KR101123555B1 - Vacuum-type dust collecting for a water ejector - Google Patents

Abstract

The present invention effectively collects dust (dust, paint, harmful gases) generated in factories, etc., and effectively collects dust, thereby maintaining a comfortable working environment of the factory and the workers working indoors, as well as air pollution by dust. This is to reduce the.

To this end, the present invention provides a circulating water tank in which a predetermined amount of water is filled and water is replenished through a replenishment water line formed at an upper end when water is insufficient; A pump which is connected to the circulating water tank and the other end is connected to the ejector so that water in the circulating water tank is injected at a high speed to the nozzle side of the ejector to form a vacuum; When the vacuum is formed when the water passes through the nozzle of the ejector, the collecting tank in which the dust and the water passed through the ejector scattered inside the factory are vacuum suctioned through the collecting tank pipe through the dust pipe connected to the ejector connecting pipe. Wow; A partition wall formed in the collection tank to form a dust storage space in which one of the dust is settled and stored in the other, and separately separating the upper water storage space from the other; Dust is deposited on the lower portion of the dust storage space, and the clean super water is characterized by being configured as an edump for transporting the dust settled in the dust storage space to the outside when passed into the circulating water tank.

 Circulating water tank, ejector, pump, assembly tank, bulkhead

Description

Vacuum-collecting device using water ejector {Vacuum-type dust collecting for a water ejector}

The present invention relates to a vacuum dust collecting device using a water ejector, and more particularly, by collecting dust (dust, paint, harmful gas) generated in a factory or the like effectively by vacuum suction treatment, the worker working in the environment and indoors of the factory The present invention relates to a vacuum dust collector using a water ejector that maintains a comfortable working environment and reduces air pollution caused by dust.

In general, a lot of dust (dust, paint, harmful gas) is issued in the factory depending on the working environment. This has a direct impact on the work environment of the factory and the workers working indoors, which not only poses a danger to health during long-term work, but also causes dust pollution.

Therefore, in recent years, a dust collector has been devised for collecting dust, such a spray system, electrostatic precipitator is widely used.

In the spray system, a large amount of water is continuously sprayed, so there is a huge cost for water, and there are also disadvantages such as the cost of reprocessing the used water and secondary environmental pollution. In addition, various problems have occurred such as enormous cost of operation and occupying a lot of places, which greatly reduced efficiency.

The present invention has been made in view of the above problems, and by effectively vacuum suctioning dust (dust, paint, harmful gas) generated in the factory, etc., the environment of the factory and the working environment of the worker working indoors The present invention provides a vacuum dust collecting device using a water ejector that maintains comfort and reduces air pollution caused by dust.

The present invention as a means for achieving the above object is a circulating water tank is filled with a certain amount of water therein and the water is replenished through the replenishment water line formed at the top when the water is insufficient;

A pump which is connected to the circulating water tank and the other end is connected to the ejector so that water in the circulating water tank is injected at a high speed to the nozzle side of the ejector to form a vacuum;

When the vacuum is formed when the water passes through the nozzle of the ejector, the collecting tank in which the dust and the water passed through the ejector scattered inside the factory are vacuum suctioned through the collecting tank pipe through the dust pipe connected to the ejector connecting pipe. Wow;

A partition wall formed in the collection tank to form a dust storage space in which one of the dust is settled and stored in the other, and separately separating the upper water storage space from the other;

The dust is deposited in the lower part of the dust storage space, and the clean super water is composed of an edump for transporting the dust deposited in the dust storage space to the outside when passed through the partition wall and introduced into the circulating water tank. It is done.

As described above, according to the present invention, a vacuum is generated in the process of circulating water in a pump, an ejector and a circulating water tank, and dust (dust, paint, noxious gas) residing inside the factory is generated by the generated vacuum. The vacuum is sucked into the assembly tank together.

