CN218492093U - Condensation module, stoving module and wash and dry by fire all-in-one - Google Patents

Abstract

The utility model provides a pair of condensation module, stoving module and washing dry by fire all-in-one, include: the condenser is used for condensing high-temperature wet airflow entering the shell; the condenser comprises a cold source inlet and a cold source outlet which extend out of the shell, and a plurality of stages of condenser pipes which are sequentially connected end to end; the condenser pipe is provided with straight pipe sections and U-shaped pipe sections communicated with adjacent straight pipe sections, the first-stage condenser pipe is communicated with the cold source inlet, and the last-stage condenser pipe is communicated with the cold source outlet; the air inlet is formed in one side of the shell; and an air outlet. The utility model discloses in fully consider high temperature damp and hot air current become the refrigerant in low temperature drying air current and the condenser pipe gradually by low temperature to high temperature interact, arrange very big improvement condensation efficiency step by step of the condenser pipe in the condensation module.

Description

Condensation module, stoving module and wash and dry by fire all-in-one

Technical Field

The utility model relates to a wash dry clothing equipment field, especially relate to a condensation module, stoving module and wash and dry by fire all-in-one.

Background

The drying system of the existing washing and drying integrated machine comprises: the method adopts special refrigeration equipment (comprising an evaporator and a condenser) to condense the damp and hot airflow, has good condensation effect, but has higher cost; the other method is to condense the damp and hot airflow by directly spraying condensed water, and the method has the defects that a large amount of moisture can still be mixed in the airflow, and the dehumidification and drying efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a condensing module, a drying module and a washing and drying integrated machine, which aims to solve the problem that the special refrigeration equipment in the prior art has higher cost; and the mode that directly sprays through the comdenstion water is to damp hot air current condensation, and this mode shortcoming still can mix with a large amount of moisture in the air current, and dehumidification drying efficiency is lower to wash and dry by the fire all-in-one because the vibrations of cylinder and frame, the stability and the higher problem of leakproofness requirement of condensation modular structure.

To solve the above technical problem, according to some embodiments, the present invention provides

A condensation module, comprising:

the condenser is used for condensing high-temperature wet airflow entering the shell;

the condenser comprises a cold source inlet and a cold source outlet which extend out of the shell, and a plurality of stages of condenser pipes which are sequentially connected end to end;

the condenser pipe is provided with straight pipe sections and U-shaped pipe sections communicated with adjacent straight pipe sections, the first-stage condenser pipe is communicated with the cold source inlet, and the last-stage condenser pipe is communicated with the cold source outlet;

the air inlet is formed in one side of the shell and is used for enabling external high-temperature high-humidity air flow to enter the shell;

and the air outlet is formed in the other side of the shell and used for discharging the low-temperature dry air flow condensed by the condenser.

Further, the condenser further comprises fins in which at least a portion of the straight tube sections are embedded.

Further, the multistage condensation duct generally has a tendency to be arranged along the inlet side toward the outlet side.

Further, the multistage condensation pipes have a tendency to be arranged in a direction from the upper side to the lower side.

Further, the multistage condensation tubes have a tendency to be arranged in an upper-to-lower direction in the fins.

Further, the cold source inlet is close to the air outlet side, and the multistage condensation pipe has a greater tendency to be arranged from the air inlet side to the air outlet side.

Further, the condensation duct crosses from the air outlet side to the air inlet side by at most three stages.

Further, the cold source inlet is close to the air inlet side, and the multistage condensation pipes are arranged along the form from the upper part to the lower part of the condenser and from the air inlet side to the air outlet side.

The utility model provides a stoving module, including hydrofuge module and any one of the above-mentioned technical scheme condensation module, the gas vent of hydrofuge module with condensation module's air inlet intercommunication.

The utility model provides a wash and dry by fire all-in-one, include as above-mentioned arbitrary technical scheme stoving module.

The above technical scheme of the utility model following profitable technological effect has at least:

the utility model discloses in fully consider that high temperature damp and hot air current becomes refrigerant in low temperature drying air current and the condenser pipe gradually by low temperature to high temperature interact, arrange very big improvement condensation efficiency step by step of the condenser pipe in the condensation module.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention or the conventional technologies, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of the split condensing module according to an embodiment of the present invention.

Fig. 2 is a three-dimensional view of a condenser in an embodiment of the present invention.

Fig. 3 is a three-dimensional view of a condenser in yet another embodiment of the present invention.

