CN110055728B - Low-power warm air clothes dryer - Google Patents

Abstract

The invention relates to the technical field of clothes dryers and discloses a low-power warm-air clothes dryer, which comprises a clothes dryer body, wherein a clothes drying chamber and an air heating chamber for generating warm air are arranged in the clothes dryer body, the clothes drying chamber is communicated with the air heating chamber through two air outlets of the air heating chamber and at least one air return port of the air heating chamber, an air inlet of the air heating chamber is formed in the air heating chamber, a heating component with lower heating power is used, and part of hot air in the clothes drying chamber is reintroduced into the air heating chamber through arranging an air return port of the clothes drying chamber between the air heating chamber and the clothes drying chamber, and is re-blown into the clothes drying chamber through a fan, so that the clothes drying efficiency is improved, and the energy waste is reduced.

Description

Low-power warm air clothes dryer

Technical Field

The utility model relates to a dryer technical field, concretely relates to low-power warm braw dryer.

Background

The warm air clothes dryer is equipment for enabling wet clothes to be dried rapidly, when the warm air clothes dryer works, the fan is matched with the heating assembly to generate warm air, and the warm air can take away moisture on the surface of the wet clothes and accelerate evaporation of the moisture of the clothes.

After warm air generated by the clothes dryer in the prior art is blown to clothes, the warm air is directly discharged out of the clothes dryer, heat energy in the warm air cannot be recycled, the utilization rate of electric energy is low, and in order to shorten the clothes drying time, the heating assembly and the fan in the prior art are high in power, and large energy waste is generated.

Disclosure of Invention

In order to solve the technical problems, the invention provides the low-power warm-air clothes dryer, which uses the heating component with lower heating power, and the air return port of the clothes drying chamber is arranged between the air heating chamber and the clothes drying chamber, so that part of hot air in the clothes drying chamber is reintroduced into the air heating chamber and is blown into the clothes drying chamber again through the fan, thereby improving clothes drying efficiency and reducing energy waste.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a low-power warm braw dryer, includes the dryer body, be equipped with the dry clothing room in the dryer body and be used for producing the wind hot chamber of warm braw, dry clothing room and wind hot chamber are linked together through two wind hot chamber air outlets and at least one wind hot chamber return air inlet, wind hot chamber has seted up the wind hot chamber air intake of intercommunication external world.

Further, a wind heating device is arranged in the wind heating chamber and comprises a fan, a heating assembly with a heating cover and a pipeline assembly which are sequentially communicated.

Further, the pipeline assembly comprises at least one air inlet pipeline and two air outlet pipelines which are communicated with the air inlet pipeline and are symmetrically arranged, the air inlet pipeline is communicated with the heating cover, and the air outlet pipeline is communicated with an air outlet of the air heating chamber.

Further, the pipeline assembly comprises an air inlet pipeline and two air outlet pipelines which are communicated with the air inlet pipeline and are symmetrically arranged, and the air inlet pipeline and the air outlet pipelines are distributed in a Y shape.

Further, an air duct guiding wall 340 for guiding the wind direction and an air duct expanding wall 350 for reducing turbulence are sequentially formed on the inner side of the duct assembly along the air outlet direction.

Further, a first circular arc and a second circular arc are sequentially arranged on the inner side of the air duct guide wall along the air outlet direction, the radius R1 of the first circular arc is 55-65 mm, the radius R2 of the second circular arc is 45-55 mm, a third circular arc and a straight line segment tangent to the third circular arc are sequentially arranged on the inner side of the air duct expansion wall along the air outlet direction, and the radius R3 of the third circular arc is 145-155 mm.

Further, an air duct split wall and a fourth arc are arranged at the opposite position of the inner side of the air outlet pipeline and the air inlet pipeline, the air duct split wall and the fourth arc are sequentially arranged along the air outlet direction, the included angle of the air duct split wall is 70-90 degrees, and the radius R4 of the fourth arc is 20-30 mm.

Further, the heating element is including setting up the heating element in the heating mantle, set firmly in the heating mantle and be used for placing the bracing piece of heating element and set up locating plate and the heating mantle air intake in the heating mantle bottom, heating mantle air intake and heating mantle lateral wall junction are equipped with the hang plate, the bracing piece has two at least and apart from the difference in height of heating mantle air intake.

