CN114753128A - Drying system and clothes treatment device with same - Google Patents

Abstract

The application provides a drying system which comprises a rear cylinder condensation structure, a condensation air duct, a communicating pipe and a condensation water inlet, wherein the communicating pipe is communicated with the rear cylinder condensation structure and the condensation air duct; the gas condensed by the rear cylinder condensation structure can enter the condensation air duct through the communicating pipe; the condensation water inlet is communicated with the communicating pipe; the condensed water can enter the rear barrel condensation structure and the condensation air duct through the communicating pipe. According to the drying system and the clothes treatment device with the same, the structure is simple, and the condensation effect is good.

Description

Drying system and clothes treatment device with same

Technical Field

The application belongs to the technical field of clothes treatment devices, and particularly relates to a drying system and a clothes treatment device with the same.

Background

The common water-cooled washing and drying integrated machine can be roughly divided into two types by the position of a condensation section (the flow position of condensed water), wherein one type is provided with a condensation air duct, the other type is that the rear wall of an outer barrel is used for condensation, and the condensation air duct is not arranged. At present, a double-condensation mode of connecting a condensation air duct and the wall of the outer barrel through a newly added pipeline is adopted, so that the drying efficiency of the double-condensation type washing and drying machine is higher, and the time is saved.

However, in the related art, the rear barrel condensation structure and the condensation air duct are communicated through the air suction manifold, and because the rear air duct condensation and the rear barrel condensation need to be performed simultaneously, two condensation water inlet valves are generally needed to respectively control the condensation water in the air duct condensation and the rear barrel condensation, and a communicating pipe for air suction is also arranged at the top of the air duct condensation structure, so that the structure of the condensation structure of the drying system is complex, and the condensation effect is insufficient.

Therefore, how to provide a drying system with a simple structure and a good condensation effect and a clothes treatment device with the drying system become problems to be solved urgently by those skilled in the art.

Disclosure of Invention

Therefore, an object of the present invention is to provide a drying system and a clothes treating apparatus having the same, which have a simple structure and a good condensing effect.

In order to solve the above problems, the present application provides a drying system, comprising:

a rear cylinder condensation structure;

a condensing air duct;

the communicating pipe is communicated with the rear cylinder condensation structure and the condensation air duct; the gas condensed by the rear cylinder condensation structure can enter the condensation air duct through the communicating pipe;

the condensation water inlet is communicated with the communicating pipe; the condensed water can enter the rear barrel condensation structure and the condensation air duct through the communicating pipe.

Furthermore, the connection position of the communicating pipe and the condensation air duct is taken as a first position; the connecting position of the communicating pipe and the rear cylinder condensation structure is taken as a second position; the first position is higher than the second position.

Further, the drying system comprises a first part, a second part and a third part which are sequentially arranged from top to bottom in the vertical direction; the lengths of the first, second and third portions are equal in the vertical direction; the second location is on the first portion.

Furthermore, the drying system comprises a rear drum structure, and the horizontal distance between the first position and the second position is L; the diameter of the rear cylinder structure is d; wherein, L/d is 0.15-0.35.

Furthermore, the drying system also comprises a water inlet pipe, and the water inlet pipe is inserted into the communicating pipe through the condensation water inlet;

and/or the condensation water inlet is arranged at the connecting position of the communicating pipe and the condensation air channel.

Furthermore, the drying system also comprises a water retaining structure, and the water retaining structure is positioned in the communicating pipe; the water retaining structure is used for preventing condensed water which is positioned in the communication pipe and is close to one side of the rear barrel condensation structure from flowing into the condensation air duct.

Further, when drying system still included the inlet tube, be provided with the reposition of redundant personnel structure in the inlet tube, the reposition of redundant personnel structure is divided into two parts of arranging in proper order in the length direction of communicating pipe in with the inlet tube.

Further, when the drying system further comprises a water retaining structure, the water retaining structure is connected with the bottom of the communicating pipe;

and/or, when the drying system further comprises a water retaining structure, the drying system further comprises a water inlet pipe, and when a flow distribution structure is arranged in the water inlet pipe, the water retaining structure is integrally connected with the flow distribution structure.

Furthermore, the drying system also comprises a spraying water inlet; the spraying water inlet is communicated with a communicating pipe; spray water can enter the rear cylinder condensation structure and/or the condensation air duct through the communicating pipe.

