CN202083079U - Window air conditioner, heat radiating device and water striking ring of heat radiating device - Google Patents

Abstract

The utility model discloses a water striking ring. A plurality of water lifting sheets are arranged at the periphery of the water striking ring; a plurality of spiral sheets are spirally distributed at the side face of the water striking ring; when the spirally-distributed spiral sheets rotate, the propulsive force direction of the spiral sheets is consistent with the propulsive force direction of an axial fan. In such arrangement, the water lifting sheets of the water striking ring can lift condensed water at the lower end of the water striking ring when the water striking ring rotates; moreover, under functions of a spiral propulsive force of the spiral sheets as well as an axial airflow propulsive force of the axial fan, most of the condensed water is ensured to strike a condenser. Obviously, the water striking ring provided by the utility model can effectively increase the use ratio of the condensed water so as to solve a problem of undesirable heat exchange effect of the condenser. The utility model further provides a heat radiating device comprising the water striking ring and a window air conditioner comprising the heat radiating device.

Description

Window air conditioner, heat abstractor and hydrosphere thereof

Technical field

The utility model relates to air-conditioning technical field, relates to a kind of window air conditioner, heat abstractor and hydrosphere thereof more specifically.

Background technology

Along with the continuous development of Chinese national economy, the improving constantly of living standards of the people, air-conditioning has entered each field such as family, hospital, hotel, office.

The effect of air-conditioning system is that room air is handled, and makes the index such as humidity, temperature, freshness, cleanliness factor of air meet the instructions for use in place.Therefore, air-conditioning equipment must cool off or heating, dehumidification or treatment measures such as humidification and filtration air.

Air-conditioning can be divided into window air conditioner and separation type air-conditioning according to its installation form, and wherein, window air conditioner is installed in window position or other position.Opposite side indoor that existing window air conditioner comprises cabinet, be installed on the outside heat exchange department of cabinet inside one side and be installed on cabinet inside is interior calorimetric exchange portion.Wherein, the indoor heat exchange department can produce heat exchange with room air, and the outside heat exchange department can produce heat exchange with outdoor air.

The outside heat exchange department comprises compressor, condenser and aerofoil fan, and condenser is connected with compressor by refrigerant pipe, and condenser and outdoor air produce heat exchange, thereby make gaseous refrigerant be converted into liquid refrigerant.When refrigeration system was moved, the condenser temperature that carries out after the heat exchange was higher, needed lower the temperature to it, can guarantee that its heat exchange has effect preferably.

Aerofoil fan is installed in the inboard of condenser, and it can the suction chamber outer air and the outdoor air that sucks blowed to condenser, so that the condenser cooling.In order further to improve the condenser cooling rate, the periphery of aerofoil fan of the prior art is surrounded with hydrosphere.The condensed water that the indoor heat exchange department forms can flow on the chassis of outside, and hydrosphere can continuously be thrown to condensed water on the condenser, with the reduction condenser temperature, and then can improve heat exchanger effectiveness.

Yet during the hydrosphere water dumping, condensed water splashes everywhere in the prior art, and direction differs, and drops on to have only the sub-fraction condensed water on the condenser, and the utilization of condensed water rate is lower, and then causes condenser heat exchange effect undesirable.

Therefore, how to increase hydrosphere and get rid of the condensation water quantity of delivering on the condenser, become those skilled in the art's major issue to be solved.

The utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of hydrosphere, gets rid of the condensation water quantity of delivering on the condenser to increase hydrosphere.The utility model also provides a kind of heat abstractor that comprises above-mentioned hydrosphere.In addition, the utility model also provides a kind of window air conditioner that comprises above-mentioned heat abstractor.

A kind of hydrosphere that the utility model provides is arranged at the periphery of aerofoil fan, and the side spiral of described hydrosphere is distributed with some flights, and the propulsive force direction of described flight is consistent with the propulsive force direction of described aerofoil fan.

Preferably, the outer peripheral face of described hydrosphere is provided with some water sheets of copying.

Preferably, flight is the 5-60 degree with respect to the acute rake angle of the outline line of described hydrosphere.

