CN113531670A - Impeller device and mobile air conditioner beat water - Google Patents

Abstract

The invention discloses a water beating impeller device and a mobile air conditioner, wherein the water beating impeller device comprises a water beating impeller, wherein a runner formed by a downward sunken groove is formed in the water beating impeller, the runner is designed in a groove digging mode, surface ribs on the traditional water beating impeller are omitted, the used materials are few, the cost is saved, the water beating amount of the runner is greatly increased, the cooling effect on a condenser is increased, the function of the water beating impeller can be maximized, the universality is higher, and the design and manufacturing process is easy to realize standardization.

Description

Impeller device and mobile air conditioner beat water

Technical Field

The invention relates to the field of mobile air conditioners, in particular to a water-fetching impeller device and a mobile air conditioner.

Background

The mobile air conditioner is an air conditioner which can be moved at will, an external machine is not needed, professional installation is not needed, the integral design is adopted, a compressor evaporator and a condenser are all integrated together, the air conditioner is not a semi-finished product any more, the air conditioner can be used after being plugged, a professional machine moving is not needed, and the air conditioner is provided with universal casters and can be moved to any position of a home or an office; furthermore, the wall opening is not needed to be punched for installing the connecting pipe; can work after being connected with a household power supply, does not need to be installed, and can be moved at will. The power and the cooling capacity of the mobile air conditioner are basically the same as those of a common air conditioner. The difference is the air flue circulation design, and the air volume circulation of ordinary air conditioner is to indoor air circulation, and the mobile air conditioner is when reducing indoor air temperature, and the fresh air of inhaling outdoors again, and the air conditioner carries out heat exchange heating and cooling through outdoor compressor in essence, and the mobile air conditioner is accomplished by indoor set alone.

A condenser of a mobile air conditioner mostly adopts a water beating impeller as an auxiliary cooling device, ribs are arranged on the surface of the traditional water beating impeller at present, flow channels are formed among the ribs, the number of the ribs is too large, more materials are used during production, and the width of each flow channel is limited; the height of the ribs is equal to the depth of the groove, the water receiving capacity of the water groove is small, and when the impeller rotates at a high speed, water is easily thrown out before the highest point, so that the cooling effect of the upper part of the condenser is influenced; the air inlet of the condenser is in contact with little condensed water, so that heat exchange is influenced, and the power of the unit is higher.

Disclosure of Invention

In view of the above, the present invention is directed to a water-fetching impeller device and a mobile air conditioner, so as to solve the problems of the existing water-fetching impeller, such as less water-fetching amount and more material consumption during production.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a water beating impeller device comprises a water beating impeller, wherein a flow channel formed by a concave groove is formed in the water beating impeller.

The utility model discloses a condenser, including the chassis, beat the water motor, beat the water impeller and drive the impeller of fetching water and rotate, the impeller of fetching water sets up the chassis beat in the basin, the impeller of fetching water is when rotatory, the runner will the condensate water in the basin of fetching water is taken out to get rid of the condensate water to the condenser, moreover the runner adopts the mode design of digging a groove, cancel the tradition beat the last surperficial rib setting of impeller of fetching water, use the material few, practice thrift the cost, what adopt the mode setting of digging a groove moreover the runner has bigger water fetching volume, can be better cool off the condenser.

Furthermore, the flow passages are provided with a plurality of flow passages, and the plurality of flow passages are radially distributed by taking the circle center of the water beating impeller as the center.

It is a plurality of the runner is in when the impeller that fetching water rotates, drive the comdenstion water in proper order and cool off the condenser, greatly increased the condensation effect, moreover runner evenly distributed avoids the impeller that fetches water takes place off-centre when rotating.

Further, the relationship between the number n of the flow channels and the width x of the outermost groove, the distance y between two adjacent outermost grooves of the flow channels and the diameter d of the water impeller is as follows: pi d ═ n (x + y).

The width of the outermost side groove of the flow channel and the distance between the outermost sides are limited, so that the water impeller can be demoulded during production and manufacturing, and the water impeller can be produced and manufactured.

