CN219385710U - Clothes drying system and clothes nursing equipment - Google Patents

Abstract

The utility model relates to the technical field of clothes care, in particular to a clothes drying system and clothes care equipment. The clothes drying system comprises a circulating air duct, a refrigeration dehumidifier, a heater, a semiconductor refrigeration sheet, a heat absorbing piece and a heating piece, wherein an inlet of the circulating air duct is communicated with an air outlet of a clothes drying roller, an outlet of the circulating air duct is communicated with an air inlet of the clothes drying roller, the refrigeration dehumidifier, the heater, the heat absorbing piece and the heating piece are all positioned in the circulating air duct, the refrigeration dehumidifier is used for refrigerating and dehumidifying high-temperature humid gas flowing into the circulating air duct from the clothes drying roller, the heater is used for heating the refrigerated and dehumidified gas, the cold end of the semiconductor refrigeration sheet is connected with the heat absorbing piece so as to assist the refrigeration dehumidifier to refrigerate and dehumidify the high-temperature humid gas, and the hot end of the semiconductor refrigeration sheet is connected with the heating piece so as to assist the heater to heat the gas. By applying the clothes drying system, the clothes care equipment reduces energy consumption and noise and improves drying efficiency.

Description

Clothes drying system and clothes nursing equipment

Technical Field

The utility model relates to the technical field of clothes care, in particular to a clothes drying system and clothes care equipment.

Background

The clothes care equipment mainly sends heated air into a clothes drying roller through a circulating air duct to exchange heat with wet clothes, and then the wet and cooled air is condensed, dehumidified and reheated and then continuously sent into the clothes drying roller to dry the clothes.

In order to improve the drying efficiency of clothes, a traditional clothes care device is generally provided with a larger compressor as a heat source for drying, but the arrangement mode not only increases the occupied space of the whole clothes care device, but also increases the energy consumption and the working noise of the clothes care device.

Accordingly, there is a need to invent a laundry drying system and a laundry care apparatus to solve the above problems.

Disclosure of Invention

The utility model aims to provide a clothes drying system and clothes care equipment, so that energy consumption and noise of the clothes care equipment are reduced, and drying efficiency of the clothes care equipment is improved.

To achieve the purpose, the utility model adopts the following technical scheme:

a laundry drying system comprising:

the inlet of the circulating air channel is communicated with the air outlet of the clothes drying roller, and the outlet of the circulating air channel is communicated with the air inlet of the clothes drying roller;

the refrigeration dehumidifier and the heater are both positioned in the circulating air duct, the refrigeration dehumidifier is configured to cool and dehumidify the high-temperature humid gas flowing into the circulating air duct from the clothes drying roller, and the heater is configured to heat the cooled and dehumidified gas; and

the cold end of the semiconductor refrigerating sheet is connected with a heat absorbing piece, and the heat absorbing piece is positioned in the circulating air duct to assist the refrigerating dehumidifier to perform refrigerating dehumidification on high-temperature humid gas flowing into the circulating air duct; the hot end of the semiconductor refrigerating sheet is connected with a heating piece, and the heating piece is positioned in the circulating air duct to assist the heater to heat the refrigerated and dehumidified gas.

Preferably, the laundry drying system further comprises:

the heat dissipation fins and the semiconductor refrigerating sheets are both positioned outside the circulating air duct, and the heat dissipation fins are connected with the hot ends of the semiconductor refrigerating sheets so as to conduct heat dissipation and temperature reduction on the hot ends of the semiconductor refrigerating sheets.

Preferably, the heat radiating fin is a corrosion-resistant aluminum heat radiating fin.

Preferably, the laundry drying system further comprises:

and the cooling fan is positioned outside the circulating air duct and is opposite to the cooling fins.

Preferably, the heat absorbing member includes:

the heat absorption pipes are connected with the cold ends of the semiconductor refrigerating sheets and are arranged in a serpentine shape in the circulating air duct; and

the heat absorption grid plates are positioned in the circulating air duct and are arranged on the heat absorption pipes at intervals.

Preferably, the heating element includes:

the heating pipes are connected with the hot ends of the semiconductor refrigerating sheets and are arranged in a serpentine shape in the circulating air duct; and

the heating grid plates are positioned in the circulating air duct and are arranged on the heating pipes at intervals.

