in a preferred embodiment, because the human body does not feel heat when the air temperature is lower than 26 degrees.

Sometimes the outdoor temperature varies. In order to automatically control the air conditioner, when the outdoor temperature is higher than the second predetermined temperature, the temperature measuring probe outputs a second control signal to the control circuit, and the control circuit sends a signal to the control circuit according to the second control signal. The air conditioner sends a second open signal and sends a second close signal to the ventilation device, the air conditioner starts to work according to the second open signal, and the ventilation device stops maintaining indoor and outdoor air circulation according to the second close signal. In this way, when the outdoor temperature is higher than the set second predetermined temperature, the air conditioner will be automatically turned on and the ventilation device will be turned off, and the second predetermined temperature is greater than or equal to the first predetermined temperature.

In one embodiment, as shown in FIG. 2 , the ventilation device includes an electric fan and an air duct, and the electric fan communicates with the outside through the air duct.

The present invention also discloses an air conditioner, which includes an air conditioner body, a temperature measuring probe, a control circuit and a ventilation device;

The temperature measuring probe is installed outdoors and connected to the input end of the control circuit, and the output end of the control circuit is respectively connected to the air conditioner body and the ventilation device;

The temperature measuring probe is used to measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the temperature measuring probe outputs a first control signal to the control circuit, and the control circuit sends a signal to the control circuit according to the first control signal. The air conditioner sends a first closing signal and sends a first opening signal to the ventilation device, the air conditioner stops working according to the first closing signal, and the ventilation device maintains indoor and outdoor air circulation according to the first opening signal. The first predetermined temperature is 26 degrees in a preferred embodiment, because the human body does not feel heat when the air temperature is lower than 26 degrees.

Sometimes the outdoor temperature varies. In order to automatically control the air conditioner, when the outdoor temperature is higher than the second predetermined temperature, the temperature measuring probe outputs a second control signal to the control circuit, and the control circuit sends a signal to the control circuit according to the second control signal. The air conditioner body sends a second open signal and sends a second close signal to the ventilation device, the air conditioner body starts to work according to the second open signal, and the ventilation device stops maintaining indoor and outdoor air according to the second close signal circulation. In this way, when the outdoor temperature is greater than the set second predetermined temperature, the air conditioner body will be automatically turned on and the ventilation device closed, and the second predetermined temperature is greater than or equal to the first predetermined temperature.

In one embodiment, the ventilation device includes an electric fan and an air duct, and the electric fan communicates with the outside through the air duct.

The utility model relates to an energy-saving control device connected with an air conditioner and an air conditioner, which can measure the outdoor temperature. When the outdoor temperature is lower than the first predetermined temperature, the air conditioner is controlled to stop working, and the ventilation device is activated at the same time to maintain indoor and outdoor air circulation. After about 10 o'clock in the evening, the air conditioner can stop working, saving electricity to the greatest extent; and the ventilation device is started at the same time as the air conditioner is turned off, so that the user does not need to open the window, which is convenient and quick.

The above detailed description is a specific description of the feasible embodiment of the utility model. This embodiment is not used to limit the patent scope of the utility model. Any equivalent implementation or change that does not deviate from the utility model shall be included in this case within the scope of the patent.

Claims (4)

1. an energy-saving control device that is connected with air-conditioning is characterized in that: comprise temperature probe, control circuit, ventilation unit;

Described temperature probe is installed in outdoor, is connected with the input of described control circuit, and the output of described control circuit is connected with described ventilation unit with air-conditioning respectively.

2. the energy-saving control device that is connected with air-conditioning according to claim 1 is characterized in that: described ventilation unit comprises electric fan and wireway, and described electric fan is communicated with outdoor by described wireway.

3. an air-conditioning is characterized in that, comprises air-conditioning body, temperature probe, control circuit and ventilation unit;

Described temperature probe is installed in outdoor, is connected with the input of described control circuit, and the output of described control circuit is connected with described ventilation unit with described air-conditioning body respectively.

4. air-conditioning according to claim 3 is characterized in that: described ventilation unit comprises electric fan and wireway, and described electric fan is communicated with outdoor by described wireway.

Images