According to still another aspect of the present application, there is provided a laundry treating apparatus including a drying system as described above.

According to the drying system and the clothes treatment device with the same, a condensation water inlet is adopted, and condensed water is led into the rear barrel condensation structure and the condensation air channel through the communicating pipe, so that the drying system is simple in structure, and the condensed water can be effectively led into the rear barrel condensation structure and the condensation air channel; and, also circulate in communicating pipe and have the comdenstion water, make the gas after the condensation of a back section of thick bamboo condensation structure can further condense when getting into the condensation wind channel through communicating pipe, this application condensation effect is better.

Drawings

Fig. 1 is a schematic structural diagram of a drying system in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a drying system in an embodiment of the present application;

FIG. 3 is an enlarged view at A in FIG. 2;

fig. 4 is a schematic structural diagram of a drying system in the related art.

The reference numbers are given as:

11. a rear cylinder condensation water inlet; 2. a condensing air duct; 21. an air duct condensation water inlet; 3. a communicating pipe; 4. a water inlet pipe; 5. a water retaining structure; 6. a flow splitting structure; 7. a rear barrel structure; 8. and (4) a spraying water inlet.

Detailed Description

With reference to fig. 1-4, a drying system includes a rear cylinder condensation structure, a condensation air duct 2, a communicating tube 3 and a condensation water inlet, wherein the communicating tube 3 communicates the rear cylinder condensation structure and the condensation air duct 2; the gas condensed by the rear cylinder condensation structure can enter the condensation air duct 2 through the communicating pipe 3; the condensation water inlet is communicated with the communicating pipe 3; the condensed water can enter the rear cylinder condensation structure and the condensation air duct 2 through the communicating pipe 3. The drying system adopts the condensation water inlet which can guide condensed water into the communicating pipe 3, and the condensed water is guided into the rear cylinder condensation structure and the condensation air duct 2 through the communicating pipe 3, so that the drying system is simple in structure, and the condensed water can be effectively guided into the rear cylinder condensation structure and the condensation air duct 2; and, also circulate in communicating pipe 3 and have the comdenstion water, make the gas after making through the condensation of a back section of thick bamboo condensation structure can further condense when getting into condensation wind channel 2 through communicating pipe 3, this application condensation effect is better. And this application can reduce the water intaking valve of a comdenstion water, utilizes the distance of communicating pipe 3 simultaneously, increases condensation efficiency. The communicating pipe 3 is arranged at the top of the rear cylinder structure 7. This application can realize just can guaranteeing two double-cold-condensation structures that need the comdenstion water with only a condensation water inlet promptly the condensate valve, the water intaking valve of a back section of thick bamboo comdenstion water of cancellation, and the comdenstion water is intake in communicating pipe 3, increases the comdenstion water flow path of a back section of thick bamboo condensation, increases drying efficiency. For having back section of thick bamboo condensation water inlet 11 and wind channel condensation water inlet 21 among the correlation technique, this application has still increased the condensation route of back section of thick bamboo condensation, has improved condensation efficiency. The condensation water inlet can be arranged at any position, and as long as the condensation water inlet can be communicated with the communicating pipe 3, a hole can be formed at any position on the side wall of the communicating pipe to form the condensation water inlet; because the communication pipe 3 is used for leading in the condensed water, when the condensed water is provided for the rear cylinder condensation structure and the condensation air duct 2, a set of water inlet structure can be adopted, for example, a condensation water inlet is formed in the communication pipe, the rear cylinder condensation structure refers to the condensed water formed when the condensed water flows on the surface of the rear cylinder, and the condensed water can exchange heat with the damp and hot air (namely, the gas to be condensed) when the condensed water flows on the surface of the rear cylinder so as to condense the damp and hot air; gas after this back section of thick bamboo condensation structure condensation can get into condensation wind channel 2 through communicating pipe 3 and carry out the recondensation, therefore a section of thick bamboo condensation structure forms two cold congeals structures with condensation wind channel 2 jointly after this.