The reference signs are:

1. a housing; 3. a condenser; 31. a cold source inlet; 32. a cold source outlet; 33. a fin; 35. a condenser tube; 351. a straight pipe section; 352. a U-shaped pipe section.

Detailed Description

At present, the special refrigeration equipment of the washing and drying integrated machine in the prior art has higher cost; and the mode that directly sprays through the comdenstion water is to damp and hot air current condensation, and this mode shortcoming still can mix with a large amount of moisture in the air current, the lower problem of dehumidification drying efficiency.

In order to solve the above problems, as shown in fig. 1 and 2, the present invention provides a condensation module, including: the device comprises a shell 1 and a condenser 3 arranged in the shell 1, wherein the condenser 3 is used for condensing high-temperature wet airflow entering the shell 1; the condenser 3 comprises a cold source inlet 31 and a cold source outlet 32 which extend out of the shell 1, and a plurality of stages of condenser pipes 35 which are connected end to end in sequence; the condensation pipe 35 is provided with a straight pipe section 351 and a U-shaped pipe section 352 communicated with the adjacent straight pipe section 351, the condensation pipe 35 at the first stage is communicated with the cold source inlet 31, and the condensation pipe 35 at the last stage is communicated with the cold source outlet 32; the cold source inlet 31 is used as a cooling liquid inlet of the condenser main body, and the cold source outlet 32 is used as a cooling liquid outlet of the condenser main body; the air inlet is formed in one side of the shell 1 and is used for enabling external high-temperature wet air to enter the shell 1; and the air outlet is formed in the other side of the shell 1 and used for discharging the low-temperature dry air flow condensed by the condenser 3.

In this embodiment, the external high-temperature wet airflow enters the casing 1 of the condensation module through the air inlet, and is condensed by the condenser 3 in the casing 1 to obtain a low-temperature dry airflow, and the low-temperature dry airflow flows out from the air outlet, so as to complete cooling and dehumidification of the high-temperature wet airflow, wherein an external refrigerant enters through the cold source inlet 31 of the condenser 3 and flows out from the cold source outlet 32 through the multi-stage condensation pipe 35; the condenser 3 is provided with a plurality of stages of condenser pipes 35 which are sequentially connected end to end, and the condenser pipes 35 are provided with straight pipe sections 351 and U-shaped pipe sections 352 which can be fully contacted with high-temperature wet air flow, so that the condensing efficiency is improved.

In an embodiment of the present invention, the condenser 3 further comprises a fin 33, and at least a part of the straight tube section 351 is embedded in the fin 33. The fins 33, on the one hand, support the multi-stage condenser tubes 35 and, at the same time, serve as mounting portions for fitting with the housing 1 of the condensation module, and, more importantly, they can guide the high-temperature and high-humidity air flow so that the air flow can exchange heat with the condenser tubes sufficiently. The size and shape of the condenser can be designed according to the size of the shell 1 and the orientation of the condenser tube 35.

In an embodiment of the present invention, as shown in fig. 2, further, the multistage condensation pipe 35 generally has a tendency to be arranged along the air inlet side toward the air outlet side. Further, the multistage condensation tubes 35 have a tendency to be arranged in the direction from the upper side to the lower side.

Preferably, the multistage condensation pipes 35 are grouped in a plurality of stages and arranged in a group-by-group manner along the gas inlet side to the gas outlet side. Wherein, a plurality of the multistage condensation pipes 35 are divided into a plurality of groups, and the condensation pipes 35 in each group may be stacked and staggered step by step or arranged in disorder. The temperature of the air flow is lower as the high-temperature wet air flow is closer to the air outlet in the condensation process; the closer to the air inlet, the higher the temperature of the air flow; the closer to the cold source inlet 31, the lower the temperature of the condensation pipe 35, and the closer to the cold source outlet 32, the higher the temperature of the condensation pipe; therefore, the condenser pipes 35 are arranged along the air inlet side to the air outlet side group by group, the air flow with higher temperature contacts with the condenser pipe 35 with lower temperature, and the air flow with lower temperature contacts with the condenser pipe 35 with higher temperature, so that the air flow and the contacted condenser pipe 35 have certain temperature difference, and the condensing effect is well played. Further, the condenser tubes 35 of each group are arranged step by step along the upper side to lower side direction of the housing 1, so that the temperature of the condenser tubes 35 on the plane consistent with the end surfaces of the air inlet or the air outlet is substantially the same, and the temperature of the multi-stage condenser tubes 35 is gradually increased from the air inlet to the air outlet in combination with the communication direction of the air inlet and the air outlet.

