CN201866876U - Novel energy-saving air conditioner - Google Patents

Abstract

The utility model relates to an air conditioner, in particular to a novel energy-saving air conditioner. The novel energy-saving air conditioner comprises an intelligent controller, a fan, a water tank and an atomization cabin, and is characterized in that: the intelligent controller is arranged on the atomization cabin or an electrical appliance control cabin; the fan and the atomization cabin are separately or integrally arranged; the upper part of the atomization cabin is provided with an air outlet, and the lower part of the atomization cabin is provided with the water tank and the electrical appliance control cabin; and a water level controller, an electromagnetic valve and at least one atomization sheet are arranged in the water tank. Through the novel energy-saving air conditioner, indoor temperature and humidity can be effectively adjusted, and indoor ventilation can be effectively realized; the air conditioner has a small noise and a small volume, and saves space, and meanwhile, the energy consumption and the cost can be also reduced effectively; the energy consumption is about 1KW/h when the air conditioner is used for 10 hours; and the air conditioner has a light weight, and is convenient to mount and use, and the energy consumption and the cost can be greatly reduced.

Description

The novel energy-conserving air-conditioning

Technical field

The utility model relates to a kind of air-conditioning, is specially a kind of novel energy-conserving air-conditioning.

Background technology

At present, the product of known adjusting indoor temperature mainly is air-conditioning and fan or air cooler, very effective the regulating the room temperature of air-conditioning energy, but the energy consumption of air-conditioning is very high simultaneously, and cost is also high, in long-time the use, noise is bigger, also can make indoor seasoning, cause the human body discomfort, the energy consumption of fan and air cooler and cost are all low, but temperature capability is limited in the conditioning chamber, can not satisfy the requirement of cooling.

The utility model content

At problems of the prior art, the purpose of this utility model is to provide a kind of technical scheme of novel energy-conserving air-conditioning.

Described novel energy-conserving air-conditioning, comprise intelligent controller, blower fan, tank and atomizing cabin, it is characterized in that described intelligent controller is installed on atomizing cabin or the electrical equipment control cabin, blower fan and atomizing cabin split or whole the setting, atomizing top, cabin sets out the air port, atomizing bottom, cabin is provided with tank and electrical equipment control cabin, and water level controller, magnetic valve and at least one atomizing piece are set in the described tank.

Described novel energy-conserving air-conditioning, it is characterized in that described blower fan and atomizing cabin split setting, blower fan is communicated with the atomizing cabin by airduct, and airduct is provided with sealing device with atomizing junction, cabin, atomizing is provided with the air intake baffle plate in the cabin, and the horizontal plane in air intake baffle plate and the tank constitutes air inlet duct.

Described novel energy-conserving air-conditioning is characterized in that described blower fan is provided with the atomizing cabin is whole, and blower fan is installed in the side top in atomizing cabin.

Described novel energy-conserving air-conditioning, it is characterized in that described intelligent controller comprises controller module, controller module connects man-machine interaction display module, water level detecting module, temperature and humidity detection module, power module, controller of fan module, infrared receiving module or wireless receiving module, button operation module and at least one ultrasonic atomization head respectively.

Described novel energy-conserving air-conditioning is characterized in that described water level detecting module detects water level in the tank, and detected signal feedback is arrived controller module.

Described novel energy-conserving air-conditioning is characterized in that the temperature and humidity of described temperature and humidity detection module testing environment, and gives controller module with detected signal feedback.

Described novel energy-conserving air-conditioning is characterized in that described infrared receiving module or wireless receiving module cooperate with the IR remote controller or the Digiplex of peripheral hardware, realizes the Long-distance Control of controller.

Described novel energy-conserving air-conditioning is characterized in that described controller module adopts mechanical type control or intelligent controlling.

Described novel energy-conserving air-conditioning is characterized in that described blower fan control module adopts corresponding electronic type control by controller module to different blower fans, and the blower fan control module adopts reactor speed governing or tap mode of speed regulation, regulates the size of fan delivery.

Described novel energy-conserving air-conditioning, it is characterized in that described ultrasonic atomization head is made up of power supply, water yield testing circuit, atomizing control circuit and atomizing piece, water yield testing circuit detects the water yield of ultrasonic atomization head, and give the atomizing control circuit with detected signal feedback, drive atomizing piece work.

Above-mentioned novel energy-conserving air-conditioning, can effectively regulate indoor temperature, humidity, and can effectively take a breath to indoor, noise is little, and volume is little, save the space, simultaneously also can effectively reduce energy consumption and cost, use 10 hours about 1 kilowatt hour of energy consumption, in light weight, easy to install, can largely cut down the consumption of energy and cost.

