CN215777885U - Drying system for dish-washing machine - Google Patents

Abstract

The utility model discloses a drying system for a dish washing machine, which comprises an inner container and a water cup, wherein the inner container is provided with a vent, the water cup is arranged at the bottom of the inner container and is communicated with the inner container, the drying system also comprises a condensation air duct and a fan, a water storage cavity is limited in the water cup, one end of the condensation air duct is communicated with the inner container, the other end of the condensation air duct is communicated with the water storage cavity through the fan, a plurality of convex ribs are arranged in the condensation air duct in a staggered mode to condense high-temperature steam entering the condensation air duct, the condensed steam exchanges heat with stored water in the water storage cavity, and the gas after heat exchange continuously flows into the inner container. Its simple structure through with the leading-in water storage chamber of high-temperature steam in the inner bag in order to make high-temperature steam realize cooling and condensation purpose to improve the drying effect of inner bag.

Description

Drying system for dish-washing machine

Technical Field

The utility model relates to the technical field of kitchen electricity, in particular to a drying system for a dish washing machine.

Background

In the related art, the drying process of the dishwasher is: after the hot rinsing of the last stage of washing chronogenesis is accomplished, the log of water with the rinsing is dried, there is a large amount of vapor in the dish washer inner chamber this moment, if do not do any processing, can form the drop of water on the tableware after the vapor condensation, the bowl dish is difficult dry, the drying technique of most dish washers is that increase at this moment blows in hot-blast, and increase the subassembly of bleeding simultaneously, the hot vapor in the discharge dish washer inner bag, but it is too high to blow in hot-blast energy consumption, exhaust hot vapor condenses into the drop of water easily at the gas outlet simultaneously, a large amount of drops of water drop from the air outlet drippage, probably can cause the sensation of leaking for the customer.

Disclosure of Invention

The present invention has been made to solve at least one of the problems occurring in the related art to some extent, and therefore, the present invention provides a drying system for a dishwasher, which has a simple structure and improves a drying effect of an inner tub by introducing high-temperature steam in the inner tub into a water storage chamber to cool and condense the high-temperature steam.

The above purpose is realized by the following technical scheme:

the utility model provides a drying system for dish washer, includes inner bag and drinking cup, the inner bag has the vent, the drinking cup set up in the inner bag bottom and with the inner bag is linked together, still includes condensation wind channel and fan, wherein be injectd in the drinking cup and have water storage chamber, condensation wind channel one end with the inner bag is linked together, and the other end passes through the fan with the water storage chamber is linked together crisscross be provided with the protruding muscle of a plurality of in the condensation wind channel in order to get into high temperature steam in the condensation wind channel condenses, steam after the condensation with deposit water in the water storage chamber and carry out the heat transfer, and gas after the heat transfer continues toward the inner bag inside flows.

In some embodiments, the fixed end of the rib is connected with the inner wall of the condensation air duct, and the free end of the rib is obliquely arranged along the direction of the inner wall of the condensation air duct and the flowing direction of the gas.

In some embodiments, the condensation duct has a first side wall and a second side wall which are opposite to each other, the ribs are respectively disposed on the first side wall and the second side wall, and the height of the rib on the first side wall is higher than the height of the rib on the second side wall.

In some embodiments, a trough is defined between two adjacent ribs on the same side wall, the ribs on the opposite side walls of the trough extend into the trough, and the ribs are spaced from the opposite side walls.

In some embodiments, the condensation air duct further comprises a water return pipe, the water return pipe is arranged on the first side wall of the condensation air duct, and one end of the water return pipe, which is far away from the condensation air duct, is communicated with the inner container so as to discharge condensed water in the condensation air duct into the inner container through the water return pipe.

In some embodiments, the water return pipe is located above the fixed end of the rib, and the free end of the rib corresponding to the water return pipe is inclined in the direction from the inner wall of the condensation air duct to the inside of the condensation air duct and in the direction opposite to the flowing direction of the gas.

In some embodiments, the water storage device further comprises a water discharge valve arranged at the bottom position of the water storage cavity to discharge water in the water storage cavity outwards.

In some embodiments, the water storage chamber further comprises a water inlet valve disposed on the water storage chamber to introduce external water supply into the water storage chamber.

In some embodiments, the water storage cavity and the water cup cavity are partitioned at intervals inside the water cup, the water drain valve is arranged at a position between the water storage cavity and the water cup cavity, and a water drain valve is arranged in the water cup cavity so that water in the water storage cavity is drained out through the water drain valve, the water cup cavity and the water drain valve in sequence.