Further, the two sides of the bottom of the pipeline assembly are provided with a water receiving groove corresponding to the air outlet pipeline and a pipeline water outlet communicated with the water receiving groove.

Further, a water receiving box is arranged on the clothes dryer body, a hot air chamber water outlet is arranged at the bottom of the hot air chamber, and the pipeline water outlet, the hot air chamber water outlet and the water receiving box are sequentially communicated.

Further, an ozone chamber communicated with the clothes drying chamber is arranged in the clothes dryer body, and an ozone generating device is arranged in the ozone chamber.

Further, a clothes airing rod for hanging clothes is arranged at the upper part of the clothes drying chamber, and at least one clamping groove is formed in the clothes airing rod.

Further, an air outlet communicated with the clothes drying chamber is arranged on the clothes dryer body.

Further, a dustproof air inlet is formed in the clothes dryer body, and the dustproof air inlet is communicated with the air heating chamber through the air inlet of the air heating chamber.

Compared with the prior art, the invention has the beneficial technical effects that:

1. through set up the dry clothing room return air inlet between wind hot chamber and dry clothing room, with the indoor part hot-blast wind of dry clothing reintroduce wind hot chamber, blow in dry clothing room again through the fan, reduce the required energy of heating air, reduced heating element's power, promoted dry clothing efficiency, reduced the energy waste.

2. The cuffs and armpit parts of the clothes are difficult to blow dry, the pipeline assembly is arranged into a Y shape and is provided with two air outlet pipelines, the included angle of the air duct dividing wall is optimized to be 70-90 degrees, the included angle of the air duct dividing wall is small, and the air outlet speed is high; when the included angle of the air duct dividing wall is arranged in the interval, hot air can be mainly blown to the cuffs and armpits of the clothes, so that energy waste caused by long-time non-drying of the cuffs and the armpits of the clothes is avoided; the double air outlets have large blowing area, uniform air outlet, and faster evaporation of moisture contained in clothes, thereby shortening the clothes drying time.

3. The pipeline assembly is provided with an air duct guide wall and an air duct expansion wall, the radius R1 of a first circular arc of the air duct guide wall is optimized to 55-65 mm, the radius R2 of a second circular arc is optimized to 45-55 mm, the radius R3 of a third circular arc of the air duct expansion wall is optimized to 145-155 mm, and due to the circular arc design of the air duct guide wall, the air duct expansion wall and the rear end of the air duct guide wall, the circulation of an air duct is smooth, the internal turbulence is less, the air resistance is small, the speed of air after leaving the pipeline assembly is high, and the clothes drying effect is good.

4. Because of the self structural reason of the fan, the wind speeds generated at the two ends are different, the supporting rods in the heating cover are set to be at different heights, so that the influence of uneven wind speed on clothes drying time can be compensated, the connection part of the air inlet of the heating cover and the side wall of the heating cover is provided with an inclined plate, the proportion of turbulent flow in air circulation can be reduced, the air resistance in circulation is reduced, and the speed of an air duct is increased

5. The ozone chamber communicated with the clothes drying chamber is provided with an ozone generating device, and ozone gas can kill bacteria on clothes and keep the clothes clean and sanitary.

6. The clamping grooves are formed in the clothes airing rods, so that clothes swing is small when the clothes dryer works, the clothes drying effect is uneven, and the clothes drying time is shortened.

7. The air outlet communicated with the clothes drying chamber can discharge part of moist air, so that the dryness of air in the clothes drying chamber is increased, and the clothes drying time is shortened.

8. The air outside the clothes dryer needs to pass through the dustproof air inlet before entering the air inlet of the air heating chamber, so that large-particle dust of the air can be filtered, the influence of the dust on the fan and the heating device is avoided, and the cleanliness of the air in the clothes drying chamber can be improved.