Furthermore, the depth of the flow channel is greater than or equal to half of the thickness of the water beating impeller, and the depth of the flow channel is at least 0.5mm smaller than the thickness of the water beating impeller.

The depth of the flow channel is limited, so that the flow channel can ensure that the requirement for manufacturing the demolding thickness and the strength of the water fetching impeller is met while the water collection amount is increased.

Furthermore, the runner includes water containing portion, water containing portion to the side extension of the centre of a circle of impeller of fetching water forms and seals water containing portion's separation end, water containing portion to keeping away from the side extension of the centre of a circle of impeller of fetching water, and the edge of the impeller of fetching water forms the end of intaking.

The condensed water enters the flow channel from the water inlet end, the water containing part contains the condensed water, the blocking end blocks the condensed water, the condensed water is taken out from the water beating groove of the base plate, and when the water beating impeller rotates to the condenser, the condensed water flows out of the water containing part and is thrown to the condenser.

Furthermore, the water containing part is arc-shaped, and the water inlet end is gradually widened from the blocking end.

The edge side of impeller of fetching water, the runner broad is convenient for make the comdenstion water get into the runner has increased the impeller's of fetching water volume of fetching water, the runner is followed it reaches to intake the end the separation end narrows down gradually, is convenient for water containing portion carries out the water storage, prevents the impeller of fetching water is when rotating, and the comdenstion water is followed flow out in the runner.

Furthermore, the runners are arranged on two sides of the water beating impeller.

The runners are arranged on two sides of the water beating impeller simultaneously, water can be beaten on two sides of the water beating impeller simultaneously, and the water beating quantity of the water beating impeller is increased

Furthermore, the flow channels on the two sides of the water beating impeller are arranged in a staggered mode.

Two form the boss between the runner, beat water impeller both sides when the runner is crisscross to be set up, make beat water impeller one side the runner corresponds beat water impeller opposite side the boss, perhaps beat water impeller one side the boss corresponds beat water impeller opposite side the runner, can make the runner degree of depth under the condition of not running through surpass beat water impeller half of thickness, further make the degree of depth increase of runner, increase beat water impeller's the volume of beating water.

The water fetching device is characterized by further comprising a water fetching motor connected with the water fetching impeller, wherein the water fetching motor is fixed on a chassis, a water fetching groove is formed in the chassis, and the water fetching impeller is arranged in the water fetching groove in a suspension mode.

The water fetching impeller is prevented from contacting with the chassis, noise is generated when the water fetching impeller rotates, and the water fetching impeller or the water fetching groove can be damaged.

Furthermore, a mobile air conditioner comprises the water pumping impeller device.

Compared with the prior art, the water beating impeller device and the mobile air conditioner have the following advantages: the runner is designed in a grooving mode, surface ribs on a traditional water beating impeller are omitted, the used materials are few, the cost is saved, the water beating amount of the runner is greatly increased, the cooling effect on a condenser is increased, the function of the water beating impeller can be exerted to the maximum degree, the universality is stronger, and the standardization is easy to realize in the design and manufacturing process.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. Wherein the drawings are only for purposes of illustrating some embodiments of the invention and are not to be construed as limiting the invention to all embodiments thereof.

FIG. 1 is a schematic view of a first structure of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a top view of the water impeller of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic diagram of the water-fetching motor of the present invention.

Reference numerals:

1. a water beating impeller; 2. a flow channel; 201. a water inlet end; 202. a water containing part; 203. a blocking end; 3. a boss; 4. a connecting shaft; 5. a water pumping motor; 6. a chassis; 7. and (4) watering the water tank.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

The first embodiment is as follows:

referring to fig. 1 and 5, the water impeller device comprises a water impeller 1, wherein a channel 2 formed by a groove which is concave downwards is formed on the water impeller 1.

