CN211723057U - Condensation structure of dish washer - Google Patents

Abstract

The utility model relates to a condensation structure of dish washer, including the dish washer body, the dish washer body includes the inner bag, be equipped with the hot steam air inlet with the inner bag intercommunication directly over the inner bag is inside, be equipped with the condensation gas outlet with external intercommunication at the inner bag rear end, be equipped with between hot steam air inlet and condensation gas outlet and utilize the fan to assist and take out the condensing equipment who lets hot steam in the inner bag follow dish washer inside and inhale and carry out condensation treatment after by the hot steam air inlet and discharge from the condensation gas outlet, condensing equipment includes the condensation cavity, is equipped with the condensation fan of output and condensation gas outlet intercommunication in the condensation cavity, and the both sides interval in the condensation cavity is provided with the condensation baffle more than. This structure realizes whole condensation overall arrangement at the machine top, makes it more accord with the air flow characteristic, and hot steam flows faster, the condensation effect is better, drying efficiency is higher, the energy consumption is lower.

Description

Condensation structure of dish washer

Technical Field

The utility model relates to a technical field of dish washer, more specifically relate to a condensation structure of dish washer.

Background

Along with the increasing living standard of people, the dish washing machine as the last member of kitchen electricity gradually enters the lives of thousands of households, and the dish washing machine greatly liberates the hands of people. The technology of the dish washing machine is continuously improved along with the increasing development of the dish washing machine industry.

One of the technical parameters of the dishwasher is the dryness index, and after the running program of the dishwasher is finished, the higher the dryness index is, the less the residual water on the surface of the tableware is, and the more comfortable the tableware is used.

The layout of the current inner drying device is basically the following two types: 1. the fan pumps hot steam in the machine from the upper side of the machine to quickly take away heat from the inner container, so that steam on the surface of the tableware is quickly volatilized to achieve the aim of drying; however, this construction does not deal with the extracted steam, which results in excessive ambient outlet temperature, 2. the blower blows outside air (optionally with the addition of PTC auxiliary heating means) from outside the machine (bottom/side down) into the inner container, drying the residual water on the surface of the dishes, but the above solutions all have several disadvantages: 1. the flow of hot steam is not smooth; 2. the energy consumption is large; 3. the drying effect is poor, so that improvement is required.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a condensing structure of a dish washer, which reduces energy consumption, has better drying effect, and better conforms to the air flow characteristic.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a condensation structure of dish washer, includes the dish washer body, the dish washer body includes the inner bag, is equipped with the hot steam air inlet with the inner bag intercommunication directly over the inner bag is inside, is equipped with the condensation gas outlet with external intercommunication at the inner bag rear end, is equipped with between hot steam air inlet and condensation gas outlet and utilizes the fan to assist and takes out the hot steam that lets in the inner bag outside from the dish washer inside by the hot steam air inlet inhale and carry out condensation treatment after follow the condensing equipment who discharges from the condensation gas outlet, condensing equipment includes the condensation chamber, is equipped with the condensation fan of output and condensation gas outlet intercommunication in the condensation chamber, and the both sides interval in the condensation chamber is provided with the condensation baffle more than one.

Further, improve the condensation effect, the condensation cavity is including the inside upper cover and the lower cover that form condensation channel after mutually supporting, and all condensation baffles are located the both sides wall of lower cover, and the condensation baffle cross arrangement of lower cover both sides.

Further improve the condensation effect, the slope of condensation baffle sets up, keeps apart into a plurality of circulation regions that communicate each other with the condensation passage.

Further, in order to conveniently handle the water that the condensation produced, avoid the condensation effect variation simultaneously, the lower cover sets up for the slope, and the hot steam air inlet is located the low department of lower cover, the condensation gas outlet is located the eminence of lower cover.

Further, in order to avoid the rivers of backward flow to go into the tableware surface, and influence tableware secondary pollution, there is the water conservancy diversion lid of downward sloping in the below intercommunication of hot steam air inlet, the last mouthful of edge of water conservancy diversion lid is connected with the hot steam air inlet, the lateral wall of inner bag is pressed close to along the lower mouthful of edge of water conservancy diversion lid, just the both sides of water conservancy diversion lid are equipped with the second air intake.

The utility model provides a pair of condensation structure of dish washer, utilize ascending flow characteristic of hot steam itself and fan supplementary outer taking out and let the hot steam in the inner bag discharge from the condensation gas outlet after the condensing equipment condensation by hot steam air inlet suction from dish washer inside high efficiency rapidly, thereby let the tableware dry more high-efficient more thoroughly, finally realize whole condensation overall arrangement at the machine top, make it more accord with the air flow characteristic, hot steam flows faster, the condensation effect is better, drying efficiency is higher, the energy consumption is lower.

