KR19980060335U - Suction tank of flush vacuum cleaner - Google Patents

Abstract

The present invention relates to a device for separating the washing water sucked with the air sucked in the car wash or vacuum washing machine.

In general, in the case of a flush vacuum pump used in a flush vacuum cleaner or a washing machine, a large amount of the washing water introduced with the air flows into the impeller of the pump, which causes excessive resistance to the rotating suction motor. There is a problem in that the suction power of the wash water is weak to not perform a smooth operation.

The present invention has been made in order to solve the above-mentioned conventional problems, a plurality of partition walls for mitigating the flow of the washing water in the suction tank in order to prevent the washing water flowing into the suction pump with high-speed suction air is introduced into the suction pump By installing the flow rate is reduced so that the wash water does not flow into the pump and when the wash water flows into the pump to automatically reduce the flow rate of the suction air is to block the inflow of the wash water sucked together.

Description

Suction tank of flush vacuum cleaner

The present invention relates to a suction tank applied to a flush vacuum cleaner, and more particularly, to a suction tank for separating the sucked wash water and air contained in the air sucked at high speed.

In the conventional conventional structure, it is a general structure to install a water collecting container receiving the washing water at the lower side of the suction port so that the washing water sucked with the air and water is accumulated at the lower side and only the separated air is discharged by the suction pump. In this case, there is a problem in that the suction water collected by shaking of the vacuum cleaner being moved is sucked into the suction pump, thereby weakening the suction power or causing a problem to the suction pump motor.

The present invention has been made to solve the above problems, to provide a suction tank having a structure for completely separating the sucked wash water contained in the air sucked at high speed.

In order to have such a structure, a plurality of diaphragms for reducing the flow rate of the sucked water are installed together with the air sucked at high speed so that only the suction air flows compared to the reduced flow rate, and a resistance to prevent the inflow of the wash water into the suction port of the suction pump. The ball is installed.

1 is a central longitudinal cross-sectional view representing the structure of the present invention,

2 is a state diagram of an example in which the present invention is applied and used,

Figure 3 is an exploded perspective view of the subject innovation wash water separator.

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

10; Suction tank 11; Inlet

12; Supply port 13; Velocity reduction plate

14; Suction reduction plate 80; motor

81; Impeller 82; outlet

83; Discharge chamber 84; Entrance

85; Entry Room 86; Wash water separator

87; Separation hole 88; Separation pipe

89; Separation ball 90; Suction Guide Hole

100; Suction pump

Referring to the accompanying drawings of the present invention as described above in more detail as follows.

1 is a cross-sectional view showing the overall configuration of the present invention, the suction pump 100 is installed on the upper side and the suction tank 10 provided with the suction port 11 and the supply port 12 on the lower side. The suction pump 100 is attached to the impeller 81 installed on the rotary shaft of the suction motor 80, the discharge port 82 for discharging the air in accordance with the rotation has a discharge chamber 83 perforated on the outer peripheral surface The inlet chamber 85 is formed at the lower side with the inlet 84 at the center, and the wash water separator 86 is subsequently installed, and the wash water separator 86 has a plurality of separation holes 87 on the outer circumferential surface as shown in FIG. The separation ball 89 is placed inside the conical separation tube 88 which is perforated), and the suction guide hole 90 is perforated below.

On the other hand, the inside of the suction tank 10 is attached to the flow rate reduction plate 13 installed alternately at regular intervals, and the suction reduction plate 14 is provided at the end of the lower suction port (11).

When described in more detail with reference to the accompanying drawings, the operation of the present invention configured as described above are as follows.

2 is a view showing a typical state in which the present invention is applied and configured, when the driving switch 203 is operated, an injection pump 201 installed at one side of the main tank 200 is operated to operate in the main pump 200. The stored washing water 110 is sucked into the cleaning brush of the cleaning nozzle 202 through the spray pipe 205 installed into the separation suction pipe 206.

The suction pump is sprayed and supplied as described above (the suction pump contaminated by washing the surface is connected to the suction port 11 of the suction tank 10 to the suction pipe 206 by the separation suction pipe 206) As the 100 is operated, the air in the suction tank 10 is sucked into a vacuum state, and the air is sucked into the suction port 11 to suck the wash water at the end of the final cleaning nozzle 202.

At this time, the air sucked into the suction tank 10 flows at a high speed, but if the flow rate of the washing water sucked together is not reduced, the washing water is sucked together with the air into the suction pump 100 so that the suction motor 80 Inhalation deceleration plate (14) installed at the end of the suction port 11, the air sucked into the suction port (11) so that only the air is discharged by separating the wash water and air by giving a strong resistance to The washing water flowing in accordance with the downward flow of the air, which is primarily directed down and continues, is further reduced by the flow rate deceleration plate 13 installed on the inner side of the suction tank 10.

On the other hand, in the suction pump 100, in order to finally separate the washing water introduced in the form of a spray from the water surface of the suction tank 10, the separation ball (89) blocking the suction guide hole 90 when there is only the air sucked ) Floats to smooth the flow of air, and when the wash water (1100 flows in), the separation ball (89) blocking the inlet rises to the upper side and is drilled and connected to the upper side of the conical separation pipe (88) ( The air flow including the washing water flows toward the outside of the separation hole 87 along the outer side of the separation ball 89 by rising toward 85 to cover a part of the separation hole 87 drilled on the side of the washing water separator 86. Passing through the inside of the separation hole 87 formed in the upper side of the separation ball 89 flows into the draw chamber (85).

The washing water contained in the air in the process of the flow as described above is separated and the washing water of the small droplet size is collected in the inlet chamber in the process of the flow of the air introduced into the inlet chamber 85 is lowered momentarily.

As described above, only the air completely separated from the washing water is introduced into the discharge chamber 83 having the impeller 81 of the suction pump 100, so that the air is smoothly discharged to the discharge port 82 so as not to lower the suction power of the air.

The sucked wash water is purified as contaminated wash water that is not suitable for recycling, and is then transferred to the main tank 200. The feed pump 207 operates to feed the hole 12 into the bottom of the suction tank 10. It is to be pumped to the main tank 200 through the purification device 204 by the pumping force of the transfer pump 207 through the).

The present invention works as described above is to separate the washing water contained in the air sucked by the suction pump at a high speed, so as to reduce the suction power of the suction pump to perform a more smooth suction action.

Claims (1)

In a normal suction tank installed in a flush vacuum cleaner, The suction pump 100 is installed on the upper side and the suction tank 10 is provided with the suction port 11 and the supply port 12 on the lower side. The suction pump 100 is installed on the rotary shaft of the suction motor 80. An impeller 81 is attached and an outlet 82 for discharging the inside of the air has a discharge chamber 83 perforated on an outer circumferential surface thereof so that an inlet 84 is formed in the center and an inlet chamber 85 is formed on the lower side thereof. Subsequently, a wash water separator 86 was installed, and the wash water separator 86 had a separation ball 89 inside the conical separator tube 88 which drilled a plurality of separation holes 87 on the outer circumferential surface thereof, and a suction guide hole under the washing water separator 86. Perforated 90, Inside the suction tank 10 is characterized in that the flow rate reduction plate 13 is installed alternately installed at regular intervals and the suction reduction plate 14 is installed at the end of the lower suction port (11). Suction tank for flush vacuum cleaner.