CN114775242A

CN114775242A - Outer barrel assembly and clothes drying equipment

Info

Publication number: CN114775242A
Application number: CN202210467870.4A
Authority: CN
Inventors: 王瑀宁; 龙斌华; 蒋璨; 张强; 刘二磊
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-07-22
Anticipated expiration: 2042-04-29
Also published as: CN114775242B

Abstract

The invention provides an outer barrel assembly and clothes drying equipment, wherein the outer barrel assembly comprises an outer barrel body, the outer barrel body comprises a rear barrel and a rear barrel condensation structure, the rear barrel condensation structure comprises a rear barrel condensate water inlet and a flow guide structure, the flow guide structure comprises a plurality of flow guide ribs, condensate water flow channels are formed on the outer surfaces of the flow guide ribs, the condensate water flow channels can increase the flow of rear barrel condensate water introduced by the rear barrel condensate water inlet at the inner surface of the rear barrel, the outer barrel assembly also comprises a rear condensation air duct communicated with the inner space of the outer barrel body, a rear air duct condensation structure is arranged in the rear condensation air duct, and the rear air duct condensation structure is communicated with an air inlet of the rear condensation air duct. According to the invention, the flow of the rear cylinder condensate water introduced by the rear cylinder condensate water introduction port can be increased, the retention time of the rear cylinder condensate water on the inner surface of the rear cylinder is increased, and the moist air flow in the inner space of the outer cylinder body can be ensured to be more fully contacted with the rear cylinder condensate water for heat exchange so as to realize condensation and dehumidification.

Description

Outer barrel assembly and clothes drying equipment

Technical Field

The invention belongs to the technical field of laundry equipment manufacturing, and particularly relates to an outer cylinder assembly and clothes drying equipment.

Background

The problem of drying time of clothes is mainly considered when a user selects the washing and drying integrated machine, the washing and drying integrated machine in the current market generally has the defect of overlong drying time, and the drying efficiency cannot be effectively improved.

At present, most washing and drying integrated machines adopt a back condensation air duct for condensation, and a few washing and drying integrated machines also cancel an independent back condensation air duct and are provided with corresponding condensing devices at a back cylinder. The existing rear cylinder condensing device has short retention time in the process that condensed water passes through the wall surface of the rear cylinder, and the insufficient contact time with air can cause the incomplete condensation of hot air and the insufficient drying efficiency.

Disclosure of Invention

Therefore, the invention provides the outer cylinder assembly and the clothes drying equipment, which can overcome the defect of low drying efficiency of the clothes drying equipment in the related technology.

In order to solve the above problems, the present invention provides an outer barrel assembly, which is applied to a double condensation clothes drying device, and comprises an outer barrel body, wherein the outer barrel body comprises a rear barrel, a rear barrel condensation structure is arranged at the rear barrel, the rear barrel condensation structure comprises a rear barrel condensation water introduction port and a flow guide structure, the flow guide structure comprises a plurality of flow guide ribs, a condensation water flow channel is formed on the outer surface of each flow guide rib, and the condensation water flow channel can increase the flow of the rear barrel condensation water introduced by the rear barrel condensation water introduction port on the inner surface of the rear barrel; the outer barrel assembly further comprises a rear condensation air duct communicated with the inner space of the outer barrel body, a rear air duct condensation structure is arranged in the rear condensation air duct, and the rear air duct condensation structure is communicated with the rear condensation air duct air inlet.

In some embodiments, the flow guiding structure includes a first flow guiding rib and a second flow guiding rib, a first end of the first flow guiding rib and a first end of the second flow guiding rib form a cross point, the cross point is located on an outflow path of the rear barrel condensed water inlet, and condensed water flowing out of the rear barrel condensed water inlet is guided to the first area and/or the second area of the rear barrel.

In some embodiments, at least one third flow guiding rib is further arranged on the first side area of the rear cylinder, and the at least one third flow guiding rib is partially overlapped with the first flow guiding rib in the height direction; and/or at least one fourth flow guide rib is further arranged on the second side area of the rear cylinder, and the at least one fourth flow guide rib is partially overlapped with the second flow guide rib in the height direction.