Preferably, described flight is connected with the described water sheet of copying.

Preferably, described flight and described copy the water sheet be a plurality of, and along circumferentially being uniformly distributed in described hydrosphere.

Preferably, a plurality of described flights are with a plurality of described to copy the water sheet corresponding one by one.

The utility model also provides a kind of heat abstractor, is used for the heat radiation of the condenser of outside heat exchange department, and this heat abstractor comprises aerofoil fan, also comprises above-mentioned each the described hydrosphere that is arranged at described aerofoil fan periphery.

The utility model also provides a kind of window air conditioner, and its outside heat exchange department comprises condenser, also comprises the heat abstractor as described above that is used for described condenser heat radiation.

The hydrosphere that the utility model provides is arranged at the periphery of aerofoil fan, and the side spiral of hydrosphere is distributed with some flights, and spiral distribute the flight rotation time, its propulsive force direction is consistent with the propulsive force direction of aerofoil fan.Need to prove that during the hydrosphere rotation, flight can be taken up the condensed water of hydrosphere lower end.In addition, the flight spiral is distributed in the side of hydrosphere, and promptly when hydrosphere rotated, the flight that spiral distributes can produce screw propulsion power, and the axial flow direction of this propulsive force and aerofoil fan generation is unanimous on the whole.So be provided with, during the hydrosphere rotation, its flight can be taken up the condensed water of hydrosphere lower end, and under the effect of the effect of the screw propulsion power of flight and aerofoil fan axial flow propulsive force, can make most of condensed water beat to condenser.Obviously, the hydrosphere that the utility model provides can effectively improve the utilization of condensed water rate, and then has evaded the unfavorable problem of condenser heat exchange effect.

In the preferred version of the present utility model, the outer peripheral face of described hydrosphere is provided with some water sheets of copying.Need to prove, on the outer peripheral face of hydrosphere, be provided with some water sheets of copying,, during the hydrosphere rotation, copy the water sheet and take up the amount of condensed water is taken up condensed water greater than flight amount with respect to the flight that is arranged at the hydrosphere side.So the hydrosphere that the utility model provides, its outer peripheral face is provided with some water sheets of copying, and has further improved the outlet capacity of copying of hydrosphere.

In the another kind of preferred version of the present utility model, described flight is connected with the described water sheet of copying.Need to prove that copy on the outer peripheral face that the water sheet is arranged at hydrosphere, flight is arranged on the side of hydrosphere, copies the water sheet and is connected with flight.So be provided with, copy the condensed water that the water sheet takes up and directly to be moved to flight along copying the water sheet, be connected with flight, can make the flight that is moved to of copying condensed water maximum on the water sheet owing to copy the water sheet.Obviously, further increased by flight and got rid of the condensation water quantity of delivering to condenser.

The utility model also provides a kind of heat abstractor, is used for the heat radiation of the condenser of outside heat exchange department, and this heat abstractor comprises aerofoil fan, also comprises above-mentioned each the described hydrosphere that is arranged at described aerofoil fan periphery.So be provided with, the heat abstractor that the utility model provides during its hydrosphere rotation, is copied the water sheet and the condensed water of hydrosphere lower end can be taken up, and under the effect of the effect of the screw propulsion power of flight and aerofoil fan axial flow propulsive force, can make most of condensed water beat to condenser.Obviously, the heat abstractor that the utility model provides can effectively improve the utilization of condensed water rate, and then has evaded the unfavorable problem of condenser heat exchange effect.

The utility model also provides a kind of window air conditioner, and its outside heat exchange department comprises condenser, also comprises the heat abstractor as described above that is used for described condenser heat radiation.So be provided with, the window air conditioner that the utility model provides, its condenser radiating effect is better, and the beneficial effect derivation of its concrete derivation and above-mentioned hydrosphere and heat abstractor is similar substantially, so this paper repeats no more.

Description of drawings

Fig. 1 is a hydrosphere partial structurtes schematic diagram in the utility model specific embodiment;

Fig. 2 is a construction for heat radiating device schematic diagram in the utility model specific embodiment;

Fig. 3 is the outside heat exchange department structural representation of window air conditioner in the utility model specific embodiment.