In some embodiments, a plurality of through holes are formed between the water storage cavity and the inner container so as to communicate the water storage cavity with the inner container.

Compared with the prior art, the utility model at least comprises the following beneficial effects:

1. the drying system for the dish-washing machine is simple in structure, and the high-temperature steam in the inner container is guided into the water storage cavity to achieve the purposes of cooling and condensing the high-temperature steam, so that the drying effect of the inner container is improved.

Drawings

FIG. 1 is a cross-sectional view of a dishwasher drying system in an embodiment of the present invention.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. Modifications to the embodiments of the utility model or equivalent substitutions of parts of technical features without departing from the spirit of the utility model are intended to be covered by the scope of the claims of the utility model.

The first embodiment is as follows:

as shown in fig. 1, the embodiment provides a drying system for dish washer, including inner bag 1 and drinking cup 2, drinking cup 2 sets up in inner bag 1 bottom and is linked together with inner bag 1, still include condensation wind channel 3 and fan 4, wherein inject water storage chamber 5 in drinking cup 2, 3 one end in condensation wind channel is linked together with inner bag 1, the other end is linked together through fan 4 and water storage chamber 5, crisscross being provided with a plurality of protruding muscle 6 in condensation wind channel 3 in order to carry out the condensation to the high temperature steam that gets into in condensation wind channel 3, steam after the condensation with the water deposit in the water storage chamber carries out the heat transfer, gas after the heat transfer continues toward the inner bag inside flows.

In this embodiment, the drying system is preferably used in a dishwasher to cool and condense high-temperature steam inside a liner 1 of the dishwasher, a water storage cavity 5 is defined inside a water cup 2, cold water is pre-stored inside the water storage cavity 5, a condensation air duct 3 is added outside the liner 1, a plurality of convex ribs 6 are arranged inside the condensation air duct 3 in a staggered manner to prolong the flow path of gas in the condensation air duct 3, so as to condense the high-temperature steam entering the condensation air duct 3, a fan 4 rotates to guide the high-temperature steam inside the liner 1 into the condensation air duct 3, the high-temperature steam entering the condensation air duct 3 is condensed under the action of the convex ribs 6, condensed water generated after condensation is collected in the liner 1 or the water storage cavity 5 through the condensation air duct 3, and the condensed steam is guided into the water storage cavity 5 through the fan 4 to exchange heat with the cold water inside the water storage cavity 5, thereby high-temperature steam to getting into 5 the inside in water storage chamber cools down in order to realize the cooling purpose, gas after the heat transfer continues to flow toward 1 direction in inner bag, so make steam form an inner loop in the dish washer the inside, high-temperature steam in the inner bag 1 is through constantly condensing in condensation wind channel 3 the inside and cooling in 5 the inside in water storage chamber, thereby make inner bag 1 finally reach dry effect, and then avoid producing the comdenstion water on the gas vent of current dish washer, and the steam generator is simple in structure, through the leading-in water storage chamber 5 of high-temperature steam with in the inner bag 1 in order to make high-temperature steam realize cooling and condensation purpose, thereby improve the drying effect of inner bag 1.

In this embodiment, drying system is not limited to be used for the dish washer, still can select on other more suitable steam equipment according to the actual demand, when drying system is used for other steam equipment on, can add water storage chamber 5 and condensation wind channel 3 outside steam equipment alone, thereby make the high temperature steam of inner bag 1 the inside in order to be led to the 5 the inside of water storage chamber after condensation in condensation wind channel 3 the inside, high temperature steam carries out the heat exchange with the cold water of water storage chamber 5 the inside in order to realize the cooling purpose, steam after the heat exchange continues to flow toward 1 direction of inner bag, so make steam form an inner loop in steam equipment the inside, high temperature steam in inner bag 1 is through constantly condensing in condensation wind channel 3 the inside and cooling in 5 the inside of water storage chamber, thereby make inner bag 1 finally reach dry effect.

Further, the stiff end of protruding muscle 6 and the interior wall connection of condensation wind channel 3, its free end is by 3 inner walls of condensation wind channels toward the inside direction in condensation wind channel 3 and along the direction slope setting of gas flow, its simple structure, reasonable in design can do benefit to the comdenstion water that the condensation formed toward the direction flow of water storage chamber 5.