In some embodiments, the flow guiding structure further comprises a baffle assembly configured on the first side region of the rear cylinder, the baffle assembly being located below the third flow guiding rib to form a reentrant flow for condensed water flowing down the third flow guiding rib; and/or, the water conservancy diversion structure still includes the baffling subassembly, the baffling subassembly construct in the back section of thick bamboo on the second side region, the baffling subassembly is located the below of fourth water conservancy diversion muscle is in order to be able to the comdenstion water that the fourth water conservancy diversion muscle flows down forms the flow of turning back.

In some embodiments, the baffle assembly comprises at least a first baffle plate and a second baffle plate which are adjacently arranged, wherein an extension line of the first baffle plate intersects an extension line of the second baffle plate, an included angle formed between the first baffle plate and a horizontal line is a, an included angle formed between the second baffle plate and the horizontal line is b, and a is more than or equal to 30 degrees and less than or equal to 60 degrees, and/or b is more than or equal to 30 degrees and less than or equal to 60 degrees.

In some embodiments, a rear condensation duct air inlet is formed in a lower region of the rear cylinder, and a third baffle plate is arranged in the baffle assembly and above the rear condensation duct air inlet.

In some embodiments, the rear air duct condensation structure comprises a condensation pipe, and a cooling water inlet of the condensation pipe is communicated with the rear barrel condensation water introduction port through a three-way pipe.

In some embodiments, the central region of the rear cylinder is provided with a bearing, and a water blocking rib is arranged in the upper region of the rear cylinder corresponding to the bearing.

The invention also provides clothes drying equipment which comprises the outer barrel assembly.

According to the outer cylinder component and the clothes drying equipment, the flow of rear cylinder condensed water introduced from the rear cylinder condensed water introduction port can be increased by arranging the flow guide structure in the rear cylinder condensed water structure, the retention time of the rear cylinder condensed water on the inner surface of the rear cylinder is prolonged, and therefore, moist air flow in the inner space of the outer cylinder body can be fully contacted with the rear cylinder condensed water to exchange heat so as to realize condensation and dehumidification, and therefore the drying efficiency and the drying effect of a corresponding drying all-in-one machine can be effectively improved.

Drawings

FIG. 1 is a schematic view of the internal structure of the outer barrel assembly of the embodiment of the present invention (axial projection, parts omitted);

FIG. 2 is a side view of the outer barrel assembly of FIG. 1 (with parts omitted);

FIG. 3 is a schematic structural diagram of a tee in the outer barrel assembly of an embodiment of the invention;

fig. 4 is a schematic view of the internal structure of the rear condensation duct in fig. 1.

The reference numbers are given as:

1. an outer cylinder body; 10. a rear barrel; 101. a rear barrel condensed water inlet; 1021. a first flow guiding rib; 1022. a second flow guiding rib; 1023. a third flow guiding rib; 1024. a fourth flow guide rib; 1025. a fifth water guiding rib; 1031. a first baffle plate; 1032. a second baffle plate; 1033. a third baffle plate; 104. an air inlet of the rear condensation air duct; 11. a post-condensation air duct; 111. a condenser tube; 112. a spray pipe; 20. a bearing; 21. water retaining ribs; 3. a drainage structure; 4. a three-way pipe; 41. a first branch pipe; 42. a second branch pipe; 43. and (7) drying the tube.