The mode that adopts the excavation as runner 2, has increased the width and the degree of depth of runner 2, has improved the water yield of impeller 1 of fetching water, and the material of use is few moreover, practices thrift the cost, and impeller 1 commonality of fetching water is stronger, and its design and manufacturing process easily realize standardizing, can play the maximize with the effect of impeller 1 of fetching water, and the water yield greatly increased more before, increases cooling effect, reduces unit power.

Example two:

on the basis of the first embodiment, the structure of the water impeller device of the first embodiment is further optimized:

the flow passages 2 are provided with a plurality of flow passages, and the plurality of flow passages 2 are radially distributed by taking the circle center of the impeller as the center.

Specifically, when impeller 1 of fetching water is static, the part runner 2 stretches into and fetches water to the condensate water in the groove of fetching water, all the other runner 2 exposes in the air, impeller 1 of fetching water when rotating, fetching water runner 2 is rotated out, does not fetch water runner 2 rotates and fetches water to the condensate water, can make a plurality of runner 2 fetches water in proper order to get rid of water to the condenser on, improve the volume of fetching water of impeller 1 of fetching water, simultaneously, it is a plurality of runner 2 is followed impeller center evenly distributed prevents impeller 1 of fetching water takes place the off-centre when rotating, after long-time eccentric work, causes impeller 1 of fetching water damages.

Preferably, the relationship between the number n of the flow channels 2 and the width x of the outermost groove, the distance y between two adjacent outermost grooves of the flow channels 2 and the diameter d of the water impeller 1 is as follows: pi d ═ n (x + y).

Design during runner 2, runner 2's the outside groove width x is bigger, is favorable to receiving water more, nevertheless can't go out the mould and make, and outside groove interval y is too big, and outside groove width x is less promptly, makes things convenient for the mould to make, and bulk strength promotes, nevertheless receives the water yield less, consequently is in the design during runner 2, can be different according to the model, design different quantity runner 2 with width between the runner 2 makes impeller 1 of fetching water can be convenient for to produce under the condition that satisfies the volume demand of fetching water.

Preferably, the depth of the flow channel 2 is greater than or equal to half of the thickness of the water impeller 1, and the depth of the flow channel 2 is at least 0.5mm smaller than the thickness of the water impeller 1.

The depth of the flow channel 2 is limited, so that the flow channel 2 can ensure that the manufacturing thickness of a mold and the strength of the water impeller 1 are met while the water yield is increased.

Preferably, a boss 3 is formed between the two flow channels 2, the innermost width m of the boss 3 ranges from 4.0 mm to 4.6mm, the innermost width of the boss 3 is limited, and the phenomenon that the innermost width of the boss 3 is too large, so that the water pumping amount of the flow channels 2 is small is prevented.

Preferably, the diameter of the water impeller 1 is 67mm, the thickness h is 2mm, and the depth d of the flow channel 2₁The width x of the outermost groove is 4mm, the width m of the innermost groove is 1mm, the width of the outermost groove of the boss 3 is 6.5mm, and the width of the innermost groove of the boss is 4.33mm, so that the maximum water pumping amount of the water pumping impeller 1 can be achieved under the condition of meeting the requirements of production and manufacturing.

Example three:

on the basis of the second embodiment, the structure of the water impeller device of the second embodiment is further optimized:

the flow channel 2 comprises a water containing part 202, the water containing part 202 extends towards the circle center side of the water beating impeller 1 to form a blocking end 203 for closing the water containing part 202, and the water containing part 202 extends towards the circle center side far away from the water beating impeller 1 to form a water inlet end 201 at the edge of the water beating impeller 1.

The water inlet end 201 is of an open structure, condensed water enters the flow channel 2 from the water inlet end 201, the water containing part 202 contains water, and the blocking end 203 blocks the water to prevent the water entering the flow channel 2 from flowing out.

