KR200144772Y1 - Vacuum dishwasher - Google Patents

Abstract

The present invention relates to a negative pressure washer, comprising: a washing body for forming a washing tank for receiving dishes to be washed; Suction means for extracting air in the washing tank to underpressure the washing tank; It includes a water supply means for supplying the washing water in the washing tank. As a result, the dish storage space in the washing tank can be expanded to accommodate a relatively large amount of dishes to be washed, and the washing performance can be greatly improved by spraying strong washing water into the underpressured washing tank. In addition, during the drying administration of the washed dishes, the drying time may be shortened by the low temperature boiling phenomenon, thereby reducing the power consumption and maximizing the drying effect.

Description

Vacuum dishwasher

The present invention relates to a negative pressure washer.

The conventional dishwasher 51, as shown in Figure 3, the spray nozzle 65 for spraying the washing water toward the dish basket (61, 63) for receiving the dishes to be washed and the dish basket (61, 63), A washing tank 53 incorporating 67) and a base portion 55 provided with a feed water pump 59 for supplying washing water to the spray nozzles 65 and 67 are divided into the main body up and down.

The base portion 55 is provided with a storage case 57 for storing the washing water introduced from the outside adjacent to the water supply pump 59 for pumping the washing water in the storage case. In the water supply hole formed at the bottom surface of the washing tank 53, that is, vertically above the water supply pump 59, a water supply pipe 69 is provided to provide a flow path of the washing water supplied from the water supply pump 59. The water supply pipe 69 Lower part four nozzle 67 for spraying the washing water is rotatably coupled.

The lower part nozzle No. 67 has a plurality of injection holes (not shown). When the washing water is injected toward the upper dish basket 63 through these injection holes, the lower part nozzle 40 is rotated by the hydraulic pressure of the washing water being fed. Meanwhile, the supplied washing water is supplied to the upper injection nozzle 65 (not shown) through the connection pipe 71 branched from the water supply pipe 69, and the upper injection nozzle 65 supplies the washing water through a plurality of injection holes. It is rotated by spraying. Accordingly, in the washing tank in which the washing water is sprayed up and down, washing of the dishes accommodated in the upper and lower dish baskets is performed.

However, in the conventional dishwasher 51, a water storage pump 57 for storing the washing water supplied from the outside and a relatively large water supply pump for feeding the washing water in the water storage case to the respective injection nozzles 65 and 67 ( Since 59) is inevitably installed in the main body, when the volume of the main body 52 is large, but the number of dishes to be washed in the washing tank is small, there is an inconvenience in that the dish washing is divided into several times. In addition, since the water supply pump 59 has a limitation in its feeding capacity, there is a problem that strong washing water may not be injected into the washing tank.

In addition, the dishwasher is dried in the dishwasher, the drying operation of the dishware by the heating device not shown in the washing tank takes a relatively long time, there is a problem that increases the amount of power consumption accordingly. As a result, the user rejects the use of the dishwasher, thereby reducing the demand.

Accordingly, an object of the present invention, in consideration of the conventional problems, can accommodate a relatively large amount of dishes to be washed in the washing tank, to provide a negative pressure washer that greatly improved the cleaning performance by spraying strong washing water in such a washing tank. will be.

In addition, another object of the present invention is to provide a negative pressure washer that reduces the power consumption by reducing the drying time of the washed dishes.

1 is a side cross-sectional view of a negative pressure washer according to the present invention,

Figure 2 is a schematic cross-sectional view of the escalator according to an embodiment for negative pressure in the washing tank,

3 is a schematic partial cutaway cross-sectional view of a conventional dishwasher.

* Description of the symbols for the main parts of the drawings *

3: washing body 5: washing tank

7: Door 9, 11: tableware basket

13, 15: water supply pipe 17: water supply valve

19, 21: spray nozzle 27: drain

29: drain valve 31: suction device

33: Espider 35: Outlet

37: Inflow port 39: Euro port

45: air outlet pipe

The object is, according to the present invention, a negative pressure washer, washing body for forming a washing tank for receiving the dishes to be washed; Suction means for extracting air in the washing tank to underpressure the washing tank; It is achieved by a negative pressure washer comprising a water supply means for supplying the washing water in the washing tank.

In this case, the suction means can be simply configured as an escalator.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view of a negative pressure washer according to the present invention. As can be seen from this figure, the negative pressure washer 1 is provided with a washing tank 5 in a substantially rectangular cylindrical body 3 which forms an outer appearance, and on the front surface of the washing tank 5, The door 7 which swings up and down about the hinge which is not shown in figure, and opens and closes the opening of the washing tank 5 is provided. Gaskets (not shown) are respectively provided between the edges of the cleaning clasps and the corresponding door 7 surfaces, whereby a closed space is formed in the cleaning tank when the door 7 is closed.

The upper basket 9 and the lower basket 11 which accommodate the dishes to be washed are provided in the washing tank up and down. These upper baskets 9 and the lower baskets 11 are installed to be moved back and forth along the guide rails 23 and 25 provided on the inner wall surface of the washing tank 5, in particular, the lower basket 11 is a door ( 7) is accessible to the outside through the opening of the open state.

Water supply pipes 13 and 15 are provided on the upper surface and the lower surface of the washing tank 5 to feed the washing water supplied from the outside into the washing tank, respectively, in the central station. These water supply pipes 13 and 15 are connected with a single water supply valve 17 for supplying or blocking washing water from the outside. In addition, the bottom of the washing tank 5 is formed with a downward drain 27 for discharging the washing water to the outside, the drain 27 is opened and closed by the drain valve (29). As a result, when the drain valve 29 is opened, the washing water collected at the bottom of the washing tank 5 is discharged to the outside.