The dust sucked into the collection tank and the dust in the water are settled under the dust storage space by the load, and the clean super water is temporarily stored in the super water storage space while passing over the bulkhead, and the stored super water is introduced into the circulating water tank. As used water will not be discarded and will be recycled.

In addition, dust deposited in the dust storage space can be easily discharged and transported to the eddy pump to reduce dust reprocessing cost as much as possible. There is.

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

1 is a block diagram of a vacuum dust collector using a water ejector according to the present invention.

The present invention is filled with a certain amount of water as shown in Figure 1 when the water is insufficient when the water is recirculated through the replenishment water line 110 formed on the top and the end of the circulation water tank ( 100 connected to the other end and the other end is connected to the ejector 200, the water in the circulating water tank is sprayed to the nozzle side of the ejector 200 to form a vacuum 300, and the water is ejector 200 When the vacuum is formed when passing through the nozzle of the), the water passing through the dust and the ejector 200 scattered in the factory through the dust pipe 500 connected to the connection pipe 210 of the ejector 200 is the collection tank piping A collection tank 400 which is vacuum sucked into the interior through the 440, and formed in the collection tank 400, one side forms a dust storage space 420 in which dust is settled, and the other is a supernatant water storage space ( Partition wall 410 and separately formed 430, respectively, Eddy dust is deposited in the lower dust storage space 420 and the clean supernatant is transported to the outside when the dust deposited in the dust storage space 420 passes through the partition 410 and is introduced into the circulation water tank 100. It consists of a pump 600.

When operating the present invention configured as described above, the water in the circulating water tank 100 passes through the nozzle installed in the ejector 200 at a high pressure by the pump 300, and the water is sprayed at high speed while passing through the nozzle. A vacuum is formed.

When the vacuum is formed as described above, the vacuum is also formed on the dust pipe 500 connected to the connection pipe 210 of the ejector 200. At this time, dust (dust, paint, harmful gas), etc., which resided in the factory, is dust pipe 500 Vacuum suction through), the dust is vacuum suction is collected into the collection tank 400 together with the water passed through the ejector (200).

Dust and water dust sucked into the collection tank 400 is settled under the dust storage space by the load, and the clean super water is temporarily stored in the super water storage space while passing over the partition wall, and the stored super water is stored in the circulating water tank. As it enters, it continuously supplies water that requires vacuum.

On the other hand, the dust precipitated in the dust storage space is simply discharged to the outside to the eddy pump.

1 is a block diagram of a vacuum dust collector using a water ejector according to the present invention

(Explanation of symbols for the main parts of the drawing)

100; Circulating water tank 110; Replenishment line

200; Ejector 300; Pump

400; Assembly tank 410; septum

420; Dust storage space 430; Upper water storage space

440; Assembly tank piping 500; Dust piping

600; Eddie pump

Claims (1)

A circulating water tank 100 in which a predetermined amount of water is filled and water is replenished through the replenishment water line 110 formed at an upper end thereof when water is insufficient; One end is connected to the circulating water tank 100 and the other end is connected to the ejector 200, the water in the circulating water tank is sprayed at a high speed to the nozzle side of the ejector 200 to form a pump 300 and ; When a vacuum is formed when water passes through the nozzle of the ejector 200, the dust and the ejector 200 scattered inside the factory are passed through the dust pipe 500 connected to the connection pipe 210 of the ejector 200. An assembly tank 400 in which one water is vacuum sucked into the interior through the assembly tank pipe 440; A partition wall 410 formed in the assembly tank 400 to form a dust storage space 420 in which one of the dust is settled and stored in the other, and separately separating the upper water storage space 430 from each other; Dust is deposited in the lower portion of the dust storage space 420 and the clean supernatant is transferred to the circulation water tank 100 through the partition 410 to transfer the dust deposited in the dust storage space 420 to the outside. Eddy pump 600 is a vacuum dust collector using a water ejector, characterized in that consisting of.

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