CN210663212U - Automatic indoor temperature difference adjusting device - Google Patents

Abstract

The utility model relates to an indoor temperature difference automatic regulating apparatus, include horizontal pipeline and the vertical pipeline that sets up along indoor corner, the pipeline is porous material, the interval is provided with the fan in the pipeline, is equipped with temperature detector between the adjacent fan, temperature detector is connected to program controller, and temperature detector is used for surveying the real-time temperature of different positions department to convey program controller with the probing result, program controller is according to probing result automatic start fan clockwise or anticlockwise rotation for the air flows to indoor circulation from the pipeline, makes indoor temperature tend impartially as early as possible. The utility model discloses an indoor difference in temperature automatic regulating apparatus can accelerate the air from the pipeline to indoor circulation flow, as the auxiliary facilities of indoor refrigeration or heating equipment, can eliminate indoor cold and hot inequality, strengthens refrigeration or heats the effect.

Description

Automatic indoor temperature difference adjusting device

Technical Field

The utility model relates to an indoor temperature control technical field specifically is an indoor temperature difference automatic regulating apparatus.

Background

The existing indoor air conditioning facilities are rich in variety and various in products, and can achieve the purposes of refrigeration, heating, dehumidification, air purification and the like. However, there are still many defects in indoor air conditioning facilities, for example, the effect of using an air conditioner to cool in summer is often better than using an air conditioner to heat in winter in ordinary households, because the density of hot air is low when the air conditioner heats, the hot air is easy to stay in the upper layer of an indoor space, so that the cooling effect of the lower layer is not good, and people can not feel obvious heating effect because the people move in the indoor lower layer space. In order to achieve an obvious heating effect, a common household needs to purchase or arrange facilities special for heating, such as an electric oil heater, an electric heater, a floor heater and the like, two sets of temperature adjusting devices need to be used in winter and summer, and the daily living expenses of the common household are increased.

On the other hand, under the condition of large indoor space, because the air conditioner can only be installed at one side of the room, and the distance of the other side is far, the cooling or heating speed is slow or the effect is not good, at the moment, the temperature of the space at the other side can be changed quickly to reach the set value only by reducing or increasing the temperature or increasing the wind speed, but the electric quantity expenditure of a family can be increased by using the method for a long time.

The method for reducing the indoor temperature difference and balancing the indoor temperature is to accelerate the air flow, namely to increase the air supply quantity. At present, two methods of natural ventilation and mechanical ventilation are mainly used for increasing ventilation quantity. The principle of natural air supply is based on different indoor and outdoor temperatures and pressures, when negative pressure exists in a room, air naturally enters the room through a window and the like, the air exchange depends on factors such as weather conditions, an exhaust system of the house, floors of the house and the like, and the natural air supply has the advantages of no noise, energy conservation and environmental protection, but has the defects of no guarantee of air quality and capability of reaching the air supply amount specified by a standard.

The mechanical air supply is to use air draft equipment to purify, cool or heat outdoor air and then send the air to the room, so as to achieve the effects of air circulation and room temperature equalization. For example, the fresh air system adjusts the opening degrees of a fresh air valve and a return air valve of the fresh air system according to the comparison result of the enthalpy difference between outdoor fresh air and indoor return air and the preset enthalpy difference, and some fresh air systems acquire user information in the use range of the fresh air system through the induction module and judge whether users exist in the use range of the fresh air system through the acquired user information, so that the fresh air system is controlled to be opened or closed. Because the energy consumption of the fresh air system is large, the use cost is high, most of the fresh air system is used in factory buildings or warehouses with large areas of production enterprises, and the fresh air system is rarely used in household or small indoor places and is used as a facility for automatically and uniformly adjusting the temperature difference generated by air supply of the air conditioner.

SUMMERY OF THE UTILITY MODEL

Not enough more than, the utility model provides an indoor temperature difference automatic regulating apparatus can carry out automatic equilibrium to the produced difference in temperature of air conditioner air supply and adjust, reduces the indoor difference in temperature, realizes the equilibrium refrigeration of all indoor positions as early as possible or the effect of heating, brings more comfortable use experience for people.

The technical scheme of the utility model is that:

the utility model provides an indoor temperature difference automatic regulating apparatus, includes horizontal pipeline and the vertical pipeline that sets up along indoor corner, the pipeline is porous material, the interval is provided with the fan in the pipeline, is equipped with temperature detector between the adjacent fan, temperature detector is connected to program controller, and temperature detector is used for surveying the real-time temperature of different positions departments to convey the programming controller with the probing result, program controller is according to probing result automatic start fan clockwise or anticlockwise rotation for the air flows to indoor circulation from the pipeline, makes indoor temperature tend impartially as early as possible.

An ultrasonic air humidifier is arranged in the vertical pipeline.

The height of the ultrasonic air humidifier is 1.6-2 m.

