CN201251256Y - Air-conditioning fan - Google Patents

Abstract

An air conditioner fan that can filter air and the temperature of the cold air blown out can be freely controlled. The air-conditioning fan is named as the air-conditioning fan because its appearance resembles a miniature cabinet air conditioner, and there is a water pump in it to cool the air in the water cycle and blow out cold air lower than the greenhouse. It installs a temperature controller on the air-conditioning fan on the basis of the air-conditioning fan on the market and sets a water tank containing ice cubes on the top of the air-conditioning fan. The connection forms a flow exchange device.

Description

Air-conditioning fan

Technical field

The utility model relates to a blowing device which can filter air and blow out cold wind used by people in summer, in particular to an air conditioner fan whose temperature of the blown cold wind can be controlled.

Background technique

The structure of the known air-conditioning fan is that the inside of the air-conditioning fan has a centrifugal wind wheel, and the wind blown out is blown out from the front blowing window. A set-top ice storage box, the water pump pumps the water in the water tank filled with water through the water pipe to the top ice storage box of the air-conditioning fan continuously, and the water flows from a row of water holes at the bottom of the top ice storage box to the On the filter screen connected below, running water flows in the water tank below through the filter screen again. When in use, the centrifugal wind wheel inside the air-conditioning fan blows air through the filter screen, and the air is cooled by the filter screen continuously flowing through the water circulation, and then blows out from the blowing window. The air conditioner fan is named as the air conditioner fan because its appearance resembles a miniature cabinet air conditioner, and there is a water pump in it to cool the air in the water cycle and blow out cold air below room temperature. But, the temperature of the cold wind that air-conditioning fan blows can not freely control according to people's needs.

Contents of the invention

In order to overcome the shortcoming that the cold wind blown out by the existing air-conditioning fan cannot be controlled. The utility model provides an air-conditioning fan, which can not only blow out cold air, but also freely control the temperature of the blown cold air.

The technical scheme adopted by the utility model to solve the technical problem is: the top of the air-conditioning fan is provided with a water tank containing ice cubes, and the water tank containing water at the lower part of the air-conditioning fan is connected with the water tank containing ice cubes on the top of the air-conditioning fan to form a flowing water exchange device, namely heat exchange device. A small water pump is arranged in the water tank of the air conditioner fan bottom, and the water outlet of the small water pump is connected with a flow pipe, and the other end of the flow pipe is fixed at the highest water level in the ice cube water tank on the top of the air conditioner fan. A flow pipe is installed on the water tank of ice cubes, and the other end of the flow pipe is placed in the water tank of the air-conditioning fan bottom. The water tank of adorned ice cube is made with thermal insulation material and has thermal insulation, and the top of the water tank of adorned ice cube has a water tank lid. Install a temperature controller on the air-conditioning fan (the working principle of the temperature controller on the refrigerator is the same), the thermistor sensor on the temperature controller is placed at the blowing window of the air-conditioning fan, and the electromagnetic switch on the temperature controller is connected in series. On the circuit of the small water pump provided in the water tank. The motor of the centrifugal wind wheel, the water pump in the water tank and the small water pump are connected in parallel with each other and share a power line. The power supply of the temperature controller on the air-conditioning fan is the power supply of two small batteries installed on it.

When the air conditioner fan is used in summer, the water pump in the water tank circulates the water to the top ice storage box continuously through the water pipe, and the water flows from a row of water holes at the bottom of the top ice storage box to the filter below. Then it flows from the filter screen to the water tank below. The centrifugal wind wheel inside the air-conditioning fan blows the air into the filter screen with flowing water flowing through it continuously, and then blows it out from the blowing window. When the temperature of the blown cold air is higher than the blowing window set by the temperature controller on the air-conditioning fan When the temperature of the cold air is high, the resistance of the thermistor sensor placed on the temperature controller of the blowing window becomes smaller, the semiconductor triode is saturated and conducts, and the electromagnetic switch connected in series with the circuit of the small water pump in the water tank opened. At this time, the small water pump in the water tank of the water is delivered to the water tank of the ice cube on the top of the air-conditioning fan by a flow pipe connected by its water outlet to the water in the water tank of the water tank. When the water in the water tank of the ice cubes was almost full, the running water was delivered to the water tank of the air-conditioning fan bottom from a flow pipe installed on the water tank of the ice cubes through cooling. The water pump in the water tank filled with water continues to deliver the water to the filter screen blown by the centrifugal wind wheel. becomes larger, the electromagnetic switch on the temperature controller is turned off. The circuit of the small water pump in the water tank filled with water is closed, and the small water pump stops delivering water to the water tank filled with ice cubes on the top of the air-conditioning fan. The temperature of the cold wind blowing out from the blowing window remains on the temperature controller setting on the air-conditioning fan again, repeats like this.

The beneficial effect of the utility model is that: the temperature of the cold air blown by the air-conditioning fan can be freely controlled according to one's needs. A temperature controller is installed on the air-conditioning fan, and the water tank at the lower part of the air-conditioning fan and the water tank containing ice cubes arranged at the top of the air-conditioning fan form a flowing water exchange device, which has a simple structure and is easy to use.

Description of drawings

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

Fig. 1 is the exterior view of the utility model.

Fig. 2 is a schematic diagram of the internal structure of an embodiment of the air-conditioning fan.

Among the figure 1, temperature controller, 2, blowing window, 3, flow pipe, 4, flow pipe, 5, the water tank of adorned water, 6, the water tank of adorned ice cube, 7 small water pumps.