Preferably, the water containing segment 202 is arc-shaped, gradually becomes wider from the blocking end 203 to the water inlet end 201,

on the edge side of the water beating impeller 1, the flow channel 2 is wider, so that condensed water can enter the flow channel 2 conveniently, the water beating amount of the water beating impeller 1 is increased, the flow channel 2 becomes narrower gradually from the water inlet end 201 to the blocking end 203, so that the water containing part 202 can store water conveniently, and the condensed water is prevented from flowing out of the flow channel 2 when the water beating impeller 1 rotates.

Example four:

on the basis of the first embodiment, the structure of the water impeller device of the first embodiment is further optimized:

referring to fig. 2-4, flow channels 2 are arranged on both sides of the water impeller 1.

The rotating part of the water beating impeller 1 extends below the liquid level of the water beating tank 7, and when the water beating impeller 1 rotates, the flow channels 2 on two sides of the water beating impeller 1 extending below the liquid level of the water beating tank 7 can carry out condensate water, so that the water beating amount of the water beating impeller 1 is further improved.

Preferably, the flow channels 2 on both sides of the water impeller 1 are arranged in a staggered manner.

Two form boss 3 between the runner 2, beat water 1 both sides during runner 2 sets up in the staggered way, make beat water 1 one side runner 2 correspond beat water 1 opposite side boss 3, perhaps beat water 1 one side boss 3 correspond beat water 1 opposite side runner 2, can make runner 2 degree of depth under the condition of not running through exceed beat water half of 1 thickness of impeller, further make the degree of depth of runner 2 increase, increase beat the water yield in the unit interval of water impeller 1.

Preferably, the interval distance n between the flow channels 2 on the two sides of the water impeller 1 is 1mm-1.5mm, the width x between the outermost grooves of the flow channels 2 is 3.5-4.5mm, the interval y between the two adjacent outermost grooves of the flow channels 2 is 6.0-7.0mm, and the flow channels 2 are prevented from penetrating when the depth is large by controlling the interval distance n between the flow channels 2 on the two sides of the water impeller 1, the width x between the outermost grooves of the flow channels 2 and the interval y between the outermost grooves of the two adjacent flow channels 2, so that the water pumping amount of the water impeller 1 is reduced.

Example five:

on the basis of the first embodiment, the structure of the water impeller device of the first embodiment is further optimized:

the water fetching device is characterized by further comprising a water fetching motor 5 connected with the water fetching impeller 1, the water fetching motor 5 is fixed on a base plate 6, a water fetching groove 7 is formed in the base plate 6, and the water fetching impeller 1 is arranged in the water fetching groove 7 in a suspended mode.

When the air conditioner works, condensed water flows into the water beating tank 7, the part of the water beating impeller 1 is immersed in the condensed water, the water beating impeller 1 is arranged in the water beating tank 7 in a suspending mode, the water beating impeller 1 is prevented from contacting with the bottom of the water beating tank 7, noise is generated when the water beating impeller 1 rotates, the water beating impeller 1 or the water beating tank 7 is damaged, meanwhile, the condensed water in the water beating tank 7 is taken out by the flow channel 2 on the water beating impeller 1 when the water beating impeller 1 rotates, the condensed water is thrown out when the water beating impeller rotates to the direction of a condenser, and the condenser is cooled.

Preferably, one side of the water beating impeller 1, which is close to the water beating motor 5, is provided with a connecting shaft 4, and the water beating impeller 1 and the water beating motor 5 are fixedly connected through the connecting shaft 4, so that the water beating motor 5 drives the water beating impeller 1 to rotate.