Detailed Description

Referring to fig. 1 to 4 in combination, according to an embodiment of the present invention, an outer cylinder assembly is provided, which is applied to a dual condensation clothes drying apparatus, and includes an outer cylinder body 1, where the outer cylinder body 1 includes a rear cylinder 10, a rear cylinder condensation structure is disposed at the rear cylinder 10, the rear cylinder condensation structure can condense and dehumidify a damp-heat airflow in the internal space, the rear cylinder condensation structure includes a rear cylinder condensate water introduction port 101 and a flow guide structure, the flow guide structure includes a plurality of flow guide ribs, outer surfaces of the flow guide ribs form a condensate water flow channel, and the condensate water flow channel can increase a flow path of the rear cylinder condensate water introduced by the rear cylinder condensate water introduction port 101 at an inner surface of the rear cylinder 10, and it can be understood that the flow path is a sum of paths where the rear cylinder condensate water flowing out of the rear cylinder condensate water introduction port 101 flows from top to bottom. In the technical scheme, the flow guide structure is arranged in the rear barrel condensed water structure, so that the flow of rear barrel condensed water introduced by the rear barrel condensed water introduction port 101 can be increased, the retention time of the inner surface of the rear barrel 10 of rear barrel condensed water is increased, and further the moist air flow in the inner space of the outer barrel body 1 can be more fully in contact with the rear barrel condensed water for heat exchange to realize condensation dehumidification, and therefore the drying efficiency and the drying effect of a corresponding drying integrated machine can be effectively improved.

As a specific implementation manner, the flow guiding structure includes a first flow guiding rib 1021 and a second flow guiding rib 1022, a first end of the first flow guiding rib 1021 and a first end of the second flow guiding rib 1022 form an intersection, the intersection is located on an outflow path of the rear barrel condensed water introducing port 101, and condensed water flowing out of the rear barrel condensed water introducing port 101 is guided to a first area and/or a second area of the rear barrel 10, that is, at least a part of the rear barrel condensed water introduced by the rear barrel condensed water introducing port 101 can be guided to a first side of the rear barrel 10, and at least a part of the rear barrel condensed water introduced by the rear barrel condensed water introducing port 101 can be guided to a second side of the rear barrel 10, where the first side and the second side are one of a left side and a right side of the rear barrel 10 in a horizontal direction. In the technical scheme, the first flow guide ribs 1021 and the second flow guide ribs 1022 jointly split the flowing back barrel condensed water left and right, so that the problem of low heat exchange efficiency caused by the fact that the back barrel condensed water flows into a too small flowing area is effectively prevented. In some embodiments, the extending shapes of the first guiding rib 1021 and the second guiding rib 1022 may be various, for example, both may be arc extending shapes. The number of the first air guiding ribs 1021 and the number of the second air guiding ribs 1022 can be flexibly handled.

In some embodiments, at least one third air guiding rib 1023 is further disposed on the first side area of the rear cylinder 10, and at least one third air guiding rib 1023 is partially overlapped with the first air guiding rib 1021 in the height direction; and/or at least one fourth air guiding rib 1024 is further arranged on the second side area of the rear cylinder 10, and at least one fourth air guiding rib 1024 forms partial overlap with the second air guiding rib 1022 in the height direction. In the technical scheme, at least partial overlap is formed between the flow guide ribs arranged up and down, so that the rear barrel condensed water which is turned over by the flow guide ribs on the upper layer can be further guided, and the flow of the condensed water can be further increased.

In some embodiments, the flow guiding structure further includes a baffle assembly configured on the first side region of the rear cylinder 10, the baffle assembly being located below the third flow guiding rib 1023 to form a return flow for condensed water flowing down by the third flow guiding rib 1023; and/or, the flow guiding structure further comprises a baffle assembly, the baffle assembly is configured on the second side area of the rear cylinder 10, and the baffle assembly is located below the fourth flow guiding ribs 1024 so as to be capable of forming a turn-back flow for the condensed water flowing down from the fourth flow guiding ribs 1024. In the technical scheme, the baffling component is used for further bending the rear barrel condensed water left and right in the height direction, so that the flow of the condensed water is further increased, the heat exchange efficiency of the rear barrel condensation structure is improved, and the drying efficiency of the clothes drying equipment is further improved.

In some embodiments, the baffle assembly comprises at least a first baffle plate 1031 and a second baffle plate 1032 which are adjacently arranged, wherein an extension line of the first baffle plate 1031 intersects an extension line of the second baffle plate 1032, an included angle formed between the first baffle plate 1031 and a horizontal line is a, an included angle formed between the second baffle plate 1032 and the horizontal line is b, and a is greater than or equal to 30 degrees and less than or equal to 60 degrees, and/or b is greater than or equal to 30 degrees and less than or equal to 60 degrees. If the inclination angle is too small, the number of the arranged baffle plates needs to be relatively increased, unnecessary cost is increased, the inclination angle is too large, the speed of the condensed water flowing down from the rear cylinder is increased, and the purpose of long retention time on the inner surface of the rear cylinder cannot be achieved. The baffle assemblies on the left and right sides of the inner barrel 10 may be the same or different.