The application also discloses some embodiments, and the connecting position of the communicating pipe 3 and the condensation air duct 2 is taken as a first position; the connecting position of the communicating pipe 3 and the rear cylinder condensation structure is taken as a second position; the first position is higher than the second position. Adjust the contained angle between communicating pipe 3 and the horizontal direction promptly, the position that makes it be connected with condensation wind channel 2 is a little higher than the position of being connected with back section of thick bamboo condensation structure, communicating pipe 3 is being close to the one end of back section of thick bamboo condensation structure for the horizontal direction downward sloping, can prevent like this that back section of thick bamboo comdenstion water from flowing into condensation wind channel 2, when the gas after the condensation of back section of thick bamboo condensation structure gets into condensation wind channel 2 through communicating pipe 3, the primary importance is higher than the second place, can prevent that gas from blowing the comdenstion water in communicating pipe 3 to fan or condensation wind channel 2 the inside. Further, the connection position of the communicating pipe 3 and the condensation air duct 2 is located at the side wall of the rear air duct.

The application also discloses some embodiments, the drying system comprises a first part, a second part and a third part which are sequentially arranged from top to bottom in the vertical direction; the lengths of the first, second and third portions are equal in the vertical direction; the second position is located on the first part, namely the second position is located on the upper part of the drying system, and the connecting position of the communicating pipe 3 and the rear cylinder condensation structure is located on the upper part of the drying system. The drying system can comprise a rear drum structure, and after the rear drum structure is installed, the axial direction of the rear drum structure is parallel to the horizontal direction, namely the first part, the second part and the third part are the upper part, the middle part and the lower part of the rear drum structure; the second position is located at the upper portion of the rear barrel structure, which can effectively guide the condensed water into the rear barrel condensation structure.

The application also discloses some embodiments, the horizontal distance between the first position and the second position is L; the drying system comprises a rear drum structure, and the diameter of the rear drum structure is d; wherein, L/d is 0.15-0.35. In the range, the downward inclination angle of the communicating pipe 3 can be ensured not to be excessively large, and the phenomenon that the condensed water rushes into the inner cylinder due to excessively high flow speed when entering the rear cylinder from the communicating pipe 3 is prevented; the downward inclination angle of the communicating pipe 3 is not too large, so that the condensed water can be prevented from being blown to the fan or the inside of the condensing air duct 2 by hot air to be condensed. If the inclination angle is too large, otherwise, the flow speed of the condensed water entering the rear barrel is too high, and the condensed water rushes into the inner barrel to wet the clothes. If the inclination angle is too small, the condensed water is easily blown into the fan or the condensed air duct 2 by hot air. The surface of the rear cylinder structure forms the rear cylinder condensation structure.

The application also discloses some embodiments, the drying system further comprises a water inlet pipe 4, and the water inlet pipe 4 is inserted into the communicating pipe 3 through a condensation water inlet; the condensed water can enter the communicating pipe 3 through the water inlet pipe 4 and then respectively flow into the rear cylinder condensation structure and the condensation air duct 2. The water flow of the condensation water inlet pipe 4 paths of thickness and water inlet flow can be controlled to the two measurement directions only by ensuring that the upper end of the pipeline is full of water. Because the condensation flow is small, for example, the single side of the common situation needs 0.2-0.5L/min, the application needs 0.4-1L/min, and the pipe diameter needs to be matched with the flow.

The application also discloses some embodiments, the condensation water inlet sets up in the hookup location department communicating pipe 3 and condensation wind channel 2, can effectually make in the smooth inflow back section of thick bamboo condensation structure of comdenstion water that flows in the condensation water inlet and the condensation wind channel 2.

The application also discloses some embodiments, the drying system further comprises a water retaining structure 5, and the water retaining structure 5 is positioned in the communicating pipe 3; the water retaining structure 5 is used for preventing condensed water which is positioned in the communicating pipe 3 and is close to one side of the rear barrel condensation structure from flowing into the condensation air duct 2, and can prevent the condensed water which flows into the rear barrel condensation structure in the communicating pipe 3 from being blown into the condensation air duct 2 by gas, so that the condensed water can smoothly flow into the rear barrel condensation structure. The position of condensation water inlet is corresponding with water retaining structure 5's position for the comdenstion water can flow into water retaining structure 5 both sides simultaneously, makes the comdenstion water that makes the condensation water inlet flow out can get into condensation wind channel 2 and back section of thick bamboo condensation structure simultaneously.