Drawings

FIG. 1 is a perspective view showing the internal structure of an inner container in a condensation structure of a dishwasher in accordance with an embodiment 1;

fig. 2 is a perspective view of the deflector cap of the present embodiment 1;

FIG. 3 is a perspective view of a condensing structure of a dishwasher in accordance with the present embodiment 1 without a deflector cover installed;

FIG. 4 is a perspective view showing a rear structure of a condensing structure of a dishwasher in accordance with the present embodiment 1;

FIG. 5 is a perspective view of the dishwasher of this embodiment 1, as viewed from above, when the outer cover is removed from above the inner container;

FIG. 6 is a perspective view of the condensing apparatus of the present embodiment 1;

fig. 7 is an exploded view of the condensation device of the present embodiment 1.

Wherein: a dishwasher body 1; an inner container 2; a hot steam inlet 3; a condensation air outlet 4; a condensing device 5; a condensation chamber 6; a condensation baffle 7; a condensing fan 8; an upper cover 9; a lower cover 10; a deflector cover 11; a second air inlet 12; a buckle 13; a lower lip 14.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings, so that the technical solution of the present invention can be more easily understood and grasped.

Example 1:

as shown in fig. 1-7, the condensation structure of the dish washer disclosed in this embodiment includes a dish washer body 1, the dish washer body 1 includes a liner 2, a hot steam inlet 3 communicated with the liner 2 is provided right above the inside of the liner 2, a condensation gas outlet 4 communicated with the outside is provided at the rear end of the liner 2, a condensing device 5 which utilizes fan auxiliary external pumping to make hot steam in the liner 2 sucked from the hot steam inlet 3 inside the dish washer and discharged from the condensation gas outlet 4 after condensation treatment is provided between the hot steam inlet 3 and the condensation gas outlet 4, the condensing device 5 includes a condensation chamber 6, a condensation fan 8 with an output end communicated with the condensation gas outlet 4 is provided in the condensation chamber 6, and more than one condensation baffle 7 is provided at two sides in the condensation chamber 6 at intervals. The upper part of the inner container 2 is of a double-layer structure, so the condensing device 5 is hidden in the double-layer structure of the inner container, and fig. 5 is a schematic view showing the condensing baffle 7 exposed when the outer cover on the upper part of the inner container is opened.

Further, improve condensation effect, condensation chamber 6 is including the inside upper cover 9 and the lower cover 10 that form condensation channel after mutually supporting, and all condensation baffles 7 are located the both sides wall of lower cover 10, and the condensation baffle 7 cross arrangement of lower cover 10 both sides, and the setting can make things convenient for inside the later stage clearance like this, improves condensation effect simultaneously. The condensation baffles 7 described in this embodiment are 10 in total, and are respectively located on two side walls of the lower cover 10, 5 on each side, and are arranged crosswise, and in a specific embodiment, the condensation baffles 7 may also be 9, 12 or more.

Further improve the condensation effect, condensation baffle 7 slope sets up, keeps apart into a plurality of circulation regions that communicate each other with the condensation channel, through setting up condensation baffle 7 slope, finally constitutes and keeps apart into a plurality of circulation regions that communicate each other with the condensation channel for hot steam gets into the back and then reaches condensation gas outlet 4 and needs certain time, utilizes condensation baffle 7 to improve the condensation effect in this section of time.

Further, in order to conveniently handle the water that the condensation produced, avoid the condensation effect to worsen simultaneously, lower cover 10 sets up for the slope, and hot steam air inlet 3 is located the low department of lower cover 10, condensation gas outlet 4 is located lower cover 10 eminence sets up through inclining lower cover 10 for the water that produces after the condensation flows back to hot steam air inlet 3 under the tilt state in, finally gets into inner bag 2, finally avoids the later stage to clear up the problem of comdenstion water.

Further, in order to avoid the rivers of backward flow to flow into the tableware surface, and influence tableware secondary pollution, there is the water conservancy diversion lid 11 of downward sloping in the below intercommunication of hot steam air inlet 3, the last mouthful of edge of water conservancy diversion lid 11 is connected with hot steam air inlet 3, the lateral wall of inner bag 2 is pressed close to along 14 to the lower mouthful of edge of water conservancy diversion lid 11, just the both sides of water conservancy diversion lid 11 are equipped with second air intake 12, in this embodiment 11 tops of water conservancy diversion lid pass through buckle 13 lock joint on hot steam air inlet 3, realize flowing into the inner bag bottom with the backward flow water that the condensation produced along the inner bag inner wall, make things convenient for the later stage to collect, avoid flowing into the tableware surface after the clearance and produce secondary pollution's problem.

