CZ7360U1 - Submersible ejector-type water blower - Google Patents

Description

Submersible ejector water blower

Technical field

The technical solution relates to a water ejector submersible blower primarily for the active oxygenation of water and to prevent freezing of water reservoirs.

BACKGROUND OF THE INVENTION

In winter, ponds, weirs, their building parts and control mechanisms are protected from freezing, aerating the water surface by means of electric compressors. This solution requires the establishment of a power supply, the cost of installing and operating technical equipment, including energy. This device also has a relatively short lifetime, water is contaminated with oil products used to lubricate the mechanical parts of compressors. Therefore, even at the expense of reducing the efficiency of water level oxygenation, wind-powered water level clarifiers are used. When the winds are quiet, the chippings freeze and their re-start is associated with the need to remove the ice from their construction and cut the hole in the frozen surface. Therefore, volumetric water blowers based on the principle of utilization of the cynetic energy of the hydraulic structure and regulating the rippling water stream by means of a float system were used. The disadvantage of this solution is the possibility of jamming of the floats and thus interruption of the operation of the device. Another disadvantage is that optimum plant efficiency is not achieved with waterworks with a lower head.

The essence of the technical solution

These drawbacks are largely eliminated by the submersible ejector water blower provided with an air separator and an air reservoir, according to a technical solution which consists in that the ejector diffuser opens into an air separator which is provided with an air reservoir in its upper part. The air duct terminates from the lid of the air tank terminated by the aeration duct. A discharge line is also provided in the air separator, and its outlet from the air separator is located opposite the diffuser inlet. The drain pipe is then routed over the overflow edge of the water tank and provided with a siphon outlet.

The device according to the technical solution permanently ensures the level against freezing without dependence on external energy source. In addition to the permanent oxygenation of the water, the advantage is that the water blower is inexpensive and reliable since it does not contain any moving elements.

BRIEF DESCRIPTION OF THE DRAWINGS

In the attached drawing, FIG. 1 shows a diagram of the situational position of a water submersible blower, and FIG. 2 shows a front view of a water blower with partial sections of its individual parts.

Exemplary embodiment

The submersible ejector water blower according to the invention consists of an ejector 3 housed in the chamber 4 and equipped with an inlet basket i. The intake air duct 12 is connected to the inlet ejector chamber 4, which is provided with an intake filter 13. The discharge pipe 15 opens into the lowest volume part of the separator 6 and furthest from the ejector 3. The discharge pipe 15 is transferred over the overflow edge 18 and connected to

Vertical discharge pipe 16 which terminates at a depth H2. where it is equipped with a siphon outlet Γ7 to prevent back sifting of the siphon.

The function of the ejector water blower according to the invention is to utilize the potential energy of the hydraulic structure at the installation site. An advantage of the blower is that the outlet of the ejector 3 into the separator 6 is constructed vertically. After installation, by immersion in the lowest plane H3, commissioning is very easy. The siphon portion of the outlet pipe 16 is flooded and transferred over the overflow edge 18 to a vertical position so that the siphon outlet 17 is in the plane H2. The water begins to flow through the entire blower system by gravity.

The water inlet pressure to the nozzle 2 of the ejector 3 is the pressure of the water column from the HO level to the H3 plane. The jet of water from the nozzle 2 entrains air which is sucked into the inlet chamber 4 of the ejector 3 through the intake air duct 12. The mixture of water and air flows through the diffuser 5 into the volume (separator space 6). The separated Ί air from the water is led through the air duct H. to the aeration duct 14 installed in the plane H. The air overpressure is created by the ejector 3, which overcomes the pressure of the water column from the level HO to the plane H1. There are openings in the aeration line 14 towards the bottom of the waterway through which air passes through. The rising air bubbles 9 lift the warmer water and prevent freezing, while the air intensively oxygenates the water. discharge pipe J5 d The outlet of the discharge line 15 is in the lowest volume part of the separator 6 and furthest from the ejector 3. The intake air line 12 is equipped with a suction filter Γ3.

Industrial applicability

The water ejector blower according to the technical solution can be used wherever it is necessary to prevent freezing of the water surface, to enrich the water with oxygen, to increase the water quality and to secure the building parts including control mechanisms of hydraulic structures against freezing. The advantage is that the blower can also be used for depths of up to 3 meters. The advantage of the solution is that it can be used outside immersion also in dry areas of water structures, while the potential energy of the hydraulic structure is replaced by the supply of pressurized water to the ejector. The water ejector blower can also be advantageously used to collect plankton from the water surface.

Claims (1)

30 PROTECTION REQUIREMENTS A submersible ejector water blower consisting of an ejector itself, an air separator with an air reservoir and having a suction and discharge piping, characterized in that the diffuser (5) of the ejector (3) opens into a separator (6) which is provided with an air reservoir in its upper part. (7), wherein the air conduit (11) terminates from the lid of the air reservoir (7) A discharge pipe (15) and a siphon outlet pipe (16) extending from the overflow edge (18) of the water tank and provided with a siphon outlet (17) result from the separator jacket (6).