In an embodiment of the present invention, as shown in fig. 3, further, the multistage condensation tube 35 has a tendency to be arranged in the fin along the upper side to lower side direction. Further, the cold source inlet 31 is close to the air outlet side, and the multistage condensation duct has a greater tendency to be arranged from the air inlet side to the air outlet side.

Alternatively, a plurality of the multistage condensation pipes 35 are grouped in stages and arranged in the upper to lower direction of the housing 1 group by group. Further, the condensation tubes 35 of each group are arranged step by step along the air inlet side to the air outlet side. In this embodiment, the upper layer of the condensation pipes 35 has a lower temperature, and the lower layer of the condensation pipes has a higher temperature, which is less effective than the corresponding embodiment of fig. 2, but still can ensure that the temperature of the multi-stage condensation pipes 35 is gradually increased from the air inlet to the air outlet, so as to ensure that the air flow and the contacted condensation pipes 35 have a certain temperature difference. The dimensions in fig. 2 and 3 are for patterning requirements, and the application does not limit the specific dimensions.

In an embodiment of the present invention, the condensation duct spans from the air outlet side to the air inlet side through at most three stages. Alternatively, a stage may be defined as one U-shaped pipe section communicating with one or two straight pipe sections.

In an embodiment of the present invention, the cold source inlet 31 is close to the air outlet side. Further, the cool source outlet 32 is adjacent to the air outlet side and is located on the side wall of the case 1. The temperature of the air flow at the air outlet is relatively low, so that the air flow and part of the refrigerant which just enters the condensation module act to further cool the air flow which is about to flow out of the condenser shell. The cold source outlet 32 of the condenser 3 is positioned on the side wall or the bottom wall of the shell 1, the cold source inlet 31 is positioned on the upper part of the side wall of the shell 1, and the refrigerant transmission cost is solved by utilizing gravity.

In other embodiments, the cold source inlet 31 may be disposed close to the air inlet side of the housing, and the cold source outlet 32 may be disposed close to the air outlet side of the housing, so that the tubes of the condenser tubes 35 may be arranged in a staggered manner from the air inlet side of the housing 1 to the air outlet side of the housing as a whole, when the high-temperature and high-humidity air flows in from the air inlet of the housing 1, the air flow first exchanges heat with a part of the condenser tubes with the bottom temperature, and the air flow is cooled and the refrigerant is heated; as the air flows toward the outlet side of the housing 1, the temperature of the air further decreases and the temperature of the refrigerant further increases until equilibrium is reached at a certain node. It is of course preferred that the temperature of the refrigerant and the temperature of the air stream are substantially equal when equilibrium is reached, i.e. when the air outlet of the housing is reached. In practice, in order to save space, use the condenser more efficiently and reduce costs, the air outlet of the housing 1 is reached before the equilibrium state is reached, i.e. when the air flow is always in a cooling trend.

In an embodiment of the present invention, the housing 1 includes: the connecting end face of one of the upper shell and the lower shell is provided with an annular groove, and the other end face of the upper shell and the lower shell is provided with an annular bulge matched with the annular groove; a sealing gasket disposed within the annular groove.

In this embodiment, the upper casing or the lower casing of the condensation module is provided with an annular groove, the sealing gasket is pressed into the annular groove through an annular protrusion matched with the annular groove, and the connection end surfaces of the upper casing and the lower casing are sealed through compression assembly.

In this embodiment, cooling water continuously flows into the condenser 3 through the cold source inlet 31, so as to condense the high-temperature wet airflow in the housing 1, and obtain a low-temperature dry airflow. The cooling water is discharged from the water outlet of the condenser 3. Further, the condensation module further comprises: the outlet sets up the casing bottom for discharge the comdenstion water that the condensation of high temperature humid air current obtained, the casing bottom can set up the guiding gutter or set up the bottom into leaking hopper-shaped, in order to do benefit to the comdenstion water discharge casing that the comdenstion air current obtained. The condenser 3 condenses the high-temperature wet air flow to condense the moisture in the air flow to obtain condensed water; the water outlet can also be communicated to the water outlet of the roller to discharge condensed water.