A fifth water guiding rib 1025 is further disposed in a lower area of the rear cylinder 10, and is capable of receiving condensed water flowing down from the upper side and the third baffle 1033, and the condensed water finally flows to the drainage structure 3 and is discharged out of the machine body.

In some embodiments, the lower region of the rear barrel 10 is provided with a rear condensation air duct air inlet 104, which is communicated with a drying air duct (not shown in the drawings, not labeled, and provided with a heating component therein), the air outlet of the drying air duct is located in the upper region of the inlet of the outer barrel body 1, a third baffle 1033 is provided in the baffle component, which is located above the rear condensation air duct air inlet 104, so that the rear condensation air duct air inlet 104 can be shielded by the third baffle 1033, thereby preventing the rear condensation water from being largely followed by the air inlet of the rear condensation air duct air inlet 104 to enter the subsequent drying air duct, and reducing the drying efficiency.

The urceolus subassembly still include with the back condensation wind channel 11 of urceolus body 1's inner space formation intercommunication, back wind channel condensation structure has in the back condensation wind channel 11, back wind channel condensation structure with back condensation wind channel air intake 104 intercommunication, it is specific, the air inlet stream of back condensation wind channel air intake 104 gets into behind the back condensation wind channel 11 via get into again behind the condensation of back wind channel condensation structure after the dehumidification stoving wind channel heating improves drying efficiency. It should be particularly noted that, in this technical scheme, the humid and hot airflow in the outer cylinder body 1 can be firstly condensed and dehumidified at the rear cylinder condensation structure, and then the formed airflow enters the rear condensation air duct 11 through the rear condensation air duct air inlet 104, and secondary condensation and dehumidification are realized under the action of the rear air duct condensation structure, so that the dryness of the airflow entering the drying air duct is ensured, and the drying efficiency is improved. The back condensation air duct 11 is further provided with a spraying pipe 112 capable of intermittently spraying water to the inside of the back condensation air duct 11 so as to form adhesion filtering (impurity removal) for impurities such as cotton wool mixed in the air flow in the back condensation air duct. The double-condensing clothes drying equipment can be a double-condensing clothes washing and drying integrated machine, and double condensation is realized under the combined action of the rear air duct condensation structure and the rear cylinder condensation structure, so that the drying efficiency and the drying effect can be effectively improved.

Compared with a single drying all-in-one machine with a rear air duct condensation structure, the drying efficiency of the drying all-in-one machine is remarkably improved, and the drying efficiency is shown in the test data in the following table:

	drying time	Power consumption kwh	Water consumption L
				Original rear air duct condensation structure	4h30min	4.402	57.35
Rear cylinder condensation structure and rear air duct condensation structure	3h40min	4.766	74.5

In some embodiments, the rear air duct condensation structure comprises a condensation pipe 111 for exchanging heat with an air flow outside a pipe wall through condensation water therein to achieve condensation and dehumidification, a cooling water inlet of the condensation pipe 111 is communicated with the rear drum condensation water introduction port 101 through a three-way pipe 4, which can simplify related pipe arrangement, as shown in fig. 3, the three-way pipe 4 comprises a first branch pipe 41, a second branch pipe 42 and a main pipe 43, wherein the first branch pipe 41 is communicated with an inlet of the condensation pipe 111, the second branch pipe 42 is communicated with the rear drum condensation water introduction port 101, and the main pipe 43 can be controllably communicated with an external cooling water source.

The central region of the rear cylinder 10 is provided with a bearing 20 (for passing through a rotating shaft of a driving motor), a water retaining rib 21 is arranged in the upper region of the rear cylinder 10 corresponding to the bearing 20, so that the sealing performance of the bearing 20 can be further ensured, and meanwhile, the phenomenon that the condensed water of the rear cylinder flows into the bearing 20 to reduce the contact heat exchange effect of the condensed water and the hot air can be prevented.