The specific embodiment

The utility model provides a kind of hydrosphere, gets rid of the condensation water quantity of delivering on the condenser to increase hydrosphere.The utility model also provides a kind of heat abstractor that comprises above-mentioned hydrosphere.In addition, the utility model also provides a kind of window air conditioner that comprises above-mentioned heat abstractor.

Below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiments.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.

Please refer to Fig. 1 and Fig. 2, Fig. 1 is a hydrosphere partial structurtes schematic diagram in the utility model specific embodiment; Fig. 2 is a construction for heat radiating device schematic diagram in the utility model specific embodiment.

The side spiral of the hydrosphere 11 that this specific embodiment provides is distributed with some flights 112.And when the flight 112 of spiral distribution rotated, its propulsive force direction was consistent with the propulsive force direction of aerofoil fan 12.

Need to prove that the hydrosphere 11 that this specific embodiment provides is arranged at the periphery of aerofoil fan 12.When hydrosphere 11 rotations, the flight 112 that spiral distributes can produce screw propulsion power, and the axial flow direction of this propulsive force and aerofoil fan 12 generations is unanimous on the whole.

So be provided with, during hydrosphere 11 rotations, its flight 112 can be taken up the condensed water of hydrosphere 11 lower ends, and under the effect of the effect of the screw propulsion power of flight 112 and aerofoil fan 12 axial flow propulsive forces, can make most of condensed water beat to condenser.Obviously, the hydrosphere 11 that the utility model provides can effectively improve the utilization of condensed water rate, and then has evaded the unfavorable problem of condenser heat exchange effect.

In addition, hydrosphere 11 provided in the present embodiment, its outer peripheral face also can be provided with some water sheets 111 of copying.

Need to prove that the some water sheets 111 of copying that are provided with respect to the flight 112 that is arranged at hydrosphere 11 sides, during hydrosphere 11 rotations, are copied water sheet 111 and taken up the amount of condensed water is taken up condensed water greater than flight 112 amount on the outer peripheral face of hydrosphere 11.So hydrosphere 11 provided in the present embodiment, some water sheets 111 of copying that its outer peripheral face is provided with have further improved the outlet capacity of copying of hydrosphere 11.

In the preferred version of this specific embodiment, flight 112 is the 5-60 degree with respect to the acute rake angle of the outline line of hydrosphere 11.Need to prove that the blade of aerofoil fan 12 has the angle of inclination, and this angle of inclination is the 5-60 degree.

So be provided with, the angle of inclination of the blade of the angle of inclination of flight 112 and aerofoil fan 12 is unanimous on the whole, and is when the condensed water that hydrosphere 11 is played is thrown away by flight 112, consistent with the axial flow direction of aerofoil fan 12.Obviously, condensed water can be delivered to condenser by getting rid of of maximum, to improve the condenser heat exchanger effectiveness.

In addition, got rid of the condensation water quantity of delivering to condenser in order further to increase, hydrosphere 11 provided in the present embodiment, its flight 112 with copy water sheet 111 and be connected.

Need to prove that copy on the outer peripheral face that water sheet 111 is arranged at hydrosphere 11, flight 112 is arranged on the side of hydrosphere 11, copies water sheet 111 and is connected with flight 112.So be provided with, copying the condensed water that water sheet 111 takes up can directly be moved on the flight 112 along copying water sheet 111, is connected with flight 112 owing to copy water sheet 111, can make copy condensed water maximum on the water sheet 111 be moved to flight 112.Obviously, further increased by flight and got rid of the condensation water quantity of delivering to condenser.

Need to prove, above-mentioned flight 112 and copy water sheet 111 and can be a plurality ofly, and the two is all along circumferentially being distributed in hydrosphere 11.Such as, flight 112 with copy water sheet 111 and can be 12, adjacent two flights 112 or adjacent two copy water sheet 111 and are 30-degree angle with respect to hydrosphere 11 centers and distribute.Certainly, flight 112 and copy water sheet 111 and can be specially other quantity, such as, 10,8 etc.