Description of drawings

Fig. 1 is a structural representation one of the present utility model;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is a structural representation two of the present utility model;

Fig. 4 is the left view of Fig. 3;

Fig. 5 is the structured flowchart one of intelligent controller of the present utility model;

Fig. 6 is the structured flowchart two of intelligent controller of the present utility model;

Fig. 7 is the structured flowchart of the utility model ultrasonic atomization head.

Among the figure: 1-man-machine interaction display module, 2-temperature and humidity detection module, 3-water level detecting module, the 4-power module, 5-controller module, 6-ultrasonic atomization head, 7-controller of fan module, 8-infrared receiving module, 9-button operation module, the 10-wireless receiving module, 11-power supply, 12-water yield testing circuit, the 13-control circuit that atomizes, 14-atomizing piece, 15-air outlet, the 16-intelligent controller, 17-tank, 18-electrical equipment control cabin, 19-water level controller, the 20-cabin that atomizes, the 21-blower fan, the 22-assembly wall, the 23-airduct, 24-air intake baffle plate, 25-sealing device, the 26-air inlet duct, the 27-magnetic valve.

The specific embodiment

Below in conjunction with Figure of description the utility model is described further:

The novel energy-conserving air-conditioning, comprise intelligent controller 16, blower fan 21, tank 17 and atomizing cabin 20, intelligent controller 16 is installed on atomizing cabin 20 or the electrical equipment control cabin 18, blower fan 21 and atomizing cabin 20 splits or whole the setting, atomizing 20 tops, cabin set out air port 15, atomizing 20 bottoms, cabin are provided with tank 17 and electrical equipment control cabin 18, and water level controller 19, magnetic valve 27 and at least one atomizing piece 14 are set in the described tank 17.

Shown in Fig. 1-2, blower fan 21 and atomizing cabin 20 split settings, blower fan 21 is arranged on assembly wall 22 outsides, blower fan 21 is communicated with atomizing cabin 20 by airduct 23, airduct 23 is provided with sealing device 25 with atomizing 20 junctions, cabin, atomizing is provided with air intake baffle plate 24 in the cabin 20, and the horizontal plane in air intake baffle plate 24 and the tank 17 constitutes air inlet duct 26.

As shown in Figure 3-4, blower fan 21 and atomizing cabin 20 whole settings, blower fan 21 is installed in the side top in atomizing cabin 20, and the wind that blower fan 21 blows out directly enters atomizing cabin 20, and atomizing cabin 20 can be installed on the assembly wall 22 as window air conditioner is installed.

Shown in Fig. 5-6, intelligent controller 16 comprises controller module 5, controller module 5 connects man-machine interaction display module 1 respectively, water level detecting module 3, temperature and humidity detection module 2, power module 4, controller of fan module 7, infrared receiving module 8 or wireless receiving module 10, button operation module 9 and at least one ultrasonic atomization head 6, ultrasonic atomization head 6 is by power supply 11, water yield testing circuit 12, atomizing control circuit 13 and atomizing piece 14 are formed, water yield testing circuit 12 detects the water yield of ultrasonic atomization head 6, and give atomizing control circuit 13 with detected signal feedback, drive atomizing piece 14 work; Water level detecting module 3 detects water level in the tank 17, and detected signal feedback is arrived controller module 5; The temperature and humidity of temperature and humidity detection module 2 testing environments, and give controller module 5 with detected signal feedback; Infrared receiving module 8 or wireless receiving module 10 cooperate with the IR remote controller or the Digiplex of peripheral hardware, realize the Long-distance Control of controller; Controller module 5 adopts mechanical type control or intelligent controlling, blower fan control module 7 adopts corresponding electronic type control by 5 pairs of different blower fans of controller module 21, blower fan control module 7 adopts reactor speed governing or tap mode of speed regulation, regulates the size of blower fan 21 air quantity.

The core component of ultrasonic atomization head 6 is an atomizing piece 14, it is the wafer of being made by piezoceramic material, it can be a mechanical energy with effective electric energy conversion, and the natural mode shape of atomizing piece 14 is more than 1MHZ, and ultrasonic atomization head 6 provides energy for the mechanical oscillation of atomizing piece 14.Transducing sheet itself can mechanical oscillation, it need add a suitable alternating voltage could produce effective mechanical oscillation, therefore need make an oscillator that is complementary with transducing sheet frequency of oscillation (employing Colpitts oscillation circuit), make transducing sheet and oscillator produce resonance, make the transducing sheet do the above mechanical oscillation of 1MHZ.When water is in the transducing sheet surface of high vibration, will be dispersed as hydrone particle, by blower fan 21 the hydrone particle will be diffused in the air then, improve the temperature and humidity of air into 1-5um.