Preferably, the condensation air duct 3 has a first side wall 31 and a second side wall 32 which are oppositely arranged, the first side wall 31 and the second side wall 32 are respectively provided with the convex rib 6, and the height of the convex rib 6 on the first side wall 31 is higher than that of the convex rib 6 on the second side wall 32, so that the design is reasonable, and the gas flowing stroke can be effectively prolonged.

Specifically, inject the trough between the two adjacent protruding muscle 6 on the same lateral wall, protruding muscle 6 on the opposite side wall of trough stretches into in the trough and protruding muscle 6 sets up rather than the opposite side wall interval, and its reasonable in design, ingenious can effectively improve the condensation effect of steam.

Preferably, still include wet return 7, wet return 7 sets up on condensation wind channel 3's first lateral wall 31, wet return 7 is keeping away from condensation wind channel 3's one end and inner bag 1 intercommunication in order to discharge the comdenstion water in condensation wind channel 3 toward inner bag 1 the inside through wet return 7, and its simple structure can make the comdenstion water part that the condensation formed flow toward inner bag 1's direction, and the remaining part flows toward the direction of water storage chamber 5.

Further, wet return 7 is located the top position department of protruding muscle 6 stiff end to the free end of the corresponding protruding muscle 6 of wet return 7 is by 3 inner walls of condensation wind channel toward 3 inside directions in condensation wind channel and along the reverse slope setting of the direction of gas flow, and its reasonable in design can do benefit to the comdenstion water of 3 the inside in condensation wind channel and flow toward 1 the inside of inner bag through wet return 7.

In this embodiment, the condensation duct 3 is disposed on the outer sidewall of the inner container 1, the condensation duct 3 is disposed along the vertical direction, that is, the condensation duct 3 is disposed vertically from the top to the bottom, the cross section of the condensation duct 3 is preferably rectangular, so that the condensation duct 3 has two opposite sidewalls, that is, a first sidewall 31 and a second sidewall 32, which are disposed opposite to each other, respectively, the first sidewall 31 is connected with the outer sidewall of the inner container 1 in a matching manner, the first sidewall 31 and the second sidewall 32 are respectively provided with the protruding rib 6, the fixed end of the protruding rib 6 on the first sidewall 31 is connected with the first sidewall 31, the free end thereof is disposed from the first sidewall 31 to the second sidewall 32 in a downward inclination manner, the fixed end of the protruding rib 6 on the second sidewall 32 is connected with the second sidewall 32, and the free end thereof is disposed from the second sidewall 32 to the first sidewall 31 in a downward inclination manner, and the height of the convex rib 6 on the first side wall 31 is higher than that of the convex rib 6 on the second side wall 32, so that two adjacent convex ribs 6 on the first side wall 31 jointly define a trough, the convex rib 6 on the second side wall 32 extends into the corresponding trough, and the free end of the convex rib 6 on the second side wall 32 is arranged at an interval with the first side wall 31, thereby effectively prolonging the gas flowing stroke, facilitating the collection of condensed water into the water storage cavity 5 of the water cup 2 from top to bottom, furthermore, in order to effectively improve the condensation effect of steam, a water return pipe 7 can be connected on the first side wall 31 of the condensation air duct 3, namely, one end of the water return pipe 7 is communicated with the inner container 1 necklace, the other end is communicated with the condensation air duct 3 to discharge part of the condensed water in the condensation air duct 3 into the inner container 1 through the water return pipe 7, and the rest part of the condensed water continues to flow into the water storage cavity 5 through the fan 4 in the condensation air duct 3, in this embodiment, the flowing direction of the air in the condensation duct 3 is preferably from top to bottom.

Further, still include the valve 51 that drains, the valve 51 that drains sets up in the bottom position department of water storage chamber 5 with the water in the water storage chamber 5 of outwards discharging, and its simple structure can do benefit to the surplus water outwards discharge inside the water storage chamber 5.

Specifically, a water storage cavity 5 and a water cup cavity 8 are partitioned at intervals in the water cup 2, the water drain valve 51 is arranged at a position between the water storage cavity 5 and the water cup cavity 8, and a water drain valve 81 is arranged in the water cup cavity 8 so that water in the water storage cavity 5 is discharged outwards through the water drain valve 51, the water cup cavity 8 and the water drain valve 81 in sequence.

