KR950001017Y1 - Air compressor using pump - Google Patents

Abstract

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Description

Air Compressor Using Pump

1 is a schematic view showing the configuration of the present invention, a state of compressing air.

2 is a schematic view showing the structure of the present proposal, the state of returning water

* Explanation of symbols for main parts of the drawings

1: water tank 2: pump

3: air compression tank 5: water inlet

6: motor 7: outlet

9, 12: on-off valve 10: return port

13: air inlet 14,16: check valve

This paper relates to an air compressor using a pump that compresses air by injecting water into a tank by using a pump, and in particular, improves water quality by forcibly supplying air to fresh water in a lake or reservoir and water in a purification plant. It is intended to be suitable for devices.

In general, in lakes, reservoirs, or water purification plants, as nutrients such as nitrogen and phosphorus are excessively introduced from various pollutants, algae and phytoplankton are excessively propagated and dissolved oxygen is depleted, ie, eutrophication is promoted. This was the result of contamination.

Therefore, the water quality improvement apparatus proposed in various forms is known to improve the water quality contaminated in this way, but in recent years, the apparatus for improving the water quality by forcibly generating bubbles by injecting compressed air into the water by using an air compressor is mostly It was used

As an example, the compressed air injection type water quality improvement device is installed. The long cylindrical bubble generator is installed vertically in water using a plurality of holes, and a high pressure hose for special diving is connected to the lower part of the device. Composed of forced compressed air from air compressor, that is, when compressed air compressed by air compressor is injected into bubble generator submerged in water through special diving high pressure hose, its bubble is generated. The air that floated from the equipment was formed into air bubbles by water pressure, and was ejected to the surface of the water in a moment, thereby circulating the water up and down.

However, in such a conventional water quality improvement device, an air compressor for forcibly supplying external air to an underwater device is absolutely necessary, but the oil generated from the air compressor is supplied to the water together with the compressed air. The problem was to cause more pollution of the water quality.

That is, the air compressor is a piston type that compresses air while the piston reciprocates in the cylinder by the rotational force of the motor and a rotary type that compresses the air while the screw is rotated. Since a large amount of oil was used essentially for operation, its oil was introduced into the water with compressed air and became a contaminant.

In particular, since such problems are frequently generated in a water source or a water purification plant used as a drinking water source, problems such as direct damage to the human body were caused.

Therefore, this paper has been made in consideration of the above circumstances, and the purpose of this is to use a pump suitable for a water quality improvement device such as a water purification plant, which can supply only compressed air in a clean state without oil to a water source or a water purification plant. In providing a compressor.

This object is achieved by pumping the water in the water tank into the air compression tank using a pump, ie its pumping also continues the operation of returning the water in the air compression tank back to the water tank after one compression stroke is made. It is characterized by repeating.

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

The drawings show in detail the configuration of the present invention, which includes a water tank (1) for storing a certain amount of water, a pump (2) for pumping water in the water tank (1), and the pump (2). The water pumped by is composed of an air compression tank (3) for supplying compressed air.

To explain this in more detail, the water tank 1 is configured to receive water from the water supply port 4 so as to always store a certain amount of water required for operation.

At this time, it would be desirable to store a much larger amount of water than the amount of water supplied to the air compression tank 3, which will be described later, the low capacity of the water tank (1).

In addition, the detailed pump (2) is connected to the water inlet (1) on one side of the water inlet (5) is installed by the rotational driving force of the motor (6) while the water in the water tank (1) inlet (5) It is configured to suck through and discharge to the discharge port (7), and the discharge port (7) is connected to the lower side of the air compression tank (3).

At this time, the one side of the discharge port 7 is provided with a first piece valve 9 for opening and closing the passage of the discharge port 7 by the solenoid (8).