Power module 4 adopts Switching Power Supply or Industrial Frequency Transformer working power to be provided for each parts, and controller module 5 adopts mechanical type control or intelligent controlling as required.When adopting the mechanical adjustment mode, blower fan 21 adopts reactor speed governing or tap mode of speed regulation, regulates the size of fan delivery; Ultrasonic atomization head 6 adopts mechanical switch to select the number of opening and regulate atomizing power by the atomizing power conditioning circuitry to change the atomization quantity size, regulates the atomizing water yield and changes at 200～5000ml/h, regulates temperature and humidity; Also can select to adopt intelligent controlling, by temperature and humidity detection module 2, give controller module 5 with detected temperature and humidity signal feedback, the intelligent computer chip is by the program that configures, adopt the size of SCR control blower fan reactance or the position of blower fan tap, control fan delivery size; Pass through controllable silicon or relay or triode simultaneously and regulate the number that ultrasonic atomization head 6 is opened, size by atomizing power conditioning circuitry adjusting ultrasonic atomization head drive current, control atomizing power is regulated the atomizing water yield and is changed at 200～2000ml/h, and temperature and humidity automatically controls environment, and can be by man-machine interaction display module 1, show air quantity size, the size of atomization quantity, humidity value in real time, humidity value, the working time; Infrared receiving module 8 or wireless receiving module 10 cooperate with the IR remote controller or the Digiplex of peripheral hardware simultaneously, realize the Long-distance Control of controller; Also can be according to individual's user demand, the size of self-defined humidity/temperature, the size of air quantity, the size of the number of ultrasonic atomization head and atomizing power.

During product work, water injects tank 17 by water tank by water level controller 19, magnetic valve 27, and water level controller 19 guarantees that the depth of water of 17 li of tanks remains in the claimed range, starts blower fan, wind enters air inlet duct by airduct, enter atomizing cabin 20 then, electrical control cabin 18 control atomizing pieces 14 make water fogging, and enter the outdoor air and the water smoke dissolving gasification in atomizing cabin 20, reduced air themperature, blow out by air outlet 15 then, in the inlet chamber, play the effect that reduces indoor temperature.

Claims (10)

1. novel energy-conserving air-conditioning, comprise intelligent controller (16), blower fan (21), tank (17) and atomizing cabin (20), it is characterized in that described intelligent controller (16) is installed on atomizing cabin (20) or electrical equipment control cabin (18), blower fan (21) and atomizing cabin (20) split or whole the setting, atomizing top, cabin (20) sets out air port (15), atomizing bottom, cabin (20) is provided with tank (17) and electrical equipment control cabin (18), and water level controller (19) is set in the described tank (17), magnetic valve (27) and at least one atomizing piece (14).

2. novel energy-conserving air-conditioning according to claim 1, it is characterized in that described blower fan (21) and atomizing cabin (20) split setting, blower fan (21) is communicated with atomizing cabin (20) by airduct (23), airduct (23) is provided with sealing device (25) with atomizing junction, cabin (20), in the atomizing cabin (20) air intake baffle plate (24) is set, air intake baffle plate (24) and the interior horizontal plane formation air inlet duct (26) of tank (17).

3. novel energy-conserving air-conditioning according to claim 1 is characterized in that the whole setting in described blower fan (21) and atomizing cabin (20), and blower fan (21) is installed in the side top in atomizing cabin (20).

4. novel energy-conserving air-conditioning according to claim 1, it is characterized in that described intelligent controller (16) comprises controller module (5), controller module (5) connects man-machine interaction display module (1), water level detecting module (3), temperature and humidity detection module (2), power module (4), controller of fan module (7), infrared receiving module (8) or wireless receiving module (10), button operation module (9) and at least one ultrasonic atomization head (6) respectively.

5. novel energy-conserving air-conditioning according to claim 4 is characterized in that described water level detecting module (3) detects the interior water level of tank (17), and detected signal feedback is arrived controller module (5).

6. novel energy-conserving air-conditioning according to claim 4 is characterized in that the temperature and humidity of described temperature and humidity detection module (2) testing environment, and gives controller module (5) with detected signal feedback.

7. novel energy-conserving air-conditioning according to claim 4 is characterized in that described infrared receiving module (8) or wireless receiving module (10) cooperate with the IR remote controller or the Digiplex of peripheral hardware, realizes the Long-distance Control of controller.

8. novel energy-conserving air-conditioning according to claim 4 is characterized in that described controller module (5) adopts mechanical type control or intelligent controlling.

9. novel energy-conserving air-conditioning according to claim 4, it is characterized in that described blower fan control module (7) adopts corresponding electronic type control by controller module (5) to different blower fan (21), blower fan control module (7) adopts reactor speed governing or tap mode of speed regulation, regulates the size of blower fan (21) air quantity.

10. novel energy-conserving air-conditioning according to claim 4, it is characterized in that described ultrasonic atomization head (6) is made up of power supply (11), water yield testing circuit (12), atomizing control circuit (13) and atomizing piece (14), water yield testing circuit (12) detects the water yield of ultrasonic atomization head (6), and give atomizing control circuit (13) with detected signal feedback, drive atomizing piece (14) work.

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