Preferably, the refrigeration dehumidifier includes:

and the evaporator can exchange heat with the high-temperature humid gas in the circulating air duct so as to cool and dehumidify the high-temperature humid gas.

Preferably, the heater includes:

and the condenser is filled with refrigerant, and the refrigerant can release heat in the condenser so as to heat the air after refrigeration and dehumidification in the circulating air duct.

Preferably, the laundry drying system further comprises:

and the circulating fan is positioned in the circulating air duct.

A laundry care appliance comprising a laundry drum for holding laundry to be dried and a laundry drying system as described above, the laundry drying system being configured to cyclically dry the laundry to be dried held within the laundry drum.

The utility model has the beneficial effects that:

according to the clothes drying system provided by the utility model, the semiconductor refrigerating sheet is arranged, the heat absorbing piece is connected with the cold end of the semiconductor refrigerating sheet, and the heating piece is connected with the hot end of the semiconductor refrigerating sheet, so that the heat absorbing piece assists the refrigeration dehumidifier to cool and dehumidify high-temperature humid gas flowing into the circulating air duct from the clothes drying roller, and the heating piece assists the heater to heat the cooled and dehumidified gas in the circulating air duct, so that the clothes drying efficiency and the clothes drying efficiency of the drying system are greatly improved, a large-volume high-power compressor is not required to be configured for the clothes drying system to serve as a heat source for drying, and therefore, the volume and working noise of the whole clothes drying system are reduced, and the energy consumption of the clothes drying system is also reduced.

According to the clothes care equipment provided by the utility model, by applying the clothes drying system, the dehumidifying and drying efficiency of the clothes care equipment to clothes is greatly improved, and the clothes care equipment is not required to be provided with a large-volume high-power compressor as a heat source for drying, so that the volume and working noise of the whole clothes care equipment are reduced, and the energy consumption of the clothes care equipment is also reduced.

Drawings

Fig. 1 is a sectional view of a laundry drying system according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a clothes drying system with a circulation duct removed according to an embodiment of the present utility model.

In the figure:

1. a circulating air duct; 2. a refrigeration dehumidifier; 3. a heater; 4. a semiconductor refrigeration sheet; 5. a heat absorbing member; 51. a heat absorbing pipe; 52. a heat absorbing grid sheet; 6. a heating element; 61. a heating tube; 62. a heating grid sheet; 7. and a heat radiating fin.

Detailed Description

In order to make the technical problems solved, the technical scheme adopted and the technical effects achieved by the utility model more clear, the technical scheme of the utility model is further described below by a specific embodiment in combination with the attached drawings.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are orientation or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

The present embodiment provides a laundry care apparatus, which mainly refers to a laundry care apparatus having a laundry drying function, such as a heat pump dryer or a washing and drying integrated machine. The clothes care equipment provided by the embodiment mainly comprises a clothes drying roller and a clothes drying system, wherein the clothes drying roller is used for containing clothes to be dried, and the clothes drying system is used for circularly drying the clothes to be dried contained in the clothes drying roller.

Specifically, an air inlet and an air outlet which are communicated are formed in a clothes drying roller, as shown in fig. 1, a circulating air duct 1, a circulating fan (not shown in the figure), a refrigeration dehumidifier 2 and a heater 3 are arranged on the clothes drying roller, wherein the circulating air duct 1, the refrigeration dehumidifier 2 and the heater 3 are all positioned in the circulating air duct 1, an inlet of the circulating air duct 1 is communicated with an air outlet of the clothes drying roller, an outlet of the circulating air duct 1 is communicated with the air inlet of the clothes drying roller, the refrigeration dehumidifier 2 is used for refrigerating and dehumidifying high-temperature humid gas flowing into the circulating air duct 1 by the clothes drying roller, the heater 3 is used for heating the refrigerated and dehumidified gas, and the high-temperature humid gas discharged from the air outlet of the clothes drying roller is firstly refrigerated and dehumidified by the aid of the circulating air duct under the driving of the circulating air fan as shown in the arrow direction in fig. 1, and then the high-temperature humid gas processed into the high-temperature dry gas through the heating of the heater 3 is introduced into the clothes drying roller through the air inlet of the clothes drying roller, so that the high-temperature dry gas and the clothes to be fully mixed with the clothes to be dried in the clothes drying roller, and the clothes drying roller is fully circulated, and the clothes drying roller is achieved.