In addition, the air compression tank (3) is composed of a cylindrical sealed container is installed vertically, the lower portion of the water return port 10 that can return the water in the air compression tank (3) to the water tank (1) It is connected to the water tank (1), the water return port 10 thereof is provided with a second opening and closing valve 12 which is operated by the solenoid 11 to open and close the passage of the water return port (10). .

In addition, the upper end of the air compression tank (3) is provided with an air inlet (13) through which the outside air can be introduced into the air compression tank (3), on the air inlet (13), but allows the inflow of air Is provided with a check valve 14 which does not permit the outflow.

In addition, at one side of the air inlet 13, that is, the upper center of the air compression tank 3, a compressed air outlet 15 for discharging air compressed in the air compression tank 3 to a bubble generator installed in water is provided. The check valve 16 is provided on the compressed air outlet 15 so as to allow the discharge of air, but does not permit the inflow of air into the air compression tank 3 through this.

Therefore, the operational effects of the present invention constituted as described in detail as follows.

1 is a configuration diagram showing the state in which the air compressor in the present invention is operated to compress air, that is, when the motor 6 is driven and the pump 2 is operated, the water tank 1 is driven by its pumping force. The water in the) is supplied to the lower portion of the air compression tank (3) through the inlet (5) and outlet (7).

At this time, the first opening / closing valve 9 provided on the outlet 7 maintains the open state by the solenoid 8 and the second opening / closing provided on the return port 10 of the air compression tank 3. The valve 12 will remain closed

In this state, when water in the water tank 1 continues to flow into the bottom surface of the air compression tank 3 by the pumping force of the pump 2, the air in the air compression tank 3 is discharged by its filling water. While being compressed, it is discharged to the bubble generating device installed in the water while opening the check valve 16 through the discharge port (15).

Subsequently, when the water supplied into the air compression tank 3 is filled to the appropriate level in the air compression tank 3 as shown in FIG. 2, the operation of the pump 2 is stopped by the signal of the controller (not shown). At the same time, each solenoid (8) (11) is operated to close the first opening and closing valve (9), and to open the second opening and closing valve 12, and also to open the second opening and closing valve (12) The water in the air compression tank (3) is to be returned to the water tank (1) through the return port (10).

At this time, as the water in the air compression tank (3) is returned to the water tank (1), the pressure in the air compression tank (3) is lowered and the suction force acts so that the outside air is released by the check valve (14) The opening is to be introduced into the air compression tank (3) through the air inlet (13), and at the same time the check valve 16 provided on the outlet (15) is to be blocked.

On the other hand, this proposal as described above may be able to enable the continuous operation of the pump (2) by connecting the air compression tank (3) in parallel in accordance with the installation state and the number of installation of the bubble generator, In addition, by varying the driving speed of the pulp may be able to arbitrarily adjust the discharge of compressed air.

Therefore, this proposal is designed to inject water into the air compression tank by using a pump, so that the water is compressed so that the air can be prevented from entering the water with air as in the prior art. In addition, due to such effects, water purification devices such as lakes and reservoirs, as well as water purification plants used as drinking water sources, can be suitably used for water quality improvement devices.

Claims (1)

In order to improve water quality by forcibly supplying external air to the bubble generator in the water of lakes, reservoirs, and water purification plants to generate bubbles, the air compressor for forcibly supplying external air to the bubble generator has a certain amount of water. A water tank 1 for storing water, a pump 2 provided on one side of the water tank 1 to forcibly pump water in the water tank 1 by driving a motor 6, and the water The water provided in the upper part of the tank 1 and pumped by the pump 2 is supplied to the first opening / closing valve 9 while being compressed to compress the external air supplied from the air inlet 13 to the outlet 15. An air compression tank (3) for discharging and a lower portion of the air compression tank (3) provided therein, a return port (10) for returning water to the water tank (1) while being controlled by the second opening / closing valve (12), The outside air is provided on the air inlet 13 and the compressed air outlet 15, respectively. Air compressor using a pump, characterized in that with a non-return valve 14, 16 to allow only in one direction of flow of the compressed air.