On the other hand, at the distal end of the lower water supply pipe 15, the lower partial nozzle 21 coupled in the horizontal direction is rotatably installed between the lower baskets 11, and the lower partial nozzle 21 is sprayed with washing water upwardly. A plurality of injection holes, not shown, are formed. In the upper basket 9, an upper spray nozzle 19 which receives the washing water from the upper water supply pipe 13 and sprays it toward the upper basket 9 is rotatably installed in the horizontal direction. The plurality of injection holes formed in the upper injection nozzles 19 and the lower partial injection nozzles 21 each have a predetermined inclination angle toward one side, so that each injection nozzles 19 and 21 are supplied through the water supply pipes 13 and 15. The water is rotated in a non-powered manner by the water pressure of the washing water.

At the lower side of the washing body 3, a suction device 31 is provided which draws the air in the washing tank to the outside to match the washing tank. The suction device 31 preferably uses a vacuum pump for releasing gas into the atmosphere so that the pressure in the washing tank is below atmospheric pressure. In Fig. 2, an estimator 33 which can be configured relatively easily among these vacuum pumps is provided. Is shown.

As shown in FIG. 2, the estimator 33 has a hollow body shape, and an inlet port through which fluid is sucked and a discharge port 35 corresponding thereto are formed at both ends. An inflow port 37 extending from the suction port is provided therein, and a tubular flow port 39 extending from the central region of the inner wall surface to be adjacent to the discharge port 35 is provided. In addition, an air hole 41 is formed in the central region of the outer surface of the escalator 33 and is connected to each other through the air outlet pipe 45 so as to communicate with the inside of the washing tank 3.

When the estimator 33 of such a structure flows a fluid through the suction port and flows toward the discharge port 35, the pressure difference by the flow of a fluid will arise between these both sides a and b. Pressure difference According to the law of Hagen

Is given by Here, l is the distance between the inlet and outlet 35, Q is the flow rate, v is the average flow rate, μ is the viscosity coefficient, it is assumed that the fluid is not compressible and viscous.

And the fluid flowing in the radius r,

(Where U is the maximum flow rate, 2a = d, and d is the diameter of the tube)

It is discharged through the outlet 35 at the flow rate according to, and the air in the washing tank is drawn out through the air outlet pipe 45 in communication with the inside of the washing tank when the discharge of the fluid. As a result, the inside of the washing tank is in a negative pressure state which is reduced in pressure lower than the atmospheric pressure.

On the other hand, reference numeral 32 is a pump for supplying and flowing a fluid in the escalator.

The negative pressure washer 1 according to this configuration accommodates dishes to be washed from the outside while the door 7 is opened, closes the door 7 to seal the inside of the washing tank, and then starts operation of the device. Let's do it. Then, the controller (not shown) first operates the pump 32 to allow the fluid to flow in the aspirator, whereby the air pressure in the washing tank becomes a negative pressure lower than atmospheric pressure by the above-described action.

Then, when the water supply valve 17 is opened, the washing water is supplied toward the washing tank having a relatively low air pressure, and through the injection holes of the respective injection nozzles 19 and 21 through the upper and lower water supply pipes 13 and 15. Washing water is sprayed toward the upper side dish baskets 9 and 11. At this time, each jet nozzle (19, 21) is rotated in the horizontal direction, thereby washing the dishes accommodated in the dish basket.

When the dish washing operation by the washing water spray proceeds for a predetermined time, the inside of the washing tank is brought into the atmospheric pressure again by the air introduced into the washing water supplied from the outside. Then, after the drain valve 29 is opened to drain the washing water in the washing tank, the espressor 33 is operated to form the washing tank again under a negative pressure. Then, the water supply valve 17 is opened to rinse the washed dishes.

On the other hand, the washing stroke and the rinsing stroke of these dishes are provided with a contamination detection sensor adjacent to the drain valve 29 in the washing tank to detect the turbidity of the washing water which washes or rinses the dishes. If the pollution degree of is stored, the number of strokes can be arbitrarily adjusted by comparing the detected pollution degree with the contamination degree of the allowable value stored in the memory in the mutual comparison unit. Thus, the washing and rinsing performance of the dishes can be greatly improved.

The washing water having completed the rinsing stroke is discharged to the outside through the opening of the drain valve 29. Then, the control unit operates the escalator 33 again to bring the inside of the washing tank to a negative pressure state. So Boyle's law, which shows the correlation between the pressure and temperature of the gas,

In the washing tank, the drying operation of the tableware by the low temperature boiling phenomenon of the washing water proceeds. That is, as can be seen in Boyle Charles' law, the pressure of the gas is proportional to the temperature, so that the boiling point is lowered in the washing tank under negative pressure and depressurized, so that the rapid drying of the washing water remaining in the dish proceeds Will be. When the drying operation of the tableware is completed, the control unit stops the operation of the appliance.

On the other hand, in the above-described and illustrated embodiments, although the suction device 31 for underpressure of the inside of the washing tank is constituted by the escalator 33 and the pump 32 for flowing the fluid therein, any of a variety of known vacuum pumps is known. It is of course possible to simply draw out the air in the washing tank by using one selectively.

As described above, according to the present invention, the dish storage space in the washing tank can be expanded to accommodate a relatively large amount of dishes to be washed, and the washing performance can be greatly improved by spraying strong washing water into the underpressured washing tank. In addition, during the drying administration of the washed dishes, the power consumption can be reduced by shortening the drying time due to the low temperature boiling phenomenon, and a negative pressure washer is provided which can maximize the drying effect.

Claims (2)

In the negative pressure washer, A washing body forming a washing tank for holding the dishes to be washed; Suction means for extracting air in the washing tank to underpressure the washing tank; A negative pressure washer comprising the water supply means for supplying the washing water in the washing tank. The method of claim 1, Said suction means is an negative pressure washer.