In this embodiment, the refrigeration dehumidifier 2 may be an evaporator, and the evaporator may exchange heat with the high-temperature humid gas flowing in the circulation duct 1, and absorb heat from the humid gas, so as to cool the high-temperature humid gas, condense water vapor in the high-temperature humid gas into water, and perform refrigeration and dehumidification on the high-temperature humid gas. In the present embodiment, the refrigeration dehumidifier 2 may be cooled by water, and the specific form of the refrigeration dehumidifier 2 is not particularly limited in the present embodiment.

In this embodiment, the heater 3 may be a condenser, into which a refrigerant is introduced, and the refrigerant can release heat in the condenser, and the released heat can heat the gas flowing through the condenser, and since the condenser is located downstream of the refrigeration dehumidifier 2, the condenser can heat the gas after the refrigeration dehumidifier 2 is used for refrigeration and dehumidification. In the present embodiment, the heater 3 may be in the form of a heating wire, and the specific form of the heater 3 is not specifically limited in the present embodiment.

When the clothes drying system dries clothes through the structure, a large compressor is usually required to be arranged as a heat source, so that the drying efficiency of the clothes is guaranteed, but the large-size and high-power compressor not only increases the occupied space of the whole clothes care equipment, but also increases the energy consumption and the working noise of the clothes care equipment.

In order to solve the above problems, as shown in fig. 1 and 2, the laundry drying system provided in this embodiment further includes a semiconductor cooling plate 4, a heat absorbing member 5 and a heating member 6, where the semiconductor cooling plate 4 is located outside the circulation duct 1, the heat absorbing member 5 and the heating member 6 are both located in the circulation duct 1, and the cold end of the semiconductor cooling plate 4 is connected with the heat absorbing member 5, the heat absorbing member 5 is used to assist the cooling dehumidifier 2 in cooling and dehumidifying the high-temperature humid gas flowing into the circulation duct 1, the hot end of the semiconductor cooling plate 4 is connected with the heating member 6, and the heating member 6 is used to assist the heater 3 in heating the cooled and dehumidified gas. The cold end of the semiconductor refrigerating sheet 4 is connected with the heat absorbing piece 5, the heat absorbing piece 5 assists the refrigeration dehumidifier 2 to refrigerate and dehumidify high-temperature humid gas flowing into the circulating air duct 1 through the cold temperature transmitted by the cold end of the semiconductor refrigerating sheet 4, the hot end of the semiconductor refrigerating sheet 4 is connected with the heating piece 6, the heating piece 6 assists the heater 3 to heat the refrigerated and dehumidified gas through the heat transmitted by the hot end of the semiconductor refrigerating sheet 4, the dehumidification and drying efficiency of the clothes drying system is greatly improved, a large-volume high-power compressor is not required to be configured for the clothes drying system to serve as a heat source, and therefore the volume and working noise of the whole clothes drying system are reduced, and the energy consumption of the clothes drying system is also reduced.

The semiconductor refrigeration piece 4 is formed by connecting an N-type semiconductor material and a P-type semiconductor material by using the peltier effect of the semiconductor material, and when the semiconductor refrigeration piece 4 is electrified, heat transfer occurs between two ends of the semiconductor refrigeration piece 4, and the heat is transferred from one end of the semiconductor refrigeration piece 4 to the other end, so that a hot end and a cold end are formed at two ends of the semiconductor refrigeration piece 4. The heat auxiliary heater 3 at the hot end of the semiconductor refrigerating sheet 4 is used for working, and the heat auxiliary refrigerating dehumidifier 2 at the cold end of the semiconductor refrigerating sheet 4 is used for working, so that the energy efficiency can be improved while the silence is ensured.

In the present embodiment, the upper end of the semiconductor cooling fin 4 is a hot end, the lower end of the semiconductor cooling fin 4 is a cold end, the heat absorbing member 5 is connected to the lower end of the semiconductor cooling fin 4, and the heating member 6 is connected to the upper end of the semiconductor cooling fin 4.