9. The water that the clothing was dripped can pass through water receiving tank, pipeline delivery port, wind hot chamber delivery port in proper order to finally gather in the water receiving box, the water receiving box can be separated with the dryer, falls the ponding in the water receiving box, avoids ponding too much to produce in the wind hot chamber and piles up, the effectual heating element that has protected.

Drawings

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

FIG. 2 is a schematic structural view of the clothes-horse of the present invention;

FIG. 3 is a schematic view of the structure of the water receiving box of the present invention;

FIG. 4 is a schematic structural view of a wind heating apparatus according to the present invention;

FIG. 5 is a schematic diagram of the structure shown at A in FIG. 4;

FIG. 6 is a schematic diagram of the structure at B in FIG. 4;

FIG. 7 is a schematic view of a heating mantle of the present invention;

FIG. 8 is a schematic diagram of the structure of the air outlet pipe and the air inlet pipe in parallel;

fig. 9 is a schematic structural view of the present invention when two air outlet pipes are arranged in isolation.

Detailed Description

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, a low-power warm air dryer comprises a dryer body, wherein a clothes drying chamber 400 and an air heating chamber 500 for generating warm air are arranged in the dryer body, the clothes drying chamber is communicated with the air heating chamber through two air heating chamber air outlets 510 and at least one air heating chamber air return opening 520, the air heating chamber 500 is provided with an air heating chamber air inlet 540, part of hot air in the clothes drying chamber is reintroduced into the air heating chamber through arranging the air heating chamber air return opening between the air heating chamber and the clothes drying chamber, and the hot air is re-blown into the clothes drying chamber through a fan, so that the energy required by heating the air is reduced, the power of a heating assembly is reduced, the clothes drying efficiency is improved, and the energy waste is reduced; the following experiments were carried out to the effect of the presence or absence of return air on the drying effect, the experimental conditions: the temperature of the external air is 20 ℃, the power of a fan is 25 watts, and the power of a heating component is 1000 watts; the experimental data of the laundry drying effect are shown in table 1: the evaporation amount of the water in the clothes is larger when the air returns.

TABLE 1

As shown in fig. 4, a wind heating device is disposed in the wind heating chamber, and the wind heating device includes a fan 100, a heating assembly 200 with a heating cover 210, and a pipe assembly, which are sequentially communicated.

As shown in fig. 4-6, the duct assembly includes at least one air inlet duct 330 and two air outlet ducts 320 which are communicated with the air inlet duct and are symmetrically arranged, in this embodiment, the duct assembly includes one air inlet duct 330 and two air outlet ducts 320 which are communicated with the air inlet duct and are symmetrically arranged, the air inlet duct and the air outlet ducts are distributed in a Y-shape, the air inlet duct is communicated with the heating mantle 210, the air outlet duct 330 is communicated with the air outlet 510 of the air heating chamber, the inner side of the duct assembly is provided with an air duct guide wall 340 and an air duct expansion wall 350 for guiding the air direction along the air outlet direction, the inner side of the air duct guide wall 340 is sequentially provided with a first arc and a second arc along the air outlet direction, the radius R1 of the first circular arc is 55mm-65mm, the radius R2 of the second circular arc is 45mm-55mm, a third circular arc and a straight line section tangent to the third circular arc are sequentially arranged on the inner side of the air duct expansion wall 350 along the air outlet direction, the radius R3 of the third circular arc is 145mm-155mm, air moves to the air duct expansion wall 350 along the air duct guide wall 340 after leaving the air inlet pipeline and then moves to the air outlet pipeline 320 along the air duct expansion wall, and finally leaves the pipeline assembly, and in the flowing process of the air in the pipeline assembly, the air duct flows smoothly due to the guiding effect of the air duct guide wall and the air duct expansion wall, the internal turbulence is less, the air resistance is small, the speed of the air is high after leaving the pipeline assembly, and the clothes drying effect is good; the air duct dividing wall 321 and the fourth arc are arranged at the opposite position of the inner side of the air outlet pipeline and the air inlet pipeline, the air duct dividing wall and the fourth arc are sequentially arranged along the air outlet direction, the included angle of the air duct dividing wall is 70-90 degrees, the radius R4 of the fourth arc is 20-30 mm, the included angle of the air duct dividing wall is smaller, so that the air leaving the pipeline assembly has high speed, the clothes drying effect is good, and the requirements of drying cuffs and armpit parts can be met while the included angle of the dividing wall is high in air speed; compared with a single air outlet pipeline, the double air outlet pipeline has the advantages that the air outlet is more uniform, the air blowing area is larger, the moisture contained in clothes is evaporated faster, and the following experiment is implemented aiming at the influence of the double air outlet pipeline and the single air outlet pipeline on the clothes drying effect, and the experimental conditions are as follows: the temperature of the external air is 20 ℃, the power of a fan is 25 watts, and the power of a heating component is 1000 watts; the experimental data of the drying effect are shown in table 2: the water evaporation capacity of the clothes is larger and the clothes drying effect is better when the double air outlet pipelines are arranged.