The application also discloses some embodiments, when drying system still includes inlet tube 4, be provided with reposition of redundant personnel structure 6 in the inlet tube 4, reposition of redundant personnel structure 6 is divided into two parts that arrange in proper order on the length direction of communicating pipe 3 in with the inlet tube 4, makes the comdenstion water that flows in from the inlet tube 4 can flow in the both sides of reposition of redundant personnel structure 6 respectively, and then makes the comdenstion water in the inlet tube 4 divide into two the tunnel, flows in condensation wind channel 2 and back section of thick bamboo condensation structure respectively.

The application also discloses some embodiments, when drying system still includes water retaining structure 5, water retaining structure 5 is connected with the bottom of communicating pipe 3, because the comdenstion water flows into communicating pipe 3, most is located the bottom of communicating pipe 3, upper portion is not necessarily full of, upper portion is not full of can be so that the gas after the condensation of a back section of thick bamboo condensation structure flows into condensation wind channel 2 through the upper portion of communicating pipe 3, water retaining structure 5 can effectually prevent that the comdenstion water from being blown to fan or condensation wind channel 2 the inside by the hot-blast. The water retaining structure 5 can be a water retaining plate, and the edge of the water retaining plate is connected with the inner surface of the communication pipe 3 and is located at the bottom of the communication pipe 3. The bottom refers to the lower part in the vertical direction, namely the inner surface of the side wall below the communicating pipe 3, namely a water baffle is added in the communicating pipe 3, so that the cost can be saved and the condensing efficiency can be increased as long as the pipe diameter and the flow (shunting) of the condensed water inlet pipe 4 are controlled and the inclination angle of the communicating pipe 3 relative to the horizontal direction is determined.

The application also discloses some embodiments, still include water retaining structure 5 when drying system, and drying system still includes inlet tube 4, and when being provided with reposition of redundant personnel structure 6 in the inlet tube 4, water retaining structure 5 is connected with reposition of redundant personnel structure 6 integral type, can make the comdenstion water after the reposition of redundant personnel flow to condensation wind channel 2 and back section of thick bamboo condensation structure respectively smoothly like this. The flow distribution structure 6 is a flow distribution plate.

Communicating pipe 3 inclines slightly for the horizontal direction in this application, and inlet tube 4 is cut straightly two junctions, increases a flow distribution plate in the middle of inlet tube 4 for the reposition of redundant personnel. The flow distribution plate and the water baffle are integrally connected with the water baffle to be connected with the side wall of the inner surface of the communicating pipe 3, so that partial condensate water which should flow to the rear cylinder condensation structure can be prevented from being absorbed into the condensation air duct 2, and the flow distribution can be realized by controlling the pipe diameter and the water inlet flow of the water inlet pipe 4.

The application also discloses some embodiments, the drying system further comprises a spraying water inlet 8; the spraying water inlet 8 is communicated with the communicating pipe 3; the spray water can enter the rear cylinder condensation structure and/or the condensation air duct 2 through the communicating pipe 3. The spraying water inlet 8 can be provided with a spraying valve water inlet pipe 4, and the spraying valve water inlet pipe 4 can be placed beside the condensed water inlet and also inserted into the communicating pipe 3 and arranged side by side with the condensed water inlet pipe 4. The metal block of the spray valve is used for flushing the flock in the pipeline, so that the flow rate is high. The water inlet pipe 4 of the spray valve can be made thick. When the water retaining structure 5 is arranged in the communicating pipe 3, the position of the spraying water inlet 8 corresponds to the position of the water retaining structure 5, so that spraying water can flow into two sides of the water retaining structure 5 at the same time, the spraying water flowing out of the spraying water inlet 8 can enter the condensation air duct 2 and the rear cylinder condensation structure at the same time, and flock of the two condensation structures can be washed away at the same time; the spraying water inlet 8 can be arranged on one side of the water retaining structure 5, so that spraying water flowing out of the spraying water inlet 8 enters the condensation air duct 2 or the rear cylinder condensation structure to flush the flock.