Specifically, as shown in fig. 1, a refrigeration dehumidifier 2, a heat absorbing member 5, a heater 3 and a heating member 6 are sequentially arranged in the circulating air duct 1 along the flowing direction of the air, so that the high-temperature humid air exhausted from the air outlet of the clothes drying roller sequentially passes through the refrigeration dehumidifier 2 and the heat absorbing member 5 to be dehumidified, then sequentially passes through the heater 3 and the heating member 6 to be heated, and finally, the air converted into the high-temperature dry air is introduced into the clothes drying roller through the air inlet of the clothes drying roller to form clothes drying circulation. In other embodiments, the heat absorbing member 5 may be disposed upstream of the refrigeration dehumidifier 2, so that the high-temperature humid gas passes through the heat absorbing member 5 before passing through the refrigeration dehumidifier 2, or the heating member 6 may be disposed upstream of the heater 3, so that the cooled and dehumidified gas passes through the heating member 6 before passing through the heater 3.

It should be noted that, when the semiconductor refrigeration piece 4 is powered on, due to the characteristics of the semiconductor refrigeration piece 4, the power of the cold end of the semiconductor refrigeration piece 4 is generally lower than the power of the hot end of the semiconductor refrigeration piece 4, for example, when the power of the hot end of the semiconductor refrigeration piece 4 is 100w, the power of the cold end of the semiconductor refrigeration piece 4 is only 50w, so that the heat distribution of the hot end and the cold end of the semiconductor refrigeration piece 4 is unbalanced, and the heat balance of the whole clothes drying system is reduced.

In order to solve the above problems, as shown in fig. 1 and 2, the clothes drying system further includes a heat dissipation fin 7, the heat dissipation fin 7 is located outside the circulation duct 1, and the heat dissipation fin 7 is in fit connection with the hot end of the upper end of the semiconductor cooling plate 4 to perform heat dissipation and cooling on the hot end of the semiconductor cooling plate 4, thereby properly reducing the heat of the hot end of the semiconductor cooling plate 4, and adjusting the distribution of the heat of the semiconductor cooling plate 4, so that the clothes drying system achieves heat balance. Specifically, the heat dissipation fins 7 may be corrosion-resistant aluminum heat dissipation fins, and in other embodiments, the heat dissipation fins 7 may also be made of copper or aluminum alloy materials.

Preferably, in this embodiment, the clothes drying system further includes a cooling fan (not shown in the figure), the cooling fan is located outside the circulating air duct 1, and the cooling fan is opposite to the cooling fins 7, and by setting the cooling fan, the cooling effect of the heat end of the semiconductor cooling fin 4 is further improved. Specifically, the heat distribution of the semiconductor refrigerating sheet 4 can be adjusted by adjusting the rotation speed of the cooling fan, so that the clothes drying system finally reaches heat balance.

In this embodiment, as shown in fig. 2, the heat absorbing member 5 includes a heat absorbing tube 51 and a plurality of heat absorbing grid plates 52, where an end portion of the heat absorbing tube 51 can extend out of the circulation duct 1 to be connected with the cold end of the semiconductor refrigeration sheet 4, and a main body portion of the heat absorbing tube 51 is arranged in a serpentine shape in the circulation duct 1, the plurality of heat absorbing grid plates 52 are located in the circulation duct 1, and the plurality of heat absorbing grid plates 52 are arranged on the heat absorbing tube 51 at intervals. The heat absorbing piece 5 is arranged in a mode that the contact area between the heat absorbing piece 5 and the gas in the circulating air duct 1 is greatly increased, and the refrigerating and dehumidifying effects on the gas are greatly improved. Specifically, the heat absorbing pipe 51 and the heat absorbing grid 52 may be made of a material having a good heat transfer effect, such as aluminum or copper.

As shown in fig. 2, the heating element 6 includes a heating tube 61 and a plurality of heating grid plates 62, wherein, the end of the heating tube 61 can extend out of the circulation duct 1 to be connected with the hot end of the semiconductor refrigerating plate 4, and the main body of the heating tube 61 is arranged in a serpentine shape in the circulation duct 1, the plurality of heating grid plates 62 are located in the circulation duct 1, and the plurality of heating grid plates 62 are arranged on the heating tube 61 at intervals. The arrangement mode of the heating piece 6 greatly increases the contact area of the heating piece 6 and the gas in the circulating air duct 1, and greatly improves the heating effect on the gas. Specifically, the heating tube 61 and the heating grid 62 may be made of a material having a good heat transfer effect, such as an aluminum material and a copper material.