Detailed ways

The utility model is described in detail in conjunction with Fig. 1 and Fig. 2. The top of the air-conditioning fan is provided with a water tank (6) filled with ice cubes, and the water tank (5) filled with water at the bottom of the air-conditioning fan is connected with the water tank (6) filled with ice cubes on the top of the air-conditioning fan to form a flowing water exchange device, i.e. a heat exchange device. A small water pump (7) is arranged in the water tank (5) at the bottom of the air-conditioning fan. The highest water level place in the water tank (6) of ice cube. A running water pipe (4) is installed on the water tank (6) of ice cubes, and the other end of the running water pipe (4) is placed in the water tank (5) of the air-conditioning fan bottom. The water tank (6) of adorned ice cubes is made with insulation material and has thermal insulation, and a water tank cover is arranged on the top of the water tank (6) of adorned ice cubes. A temperature controller (1) is installed on the air-conditioning fan, the thermistor sensor on the temperature controller (1) is placed at the blowing window (2) of the air-conditioning fan, and the electromagnetic switch on the temperature controller (1) is connected in series to the On the circuit of the small water pump (7) that is provided with in the water tank (5). The electric motor of the centrifugal wind wheel, the water pump in the water tank (5) filled with water and the circuits between the small water pumps (7) are connected in parallel with each other and share a power line. What the power supply of the temperature controller (1) on the air-conditioning fan used is the power supply of two small batteries installed on it.

When the air-conditioning fan was used in summer, the water tank (5) filled with water at the bottom of the air-conditioning fan was filled with water, and the water tank (6) filled with ice cubes at the top of the air-conditioning fan was filled with ice cubes and then covered with a water tank cover. Insert the power plug of the air-conditioning fan into the power supply, turn on the power switch of the temperature controller (1), and set the temperature of the cold air blown by an air-conditioning fan at the same time, and then turn on the water pump in the water tank (5) and the motor of the centrifugal wind wheel the power switch. At this time, the water pump in the water tank (5) filled with water circulates the water continuously to the top ice storage box through the water pipe, and the running water flows from a row of water holes at the bottom of the top ice storage box to the filter screen below, and then Flow in the water tank (5) of filling water below from filter screen again. Simultaneously, the centrifugal wind wheel inside the air-conditioning fan blows the air to the filter screen that the circulating water flows through continuously, the air is cooled, filtered, and finally blown out from the blowing window (2). The temperature controller ( 1) The resistance value of the thermistor sensor on the top becomes smaller, the semiconductor triode is saturated and conducts, and the electromagnetic switch on the circuit of the small water pump (7) connected in series in the water tank (5) filled with water is turned on. At this time, the small water pump (7) in the water-filled water tank (5) circulates the water in the water-filled water tank (5) to the device on the top of the air-conditioning fan through a flow pipe (3) connected to the water outlet. Ice cubes in the water tank (6). When the water in the ice cube water tank (6) was almost full, the running water was delivered to the water tank (5) at the bottom of the air-conditioning fan from a flow pipe (4) installed on the ice cube water tank (6) through cooling. )middle. The water pump in the water tank (5) filled with water continues to deliver the water to the filter screen blown by the centrifugal wind wheel. The resistance value of the thermistor sensor becomes larger, and the electromagnetic switch on the temperature controller (1) is turned off. The circuit of the small water pump (7) in the water tank (5) filled with water is closed, and the small water pump (7) stops delivering water to the water tank (6) of ice cubes on the top of the air-conditioning fan. The temperature of the cold wind blowing out from the blowing window (2) is maintained on the temperature controller (1) on the air-conditioning fan again from the temperature of the cold wind blowing out from the blowing window (2) on the air-conditioning fan, so repeatedly.

Claims (1)

An air-conditioning fan, the top of the air-conditioning fan is provided with a set-top ice storage box with a row of water holes at the bottom, the filter screen and the centrifugal fan wheel are installed in the middle of the air-conditioning fan, and the lower part of the air-conditioning fan is provided with a water pump inside. The water tank (5) of the water pump, the water outlet of the water pump is connected with a water pipe, and the other end of the water pipe is placed in the ice storage box on the top of the set, and there is a blowing window (2) in front of the air conditioner fan casing, and its feature is: A water tank (6) for adorning ice cubes is set, and the water tank (6) for adorning ice cubes is connected with the water tank (5) for filling water in the lower part of the air-conditioning fan to form a flowing water exchange device, i.e. a heat exchange device; a temperature controller is installed on the air-conditioning fan (1), the thermistor sensor on the temperature controller (1) is placed on the blowing window (2) of the air-conditioning fan, and the electromagnetic switch on the temperature controller (1) is connected in series to the water tank (5) that is provided with On the circuit of the small water pump (7); a small water pump (7) is arranged in the water tank (5) at the bottom of the air conditioner fan, and the water outlet of the small water pump (7) is connected with a flow pipe (3), and the water outlet of the flow pipe (3) The other end is fixed at the highest water level in the water tank (6) of ice cubes on the top of the air-conditioning fan; a water pipe (4) is installed on the water tank (6) of ice cubes, and the other end of the water pipe (4) is placed on the In the water tank (5) of the fan bottom; the water tank (6) of the ice cube is arranged on the top of the air-conditioning fan, and the water tank (6) of the ice cube is made with thermal insulation material to have thermal insulation, and the water tank of the ice cube ( 6) has a water tank cover on the top; the electric circuit between the motor of the centrifugal wind wheel, the water pump in the water tank (5) and the small water pump (7) are connected in parallel with each other and share a power line; the temperature control on the air-conditioning fan What the power supply of device (1) used is the power supply of two small batteries installed on it.

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