Specifically, the water beating motor 5 is mounted on the chassis 6, the chassis 6 is provided with a limiting device of the water beating motor 5, the water beating motor 5 is connected with the connecting shaft 4 through a D-shaped connecting rod, the connecting shaft 4 is of a hollow cylindrical structure, the matching length of the connecting shaft 4 and the D-shaped connecting rod is 19mm, the stability of connection between the water beating motor 5 and the water beating impeller 1 is ensured through epoxy resin glue adhesion, the water beating groove 7 is formed in the chassis 6, the water beating impeller 1 is positioned in the water beating groove 7 of the chassis 6, the water beating impeller 1 is arranged in a suspended mode, the water beating impeller 1 can rotate in the water beating groove 7 to prevent the water beating impeller 1 from directly contacting the water beating groove 7, the water beating impeller 1 or the water beating groove 7 is damaged when the water beating impeller 1 rotates, the flow channel 2 on the water beating impeller 1 is arranged in a groove digging mode, the water-saving condenser has the advantages that the used materials are few, the cost is saved, the universality is stronger, the standardization of the design and manufacture process is easy to realize, the condensate water flows into the water-fetching groove 7, when the water-fetching motor 5 starts to work, the water-fetching impeller 1 is driven to rotate, the condensate water enters the flow channel 2 from the water inlet end 201, the water-containing part 202 stores the water, when the water-fetching impeller 1 rotates, the water in the water-containing part 202 is thrown onto the condenser to cool the condenser, in addition, the water-containing part 202 adopts the S-shaped arrangement, the width and the depth of the flow channel 2 are increased, the depth is increased by 0.5-1mm, the water-fetching quantity of each flow channel 2 is increased, under the high-speed operation of the water-fetching impeller 1, a large amount of water can be thrown onto the condenser, compared with the traditional water-fetching impeller 1, the water-fetching quantity in unit time is increased, the cooling effect is good, and the flow channels 2 are provided with a plurality, when impeller 1 of fetching water rotates, it is a plurality of runner 2 fetches water in proper order to deliver to the condenser with the comdenstion water, condense the condenser, improved the efficiency of fetching water, impeller 1 both sides of fetching water all are provided with runner 2, both sides runner 2 all can be fetched water the operation, further increased the volume of fetching water in impeller 1 unit interval of fetching water.

Example six:

the embodiment provides a mobile air conditioner, mobile air conditioner includes above-mentioned impeller device of fetching water, mobile air conditioner still includes conventional mobile air conditioner cooling/heating parts such as compressor, exhaust fan, electric heater, evaporimeter, condenser.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The water beating impeller device is characterized by comprising a water beating impeller (1), wherein a flow channel (2) formed by a concave groove is formed in the water beating impeller (1).

2. The impeller device of claim 1, characterized in that the flow passages (2) are provided in plurality, and the plurality of flow passages (2) are radially distributed around the center of the impeller (1).

3. A watering impeller device according to claim 2, characterized in that the number n of flow channels (2) and the width x of the outermost groove, the distance y between the outermost grooves of two adjacent flow channels (2) and the diameter d of the watering impeller (1) are in relation to each other: pi d ═ n (x + y).

4. A watering impeller device according to claim 1, characterised in that the depth of the flow channel (2) is greater than or equal to half the thickness of the watering impeller (1), the depth of the flow channel (2) being at least 0.5mm less than the thickness of the watering impeller (1).

5. The impeller device of fetching water according to claim 1, characterized in that the flow channel (2) comprises a water containing part (202), the water containing part (202) extends to the circle center side of the fetching water impeller (1) to form a blocking end (203) for closing the water containing part (202), the water containing part (202) extends to the circle center side far away from the fetching water impeller (1), and a water inlet end (201) is formed at the edge of the fetching water impeller (1).

6. The impeller device of claim 5, wherein the water containing segment (202) is arc-shaped, and the width of the water containing segment (202) gradually widens from the blocking end (203) to the water inlet end (201).

7. A watering impeller device according to claim 1, characterised in that the flow channel (2) is provided on both sides of the watering impeller (1).

8. A watering impeller device according to claim 7, characterised in that the flow channels (2) on both sides of the watering impeller (1) are staggered.

9. The water beating impeller device according to claim 1, further comprising a water beating motor (5) connected with the water beating impeller (1), wherein the water beating motor (5) is fixed on a chassis (6), a water beating groove (7) is arranged on the chassis (6), and the water beating impeller (1) is arranged in the water beating groove (7) in a suspended manner.

10. A mobile air conditioner, characterized in that the air conditioner comprises a water impeller device according to any one of claims 1 to 9.

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