So be provided with, hydrosphere 11 provided in the present embodiment can continuously get rid of condensed water uniformly and deliver on the condenser.

In addition, need to prove that a plurality of flights 112 of above-mentioned hydrosphere 11 are with a plurality of to copy water sheet 111 corresponding one by one.Should be understood that this is located one by one correspondence and means that each copies water sheet 111 and be connected with a flight 112.Certainly, the quantity of flight 112 also can be inconsistent with the quantity of copying water sheet 111.This specific embodiment does not limit the flight 112 or the concrete quantity of copying water sheet 111.

Fig. 3 is the outside heat exchange department structural representation of window air conditioner in the utility model specific embodiment.

This specific embodiment also provides a kind of heat abstractor, is used for the heat radiation of the condenser 13 of outside heat exchange department, and this heat abstractor comprises aerofoil fan 12, also comprises the hydrosphere 11 in the above-mentioned specific embodiment that is arranged at aerofoil fan 12 peripheries.

Need to prove that existing window air conditioner comprises cabinet, be installed on the outside heat exchange department of a side of cabinet inside and opposite side indoor that be installed on cabinet inside is interior calorimetric exchange portion.Wherein, the indoor heat exchange department can produce heat exchange with room air, and the outside heat exchange department can produce heat exchange with outdoor air.The outside heat exchange department comprises compressor, condenser 13 and heat abstractor, and condenser is connected with compressor by refrigerant pipe, and condenser and outdoor air produce heat exchange, thereby make gaseous refrigerant be converted into liquid refrigerant.When refrigeration system was moved, condenser 13 temperature of carrying out after the heat exchange were higher, needed lower the temperature to it, can guarantee that its heat exchange has effect preferably.

So be provided with, the heat abstractor that the utility model provides, during its hydrosphere 11 rotations, copying water sheet 111 can take up the condensed water of hydrosphere 11 lower ends, and under the effect of the effect of the screw propulsion power of flight 112 and aerofoil fan 12 axial flow propulsive forces, can make most of condensed water beat to condenser 13.Obviously, the heat abstractor that the utility model provides can effectively improve the utilization of condensed water rate, and then has evaded the unfavorable problem of condenser 13 heat exchange effects.

This specific embodiment also provides a kind of window air conditioner, and its outside heat exchange department comprises condenser 13, also comprises the heat abstractor as the above-mentioned specific embodiment that is used for condenser 13 heat radiations.

So be provided with, the window air conditioner that the utility model provides, its condenser 13 radiating effects are better, and the beneficial effect derivation of its concrete derivation and above-mentioned hydrosphere 11 and heat abstractor is similar substantially, so this paper repeats no more.

More than a kind of window air conditioner provided by the utility model, heat abstractor and hydrosphere thereof are described in detail, used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present utility model and core concept thereof.Should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection domain of the utility model claim.

Claims (8)

1. hydrosphere is arranged at the periphery of aerofoil fan, it is characterized in that the side spiral of described hydrosphere is distributed with some flights, and the propulsive force direction of described flight is consistent with the propulsive force direction of described aerofoil fan.

2. hydrosphere as claimed in claim 1 is characterized in that, the outer peripheral face of described hydrosphere is provided with some water sheets of copying.

3. hydrosphere as claimed in claim 2 is characterized in that, the acute rake angle of described flight is the 5-60 degree.

4. hydrosphere as claimed in claim 3 is characterized in that, described flight is connected with the described water sheet of copying.

5. hydrosphere as claimed in claim 4 is characterized in that, described flight and described copy the water sheet be a plurality of, and along circumferentially being uniformly distributed in described hydrosphere.

6. hydrosphere as claimed in claim 5 is characterized in that, a plurality of described flights are with a plurality of described to copy the water sheet corresponding one by one.

7. heat abstractor is used for the condenser heat radiation of outside heat exchange department, comprises aerofoil fan, it is characterized in that, also comprise be arranged at described aerofoil fan periphery as each described hydrosphere of claim 1-6.

8. window air conditioner, its outside heat exchange department comprises condenser, it is characterized in that, also comprises the heat abstractor as claimed in claim 7 that is used for described condenser heat radiation.

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