TABLE 2

As shown in fig. 4 and 7, the heating assembly 200 includes a heating element 230 disposed in a heating housing 210, a supporting rod 240 fixedly disposed in the heating housing and used for placing the heating element, a positioning plate 220 disposed at the bottom of the heating housing, and a heating housing air inlet 212, wherein an inclined plate 211 is disposed at the connection position of the heating housing air inlet 212 and the side wall of the heating housing 210, so that the proportion of turbulence during air circulation can be reduced, the air resistance during circulation is reduced, and the speed of the air duct is increased; the supporting rods 240 are at least two and have different heights from the air inlet 212 of the heating cover, the wind speeds generated at the two ends are different due to the structure of the fan, and the supporting rods in the heating cover are set to be different heights, so that the influence of uneven wind speeds on the clothes drying time can be compensated.

As shown in fig. 1, 3 and 4, the two sides of the bottom of the pipeline assembly are provided with a water receiving tank 310 corresponding to the air outlet pipeline 320 and a pipeline water outlet 311 communicated with the water receiving tank, the clothes dryer body is provided with a water receiving box 700, the bottom of the air heating chamber is provided with an air heating chamber water outlet 530, the pipeline water outlet 311, the air heating chamber water outlet 530 and the water receiving box 700 are sequentially communicated, water dripped from clothes can sequentially pass through the water receiving tank, the pipeline water outlet and the air heating chamber water outlet and finally gather in the water receiving box, the water receiving box can be separated from the clothes dryer, accumulated water in the water receiving box is poured, accumulation of excessive accumulated water in the air heating chamber is avoided, and the heating assembly is effectively protected.

As shown in fig. 1, the dryer body is provided therein with an ozone chamber 600 communicating with the drying chamber 400, and an ozone generating device is provided in the ozone chamber, so that ozone gas can kill bacteria on clothes and keep the clothes clean and sanitary.

As shown in fig. 1, the clothes airing rod 410 for hanging clothes is provided at the upper part of the clothes drying chamber, and at least one clamping groove 411 is provided on the clothes airing rod, when the clothes hanger is placed in the clamping groove, the clothes swing is small due to the limiting effect of the clamping groove, the clothes drying effect is uniform, and the clothes drying time is shortened.

As shown in fig. 1, the dryer body is provided with an air outlet 800 communicated with the clothes drying chamber, and the air outlet communicated with the clothes drying chamber can discharge part of moist air, so that the dryness of air in the clothes drying chamber is increased, and the clothes drying time is shortened.

As shown in fig. 1, the main body of the clothes dryer is provided with a dust-proof air inlet 900, the dust-proof air inlet is communicated with the air heating chamber through the air heating chamber air inlet 540, after damp air is discharged through the air outlet, the air pressure in the air heating chamber is reduced, the external air of the clothes dryer sequentially passes through the dust-proof air inlet and the air heating chamber air inlet to enter the air heating chamber, and the dust-proof air inlet can filter large particle suspended matters in the air, so that the cleanliness of the air entering the air heating chamber and the indoor air for drying clothes is ensured.

The form of the pipeline component can adopt an arrangement form that the pipe wall of the air outlet pipeline is parallel to the pipe wall of the air inlet pipeline as shown in fig. 8, an arrangement form that the two air outlet pipelines are mutually isolated as shown in fig. 9 and other double air outlet pipeline arrangement forms besides the Y-shaped pipeline.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a single embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to specific embodiments, and that the embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.