And the transverse pipelines and the vertical pipelines are provided with solar panels at the positions close to the corners of the wall.

The temperature detector is connected with the program controller in a wireless mode.

The program controller is a single chip microcomputer.

The utility model discloses an indoor difference in temperature automatic regulating apparatus includes along horizontal pipeline and the vertical pipeline of indoor wall angle setting, and the pipeline is porous material, is favorable to the inside and outside flow of air. The fan and the temperature sensor are arranged in the pipeline at intervals, the temperature sensor is connected to the program controller in a wireless mode, temperature results measured at different positions are transmitted to the program controller, the program controller controls the fan to rotate clockwise or anticlockwise according to the measured results, air is accelerated to flow from the pipeline to the indoor in a circulating mode, indoor temperature is promoted to tend to be equal as soon as possible, the fan is used as an auxiliary facility of indoor refrigerating or heating equipment, uneven indoor cold and heat can be eliminated, and refrigerating or heating effects are enhanced.

Drawings

Fig. 1 is a perspective view of the automatic indoor temperature difference adjusting device of the present invention;

FIG. 2 is a partial enlarged view of the vertical duct of the present invention;

fig. 3 is a partial enlarged view of the transverse duct of the present invention.

Detailed Description

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.

Referring to fig. 1-3, the utility model discloses an indoor difference in temperature automatic regulating apparatus, including horizontal pipeline 10 and the vertical pipeline 20 that sets up along indoor corner, the pipeline is porous material, is favorable to the inside and outside flow of air. The fans 11 are arranged in the pipeline at intervals, the temperature detectors 12 are arranged between the adjacent fans 11, the temperature detectors 12 are connected to the program controller 13, the temperature detectors 12 are used for detecting real-time temperatures at different positions and transmitting detection results to the program controller 13, and the program controller 13 automatically starts the fans 11 to rotate clockwise or anticlockwise according to the detection results to achieve air suction or blowing effects, so that air circulation flowing from the pipeline to the indoor is accelerated, indoor temperature difference is eliminated, and indoor temperature tends to be equal as soon as possible. In order to reduce the line connection, the connection mode of the temperature detector 12 and the program controller 13 is wireless connection, and the program controller 13 is a single chip microcomputer.

Further, the vertical pipeline 20 is also provided with the ultrasonic air humidifier 14, so that while the air humidity is increased, essential oil can be added into the vertical pipeline, the effect which is required by a user can be achieved, such as relieving, refreshing, pleasure, sleeping and the like, and the ultrasonic humidifier can work and operate at night with lower noise, so that a human body has a good and comfortable sleeping environment. The height of the ultrasonic air humidifier 14 is 1.6m-2m, which is approximately equal to the height of a human body, and the air improvement effect is enhanced. The solar panels 15 are arranged at the positions, close to the corners, of the transverse pipelines 10 and the vertical pipelines 20, so that solar energy can be absorbed in a well-illuminated time, the effects of energy conservation and emission reduction are achieved, and the operation cost of the automatic adjusting device is reduced.

The utility model discloses an indoor difference in temperature automatic regulating apparatus can accelerate the air from the pipeline to indoor circulation flow, makes indoor temperature tend impartially as early as possible, as the auxiliary facilities of indoor refrigeration or heating equipment, can eliminate indoor cold and hot inequality, strengthens refrigeration or heats the effect.

The above disclosure is only for the embodiment of the present invention, however, the present invention is not limited thereto, and any changes that can be considered by those skilled in the art should fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides an indoor temperature difference automatic regulating apparatus, its characterized in that includes horizontal pipeline (10) and vertical pipeline (20) that set up along indoor corner, the pipeline is porous material, the interval is provided with fan (11) in the pipeline, is equipped with temperature detector (12) between adjacent fan (11), temperature detector (12) are connected to program controller (13), and temperature detector (12) are used for surveying the real-time temperature of different positions departments to convey detection result to program controller (13), program controller (13) are according to detection result automatic start fan (11) clockwise or anticlockwise rotation, thereby accelerate the air from the pipeline to indoor circulation flow, make indoor temperature impartial trend as early as possible.

2. An automatic indoor temperature difference adjusting device according to claim 1, wherein an ultrasonic air humidifier (14) is provided in the vertical duct (20).

3. The automatic indoor temperature difference adjusting device according to claim 2, wherein the ultrasonic air humidifier (14) is located at a height of 1.6m-2 m.

4. Automatic indoor temperature difference adjustment device according to claim 2, characterized in that the transverse pipes (10) and the vertical pipes (20) are provided with solar panels (15) near the corners of the wall.

5. The automatic indoor temperature difference adjusting device according to claim 1, wherein the temperature detector (12) is connected with the program controller (13) in a wireless manner.

6. The automatic indoor temperature difference adjusting device according to claim 1, wherein the program controller (13) is a single chip microcomputer.

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