According to an embodiment of the invention, a clothes drying device, in particular a washing and drying integrated machine is further provided, and the clothes drying device comprises the outer cylinder assembly.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present invention, and these improvements and modifications should also be regarded as the protection scope of the present invention.

Claims

1. The outer barrel assembly is characterized by comprising an outer barrel body (1), wherein the outer barrel body (1) comprises a rear barrel (10), a rear barrel condensation structure is arranged at the position of the rear barrel (10), the rear barrel condensation structure comprises a rear barrel condensed water introduction port (101) and a flow guide structure, the flow guide structure comprises a plurality of flow guide ribs, condensed water flow channels are formed on the outer surfaces of the flow guide ribs, and the flow of rear barrel condensed water introduced by the rear barrel condensed water introduction port (101) at the inner surface of the rear barrel (10) can be increased through the condensed water flow channels; the outer barrel is characterized by further comprising a rear condensation air duct (11) communicated with the inner space of the outer barrel body (1), a rear air duct condensation structure is arranged in the rear condensation air duct (11), and the rear air duct condensation structure is communicated with a rear condensation air duct air inlet (104).

2. The outer cylinder assembly of claim 1, wherein the flow guiding structure comprises a first flow guiding rib (1021) and a second flow guiding rib (1022), a first end of the first flow guiding rib (1021) and a first end of the second flow guiding rib (1022) form a cross point, the cross point is located on an outflow path of the rear cylinder condensed water inlet (101), and condensed water flowing out of the rear cylinder condensed water inlet (101) is guided to a first area and/or a second area of the rear cylinder (10).

3. The outer barrel assembly according to claim 2, wherein at least one third flow guiding rib (1023) is further arranged on the first side area of the rear barrel (10), and the at least one third flow guiding rib (1023) is partially overlapped with the first flow guiding rib (1021) in the height direction; and/or at least one fourth flow guiding rib (1024) is further arranged on the second side area of the rear cylinder (10), and the at least one fourth flow guiding rib (1024) is partially overlapped with the second flow guiding rib (1022) in the height direction.

4. The outer cylinder assembly of claim 3, characterized in that the flow guiding structure further comprises a baffle assembly configured on the first side area of the rear cylinder (10), the baffle assembly being below the third flow guiding rib (1023) to form a return flow for the condensed water flowing down the third flow guiding rib (1023); and/or, the water conservancy diversion structure still includes the baffling subassembly, the baffling subassembly is constructed on the second side region of back section of thick bamboo (10), the baffling subassembly is located fourth water conservancy diversion muscle (1024) below is in order to can form the flow of turning back to the comdenstion water that fourth water conservancy diversion muscle (1024) flowed down.

5. The outer barrel assembly of claim 4, wherein the baffle assembly comprises at least a first baffle plate (1031) and a second baffle plate (1032) which are adjacently arranged, wherein an extension line of the first baffle plate (1031) intersects an extension line of the second baffle plate (1032), an included angle formed between the first baffle plate (1031) and the horizontal line is a, an included angle formed between the second baffle plate (1032) and the horizontal line is b, 30 degrees and less than or equal to a and less than or equal to 60 degrees, and/or 30 degrees and less than or equal to b and less than or equal to 60 degrees.

6. The tub assembly of claim 4, characterized in that the lower region of the rear tub (10) is provided with a rear condensation duct inlet (104), and the baffle assembly has therein a third baffle plate (1033) above the rear condensation duct inlet (104).

7. The tub assembly of claim 1, characterized in that the rear duct condensation structure comprises a condensation pipe (111), and a cooling water inlet of the condensation pipe (111) is communicated with the rear tub condensation water introduction port (101) through a tee (4).

8. The outer cylinder assembly as claimed in claim 1, wherein the rear cylinder (10) has a bearing (20) at a central region thereof, and a water blocking rib (21) is provided at an upper region of the rear cylinder (10) corresponding to the bearing (20).

9. A clothes drying apparatus comprising the outer drum assembly of any one of claims 1 to 8.