Claims (8)

1. The low-power warm air clothes dryer comprises a clothes dryer body, wherein a clothes drying chamber (400) and an air heating chamber (500) for generating warm air are arranged in the clothes dryer body, and the low-power warm air clothes dryer is characterized in that the clothes drying chamber is communicated with the air heating chamber through two air outlet openings (510) and at least one air return opening (520) of the air heating chamber, and the air heating chamber (500) is provided with an air heating chamber air inlet (540) communicated with the outside;

the air heating chamber is internally provided with an air heating device, and the air heating device comprises a fan (100), a heating assembly (200) with a heating cover (210) and a pipeline assembly which are sequentially communicated;

the pipeline assembly comprises at least one air inlet pipeline (330) and two symmetrically arranged air outlet pipelines (320) which are communicated with the air inlet pipeline, the air inlet pipeline is communicated with the heating cover (210), and the air outlet pipeline (320) is communicated with an air outlet (510) of the air heating chamber;

the pipeline assembly comprises an air inlet pipeline (330) and two air outlet pipelines (320) which are communicated with the air inlet pipeline and are symmetrically arranged, and the air inlet pipeline and the air outlet pipelines are distributed in a Y shape;

an air duct guide wall (340) for guiding the wind direction and an air duct expansion wall (350) for reducing turbulence are sequentially formed on the inner side of the pipeline assembly along the air outlet direction;

the inner side of the air duct guide wall (340) is sequentially provided with a first circular arc and a second circular arc along the air outlet direction, the radius R1 of the first circular arc is 55mm-65mm, the radius R2 of the second circular arc is 45mm-55mm, the inner side of the air duct expansion wall (350) is sequentially provided with a third circular arc and a straight line segment tangent with the third circular arc along the air outlet direction, and the radius R3 of the third circular arc is 145mm-155mm;

an air duct dividing wall (321) and a fourth arc are arranged at the opposite position of the inner side of the air outlet pipeline and the air inlet pipeline, the air duct dividing wall and the fourth arc are sequentially arranged along the air outlet direction, the included angle of the air duct dividing wall is 70-90 degrees, and the radius R4 of the fourth arc is 20-30 mm.

2. The low power warm air dryer of claim 1, wherein: the heating assembly (200) comprises heating elements (230) arranged in a heating cover (210), supporting rods (240) fixedly arranged in the heating cover and used for placing the heating elements, positioning plates (220) arranged at the bottom of the heating cover and a heating cover air inlet (212), inclined plates (211) are arranged at the joints of the heating cover air inlet (212) and the side walls of the heating cover (210), and the supporting rods (240) are at least two and different in height from the heating cover air inlet (212).

3. The low power warm air dryer of claim 1, wherein: the two sides of the bottom of the pipeline assembly are provided with a water receiving tank (310) corresponding to the air outlet pipeline (320) and a pipeline water outlet (311) communicated with the water receiving tank.

4. The low power warm air dryer of claim 3, wherein: the clothes dryer is characterized in that a water receiving box (700) is arranged on the clothes dryer body, a hot air chamber water outlet (530) is arranged at the bottom of the hot air chamber, and the pipeline water outlet (311), the hot air chamber water outlet (530) and the water receiving box (700) are sequentially communicated.

5. The low power warm air dryer of claim 1, wherein: an ozone chamber (600) communicated with the clothes drying chamber (400) is arranged in the clothes dryer body, and an ozone generating device is arranged in the ozone chamber.

6. The low power warm air dryer of claim 1, wherein: the upper part of the clothes drying room is provided with a clothes drying rod (410) for hanging clothes, and the clothes drying rod is provided with at least one clamping groove (411).

7. The low power warm air dryer of claim 1, wherein: an air outlet (800) communicated with the clothes drying chamber is arranged on the clothes dryer body.

8. The low power warm air dryer of claim 1, wherein: the clothes dryer body is provided with a dustproof air inlet (900), and the dustproof air inlet is communicated with the air heating chamber through an air heating chamber air inlet (540).