According to the clothes care equipment, by applying the clothes drying system, the dehumidification and drying efficiency of the clothes care equipment to clothes are greatly improved, and the clothes care equipment does not need to be provided with a large-size high-power compressor to serve as a heat source for drying, so that the size and working noise of the whole clothes care equipment are reduced, and the energy consumption of the clothes care equipment is also reduced.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. A laundry drying system, comprising:

the clothes drying machine comprises a circulating air channel (1), wherein an inlet of the circulating air channel (1) is communicated with an air outlet of a clothes drying roller, and an outlet of the circulating air channel (1) is communicated with an air inlet of the clothes drying roller;

a refrigeration dehumidifier (2) and a heater (3), wherein the refrigeration dehumidifier (2) and the heater (3) are both positioned in the circulating air duct (1), the refrigeration dehumidifier (2) is configured to cool and dehumidify the high-temperature humid gas flowing into the circulating air duct (1) from the clothes drying drum, and the heater (3) is configured to heat the cooled and dehumidified gas; and

the cold end of the semiconductor refrigerating sheet (4) is connected with a heat absorbing piece (5), and the heat absorbing piece (5) is positioned in the circulating air duct (1) so as to assist the refrigerating dehumidifier (2) to refrigerate and dehumidify high-temperature and humid gas flowing into the circulating air duct (1); the hot end of the semiconductor refrigerating sheet (4) is connected with a heating piece (6), and the heating piece (6) is positioned in the circulating air duct (1) to assist the heater (3) to heat the refrigerated and dehumidified gas.

2. The laundry drying system of claim 1, further comprising:

the heat dissipation fins (7), the heat dissipation fins (7) and the semiconductor refrigerating sheets (4) are both located outside the circulating air duct (1), and the heat dissipation fins (7) are connected with the hot ends of the semiconductor refrigerating sheets (4) so as to conduct heat dissipation and cooling on the hot ends of the semiconductor refrigerating sheets (4).

3. Laundry drying system according to claim 2, characterized in that the heat radiating fins (7) are corrosion resistant aluminium heat radiating fins.

4. The laundry drying system of claim 2, further comprising:

the cooling fan is positioned outside the circulating air duct (1) and is opposite to the cooling fins (7).

5. Laundry drying system according to any one of claims 1-4, characterized in that the heat absorbing member (5) comprises:

the heat absorption pipe (51) is connected with the cold end of the semiconductor refrigerating sheet (4), and the heat absorption pipe (51) is arranged in a serpentine shape in the circulating air duct (1); and

the heat absorption grid plates (52) are positioned in the circulating air duct (1), and the heat absorption grid plates (52) are arranged on the heat absorption pipe (51) at intervals.

6. Laundry drying system according to any one of claims 1-4, characterized in that the heating element (6) comprises:

the heating pipe (61) is connected with the hot end of the semiconductor refrigerating sheet (4), and the heating pipe (61) is arranged in a serpentine shape in the circulating air duct (1); and

the heating grid plates (62) are positioned in the circulating air duct (1), and the heating grid plates (62) are arranged on the heating tube (61) at intervals.

7. Laundry drying system according to any of claims 1-4, characterized in that the refrigerated dehumidifier (2) comprises:

and the evaporator can exchange heat with the high-temperature humid gas in the circulating air duct (1) so as to refrigerate and dehumidify the high-temperature humid gas.

8. Laundry drying system according to any of claims 1-4, characterized in that the heater (3) comprises:

and the condenser is filled with refrigerant, and the refrigerant can release heat in the condenser so as to heat the refrigerated and dehumidified gas in the circulating air duct (1).

9. The laundry drying system according to any one of claims 1-4, further comprising:

the circulating fan is positioned in the circulating air duct (1).

10. A laundry care appliance comprising a laundry drum for holding laundry to be dried and a laundry drying system according to any one of claims 1 to 9, the laundry drying system being configured to cyclically dry the laundry to be dried held within the laundry drum.