The working principle is as follows: when the washing program of the dish washer enters the drying stage, the hot steam with higher temperature in the inner container of the dish washer flows upwards, the fan starts to work, and then the hot steam enters the condensing air duct above the hot steam inlet 3 to be condensed more efficiently and then is emitted to the outside of the dish washer through the condensing air outlet 4, and meanwhile, the residual water on the surface of the tableware can be taken away rapidly through the hot steam, so the hot steam in the inner container is rapidly and efficiently sucked out from the hot steam inlet 3 in the dish washer through the upward flowing characteristic of the hot steam and the fan auxiliary external pumping, is condensed by the condensing device and then is discharged from the condensing air outlet 4, thereby the tableware is dried more efficiently and more thoroughly, and simultaneously, the condensing fan 8 is integrated by utilizing the upward flowing characteristic of the hot steam to further reduce the energy consumption, so that the efficiency of the condensing fan 8 is higher, in addition, the whole hot steam flows more smoothly, and in the condensation process, because the condensation baffle 7 is arranged, the path of a condensation channel is blocked in the condensation process, so that the distance from the hot steam inlet 3 to the condensation air outlet 4 is prolonged, the condensation effect is improved, and the structure has the following advantages: 1. the whole condensation is distributed at the top of the machine, so that the machine better accords with the air flow characteristic, the hot steam flow is faster, the condensation effect is better, the drying efficiency is higher, and the energy consumption is lower; through setting the lower cover to the tilt state in this embodiment, finally guarantee that the inside water that produces can flow back to hot steam air inlet 3 among the condensation process, then owing to set up a water conservancy diversion lid 11 at hot steam air inlet 3, press close to the setting of inner bag lateral wall with one side entry of water conservancy diversion lid 11, finally realize that the inside residual water that can not be detained of condensation channel, the comdenstion water can be because self potential energy is gone along flowing back in the inner bag, with this problem of avoiding the later stage to clear up condensation channel, the comdenstion water of backward flow also can not enter into abluent tableware surface in addition, and lead to the problem of secondary pollution, and how to open setting and the method of fan work in the dish washer washing procedure among the above-mentioned structure belongs to the conventional technical means in this field.

Of course, the above is only a specific application example of the present invention, and the protection scope of the present invention is not limited at all. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a condensation structure of dish washer, includes dish washer body (1), dish washer body (1) includes inner bag (2), its characterized in that: be equipped with hot steam air inlet (3) with inner bag (2) intercommunication directly over inner bag (2) is inside, be equipped with condensation gas outlet (4) with external intercommunication in inner bag (2) rear end, be equipped with between hot steam air inlet (3) and condensation gas outlet (4) and utilize the fan to assist and take out the hot steam in letting inner bag (2) outward from dish washer inside by hot steam air inlet (3) inhale and carry out condensation treatment after from condensation gas outlet (4) exhaust condensing equipment (5), condensing equipment (5) are including condensation chamber (6), are equipped with condensation fan (8) of output and condensation gas outlet (4) intercommunication in condensation chamber (6), and the both sides interval in condensation chamber (6) is provided with more than one condensation baffle (7).

2. The condensing structure of a dish washer according to claim 1, wherein: the condensation chamber (6) comprises an upper cover (9) and a lower cover (10) which are matched with each other and internally form a condensation channel, all condensation baffles (7) are positioned on two side walls of the lower cover (10), and the condensation baffles (7) on two sides of the lower cover (10) are arranged in a crossed mode.

3. A condensation structure of a dishwasher according to claim 2, characterized in that the condensation baffle (7) is arranged obliquely to divide the condensation channel into a plurality of interconnected flow-through areas.

4. The condensation structure of a dishwasher according to claim 2 or 3, wherein the lower cover (10) is inclined, and the hot steam inlet (3) is located at a lower position of the lower cover (10), and the condensation air outlet (4) is located at an upper position of the lower cover (10).

5. The condensation structure of a dishwasher according to claim 1, 2 or 3, wherein a downwardly inclined flow guide cover (11) is connected to the lower portion of the hot steam inlet (3), the upper opening edge of the flow guide cover (11) is connected to the hot steam inlet (3), and the lower opening edge (14) of the flow guide cover (11) is adjacent to the side wall of the inner container (2).

6. The condensation structure of a dishwasher according to claim 5, wherein the deflector cover (11) is provided with second air inlets (12) at both sides thereof.

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