In an embodiment of the present invention, as shown in the figure, at least one blocking rib is disposed on the bottom wall and the side wall of the lower casing; the at least one blocking rib is used for clamping the condenser 3 in the lower shell, and a gap is formed between the condenser 3 and the side wall and the bottom wall. Optionally, the roof and the side of going up the casing also set up at least one and keep off the muscle, be used for with condenser 3 block is in the upper casing, make have the clearance so that the air current can circulate between the wall of casing and condenser 3 between condenser 3 and the lower casing lateral wall, the diapire 3 to make the structure of condensation module have higher stability, can adapt to the vibrations of washing and drying the cylinder and the frame of all-in-one.

In an embodiment of the present invention, the lower casing is close to a baffle is disposed between the bottom wall of the gas outlet and the condenser 3, so that the high temperature wet gas flow at the bottom of the lower casing can exchange heat with the condenser 3 sufficiently. Be equipped with the baffle between the handing-over department and the condenser 3 of diapire or lateral wall or diapire and lateral wall that are close to the gas outlet, can block the air current of casing bottom down and directly flow to the gas outlet along the diapire to flow to condenser 3 and enter condenser 3 inboardly, with the more abundant contact of condenser 3, flow out by the gas outlet after the condensation again.

In an embodiment of the present invention, at least one first fixing portion is disposed outside the upper casing; at least one second fixing part corresponding to the at least one first fixing part is arranged on the outer side of the lower shell; the first fixing part and the second fixing part are fixedly connected through screws. The utility model provides a stoving module, including hydrofuge module and any one of the above-mentioned technical scheme condensation module, the gas vent of hydrofuge module with the air inlet intercommunication of condensation module. The dehumidifying module may be a heating module for heating the moisture-adsorbed intermediate medium to discharge a high-temperature wet air flow, or may be a drum for directly blowing the high-temperature air flow to the object to be dried.

The utility model provides a wash and dry by fire all-in-one, including any technical scheme condensation module or stoving module, consequently have all advantages and beneficial effect of condensation module or stoving module among the above-mentioned technical scheme, do not give unnecessary details here.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundary of the appended claims, or the equivalents of such scope and boundary.

Claims (10)

1. A condensation module, comprising:

the device comprises a shell (1) and a condenser (3) arranged in the shell (1), wherein the condenser (3) is used for condensing high-temperature wet airflow entering the shell (1);

the condenser (3) comprises a cold source inlet (31) and a cold source outlet (32) which extend out of the shell (1), and a plurality of stages of condenser pipes (35) which are sequentially connected end to end;

the condenser pipe (35) is provided with straight pipe sections (351) and U-shaped pipe sections (352) communicated with the adjacent straight pipe sections (351), the condenser pipe (35) at the first stage is communicated with the cold source inlet (31), and the condenser pipe (35) at the last stage is communicated with the cold source outlet (32);

the air inlet is formed in one side of the shell (1) and is used for enabling outside high-temperature and high-humidity air flow to enter the shell (1);

and the air outlet is formed in the other side of the shell (1) and used for discharging low-temperature dry air flow condensed by the condenser (3).

2. A condensation module according to claim 1, characterized in that the condenser (3) further comprises fins in which the at least partially straight tube section (351) is embedded.

3. A condensation module according to claim 1, characterized in that the multistage condensation duct (35) has a general tendency to run along the inlet side towards the outlet side.

4. A condensation module according to claim 3, characterised in that the multistage condensation tubes (35) have a tendency to run in the direction from the upper side to the lower side.

5. A condensation module according to claim 2, characterised in that the multistage condensation tubes (35) have a tendency to run in an upper-to-lower direction in the fins.

6. A condensation module according to claim 1, characterized in that the cold source inlet (31) is close to the outlet side, the multistage condensation duct (35) having a greater tendency to be arranged from the inlet side to the outlet side.

7. A condensation module according to claim 6, characterized in that the condensation duct (35) spans from the air outlet side to the air inlet side by at most three stages.

8. A condensation module according to claim 1, characterized in that the cold source inlet (31) is close to the air inlet side, and the multistage condensation tube (35) is arranged in a pattern from the upper to the lower part of the condenser, from the air inlet side to the air outlet side.

9. A drying module comprising a moisture exhaust module and a condensation module as claimed in any one of claims 1 to 8, wherein the exhaust port of the moisture exhaust module is in communication with the inlet port of the condensation module.

10. An all-in-one washing and drying machine, which is characterized by comprising the drying module set according to claim 9.

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