According to an embodiment of the present application, there is provided a laundry treatment apparatus including a drying system, the drying system being the above-described drying system. The clothes treatment device is a washing and drying machine, and further the washing and drying machine is a double-condensation washing and drying machine. In the washing and drying machine of double condensation, communicating pipe 3 inclines slightly, and the junction of condensation duct 2 and communicating pipe 3 is directly inserted to condensate valve inlet tube 4, increases a flow distribution plate in the middle of inlet tube 4 for the reposition of redundant personnel. And the breakwater is connected the lateral wall about communicating pipe 3, can prevent that partial comdenstion water that should flow back section of thick bamboo condensation structure is inhaled condensation wind channel 2 the inside, and the comdenstion water inlet will be close to one side and delivery port and 3 bottoms of communicating pipe apart from being difficult for too big moreover, prevent the splash. The flow can be divided by controlling the pipe diameter and the inflow of the water inlet pipe 4. Therefore, two double-condensation structures needing condensed water can be ensured by only one condensation valve, a condensation path of the rear cylinder condensation is increased, and the condensation efficiency is improved. Two condensate water inlets (a rear barrel condensation structure water inlet and a condensation air duct 2 condensation water inlet) adopted by a common double-condensation structure are cancelled, the two condensate water inlets are combined into one, and the condensate water inlet is arranged at the joint of the communicating pipe 3 and the condensation air duct 2. A three-way valve can be used instead, and two water inlets are still used at the moment.

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 application is intended to cover various modifications, equivalent arrangements, and adaptations of the present application without departing from the spirit and scope of the present application. The foregoing is only a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present application, and these modifications and variations should also be considered as the protection scope of the present application.

Claims (10)

1. A drying system, comprising:

a rear cylinder condensation structure;

a condensation air duct (2);

the communicating pipe (3) is communicated with the rear cylinder condensation structure and the condensation air duct (2); the gas condensed by the rear cylinder condensation structure can enter the condensation air duct (2) through the communicating pipe (3);

the condensation water inlet is communicated with the communicating pipe (3); condensed water can enter the rear cylinder condensation structure and the condensation air duct (2) through the communicating pipe (3).

2. The drying system according to claim 1, wherein a connection position of the communicating tube (3) and the condensing air duct (2) is a first position; the connection position of the communicating pipe (3) and the rear cylinder condensation structure is taken as a second position; the first position is higher than the second position.

3. The drying system of claim 2, wherein the drying system comprises a first portion, a second portion and a third portion arranged in sequence from top to bottom in a vertical direction; the lengths of the first, second and third portions are equal in the vertical direction; the second location is located on the first portion.

4. The drying system of claim 2, wherein said drying system includes a rear drum configuration, said first position being horizontally spaced from said second position by a distance L; the diameter of the rear cylinder structure is d; wherein, L/d is 0.15-0.35.

5. The drying system according to claim 1, further comprising a water inlet pipe (4), wherein the water inlet pipe (4) is inserted into the communicating pipe (3) through the condensation water inlet;

and/or the condensation water inlet is arranged at the connecting position of the communicating pipe (3) and the condensation air duct (2).

6. The drying system according to claim 1, characterized in that said drying system further comprises a water-retaining structure (5), said water-retaining structure (5) being located inside said communicating pipe (3); the water retaining structure (5) is used for preventing condensed water at one side of the condensation water inlet close to the rear cylinder condensation structure in the communicating pipe (3) from flowing into the condensation air duct (2).

7. The drying system according to claim 5, characterized in that when the drying system further comprises a water inlet pipe (4), a flow dividing structure (6) is provided in the water inlet pipe (4), and the flow dividing structure (6) divides the interior of the water inlet pipe (4) into two parts which are sequentially arranged in the length direction of the communicating pipe (3).

8. The drying system according to any one of claims 1 to 7, wherein when the drying system further comprises a water blocking structure (5), the water blocking structure (5) is connected with a bottom of the communication pipe (3);

and/or, when the drying system further comprises a water retaining structure (5), the drying system further comprises a water inlet pipe (4), and when a shunting structure (6) is arranged in the water inlet pipe (4), the water retaining structure (5) is integrally connected with the shunting structure (6).

9. The drying system of claim 1, further comprising a spray water inlet (8); the spraying water inlet (8) is communicated with the communicating pipe (3); the spray water can enter the rear cylinder condensation structure and/or the condensation air duct (2) through the communicating pipe (3).

10. A laundry treatment apparatus comprising a drying system, characterized in that the drying system is a drying system according to any one of claims 1-9.

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