Particularly, a plurality of through holes are arranged between the water storage cavity 5 and the inner container 1 so as to communicate the water storage cavity 5 with the inner container 1, the structure is simple, and foreign matters in the inner container 1 can be effectively prevented from entering the water storage cavity 5.

In this embodiment, 2 the inside interval division of drinking cup has water storage chamber 5 and drinking cup chamber 8, the valve 51 that drains sets up position department between water storage chamber 5 and drinking cup chamber 8 and the valve 51 that drains is located the bottom position department in water storage chamber 5, perhaps the valve 51 that drains is located the position department that water storage chamber 5 is close to the bottom, accomplish dry work back when inner bag 1 the inside, the water of 5 the inside in water storage chamber flows through the valve 51 that drains in proper order, drinking cup chamber 8, discharge valve 81 back toward outside, of course, the valve 51 that drains sets up on drinking cup 2 so that water storage chamber 5 is linked together with the outside in this embodiment, thereby make the quartzy valve 51 that drains of 5 the inside in water storage chamber directly toward outside discharge.

The foregoing are only some embodiments of the utility model. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a drying system for dish washer, includes inner bag (1) and drinking cup (2), drinking cup (2) set up in inner bag (1) bottom and with inner bag (1) is linked together, its characterized in that still includes condensation wind channel (3) and fan (4), wherein inject water storage chamber (5) in drinking cup (2), condensation wind channel (3) one end with inner bag (1) is linked together, and the other end passes through fan (4) with water storage chamber (5) are linked together crisscross be provided with protruding muscle (6) of a plurality of in condensation wind channel (3) in order to get into high temperature steam in condensation wind channel (3) condenses, steam after the condensation with deposit water in water storage chamber (5) and carry out the heat transfer, gas after the heat transfer continue toward inner bag (1) the inside flows.

2. Drying system for a dishwasher according to claim 1, characterized in that the fixed end of the rib (6) is connected to the inner wall of the condensation duct (3), and the free end is inclined from the inner wall of the condensation duct (3) towards the inside of the condensation duct (3) and in the direction of the gas flow.

3. Drying system for a dishwasher according to claim 1, characterized in that the condensation duct (3) has a first side wall (31) and a second side wall (32) arranged opposite each other, the ribs (6) being arranged on the first side wall (31) and the second side wall (32), respectively, and the height of the ribs (6) on the first side wall (31) is higher than the height of the ribs (6) on the second side wall (32).

4. A drying system for a dishwasher according to claim 3, characterized in that adjacent ribs (6) on the same side wall define therebetween a trough, the ribs (6) on opposite side walls of the trough extending into the trough and the ribs (6) being spaced apart from the opposite side walls thereof.

5. The drying system for the dish washing machine according to claim 3, further comprising a water return pipe (7), wherein the water return pipe (7) is disposed on the first side wall (31) of the condensation air duct (3), and the water return pipe (7) is communicated with the inner container (1) at an end far away from the condensation air duct (3) to discharge the condensed water in the condensation air duct (3) to the inside of the inner container (1) through the water return pipe (7).

6. A drying system for a dishwasher according to claim 5, characterized in that the return pipe (7) is located at a position above the fixed end of the rib (6), and the free end of the rib (6) corresponding to the return pipe (7) is inclined from the inner wall of the condensation duct (3) towards the inside of the condensation duct (3) and in the direction of the gas flow.

7. A drying system for a dishwasher according to claim 1, further comprising a water discharge valve (51), said water discharge valve (51) being provided at a bottom position of said water storage chamber (5) to discharge water in said water storage chamber (5) to the outside.

8. The drying system for a dishwasher of claim 7, further comprising a water inlet valve (52), said water inlet valve (52) being provided on said water storage cavity (5) to introduce external water supply into said water storage cavity (5).

9. The drying system for the dishwasher according to claim 7, wherein the water storage chamber (5) and the water cup chamber (8) are partitioned at intervals inside the water cup (2), the water discharge valve (51) is disposed at a position between the water storage chamber (5) and the water cup chamber (8), and a water discharge valve (81) is disposed in the water cup chamber (8) so that water in the water storage chamber (5) is sequentially discharged through the water discharge valve (51), the water cup chamber (8) and the water discharge valve (81).

10. The drying system for the dishwasher according to any one of claims 1 to 9, wherein a plurality of through holes are opened at a position between the water storage chamber (5) and the inner tub (1) to communicate the water storage chamber (5) with the inner tub (1).

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