KR200318322Y1 - liquid transfer - Google Patents

Abstract

The present invention is a structure that can suck or discharge the liquid by using the intake and exhaust air pump that converts and supplies the existing air pump to the vacuum and compression in accordance with the electrical signal.

Its configuration consists of an air pump, a multi-purpose solenoid valve, and a sealed storage tank unit capable of inhaling or discharging liquid in which the power supply unit is integrated into one case. It is a system that inhales or discharges liquid through a pipe by applying vacuum or compressed air to the inside of the tank. A safety valve is installed in the tank to prevent liquid from flowing into the pump during suction.

By using this, there is an effect of inhaling or discharging the liquid by the force of the air.

Description

Liquid transfer

The present invention uses the vacuum and compression of the intake and exhaust air pumps to introduce liquid into the tank. It is a structure to discharge.

In general, a product that uses a vacuum pump to suck liquid into the tank or discharges the liquid into the tank by using a compression pump is used, but is separated from each other, and there is a problem of providing two products separately.

The present invention has been proposed to solve the above problems, by using the intake and exhaust pump designed by the user to intake or discharge liquid into one inlet pipe in the storage tank.

1 is a schematic illustration according to an embodiment of a liquid feeder

2 is a cross sectional view of an intake / exhaust air pump and a storage tank;

3 is a suction diagram and a circuit diagram of a liquid feeder.

4 is a circuit diagram and the discharge operation principle of the liquid feeder

<Explanation of symbols for main parts of drawing>

10. Intake and exhaust air pump 50. Storage tank

31. Suction switch 32. Eject switch

53. Inlet pipe 52. Air connector

60. Relief Valve 13. Air Pump

20. Multi-Purpose Solenoid Valve 55. Liquid

21. Discharge port 30. Power supply

In order to achieve the above object, the air connector 52 is installed at the upper end of the sealed tank 50 which is not leaking air, and the inlet pipe 53 is fixed to attach the liquid 55. Connect the discharge port 21 of the casing intake / exhaust air pump 10 and the air connection port 52 of the tank 50 with a hose, and then operate the intake / exhaust air pump 10 to vacuum the inside of the tank 51. The compression state can be made by push switches 31 and 32. If air is continuously sucked into the tank 51 by the intake / exhaust air pump 10, the inside of the tank 51 is in a vacuum state, and the liquid is sucked through the inlet pipe 53, and the intake / exhaust air pump 10 If the discharge is reversed, the liquid in the tank 51 is to be discharged out through the inlet pipe 53 due to the compressed air.

Hereinafter, a liquid transfer device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the figure, the liquid transporter according to the embodiment of the present invention is composed of a large intake and exhaust air pump 10 and the storage tank 50, the storage tank 50 is made of a material that can withstand a certain pressure and the liquid Depending on the capacity to be stored, it may have a change in size, the tank cover 51 is manufactured to enable separate connection without leaking air. The tank cover 51 is installed through the inlet pipe 53, the air inlet pipe 52, and the safety valve 60.

As shown in FIG. 2, the intake / exhaust air pump 10 is cased to install the discharge port 21, and the intake / exhaust switches 31 and 32 are mounted on the outside to control suction and vacuum from the outside. . As shown in FIG. 4, when the internal sectional view of the intake and exhaust pump 10 is shown, when electricity is supplied from the outside, the power supply unit 30 converts the power into DC power and passes the intake / exhaust switch to supply power to the multipurpose solenoid valve 20. Supply. When the suction switch 31 is pressed from the outside, the power lines 33 and 34 ride the switch contact 35, enter the solenoid valve 20, generate a magnetic field in the electromagnets 27, 28, and the O-ring 25 (26) is pushed and pulled the permanent magnets (23) and (24) attached, it is arranged as shown in Figure 4 through the through hole 23, to suck the air, the discharge port 21 and the air connector (52) It is connected to suck the air in the tank 50. At this time, a vacuum state is formed inside the tank 50, and the liquid 55 is sucked into the tank 50 through the hose as shown in FIG. When the discharge switch 32 is pressed as shown in FIG. 3, the power supply lines 33 and 34 ride the switch contacts 36 to supply opposite polarities to the multipurpose solenoid valve 20, thereby providing electromagnets 27 and 28. By generating a magnetic field opposite to the pushing and pulling the permanent magnets 23 and 24 are positioned as shown in Figure 3, the air is discharged through the through hole 22. This air enters the tank 50 and discharges the liquid 55 inside the tank 50 out through the inlet pipe 53.

A safety valve 60 is mounted at the upper end of the storage tank 50 to prevent the liquid 55 from being introduced into the pump through the air connector 52. The safety valve 60 is provided with a float 61 at the bottom and a compression spring 62 at the center and a valve cap 63 at the top, and the through-hole 64 is normally closed by the force of the spring 62. The stopper 63 is pressurized so that no air is introduced, and when the liquid 55 flows into the tank 50 and rises up to the upper end 61, the through hole 64 is opened to introduce air. At this time, the liquid 55 is sucked into the tank 50, the air flows into the pump through the connector 52, the suction of the liquid 55 is stopped. As described above, the liquid is prevented from flowing into the pump.

As described above, the liquid transfer device according to the present invention has an effect of safely transferring hazardous liquids, wastewater, oil, etc. by transferring liquids with the force of air. This may be useful throughout the industry, but has been described with reference to the embodiment shown in the accompanying drawings of the present invention, which is illustrative, and those skilled in the art, various modifications and equivalents therefrom It will be appreciated that embodiments are possible. Therefore, the true scope of the present invention should be defined only by the appended claims.

Claims (2)

An apparatus for inhaling and discharging liquid using a vacuum of intake / exhaust air pumps and compressed air; A storage tank configured to suck and discharge the liquid transfer into the air; An intake / exhaust air pump capable of supplying and removing air into the storage tank; An inlet pipe for discharging the liquid in the storage tank; A safety valve for preventing a liquid inside the storage tank from flowing into the pump; An air connector for connecting the storage tank and an intake / exhaust air pump to supply and remove air; The inlet / exhaust air pump is controlled from the outside and the inlet / exhaust air pump equipped with a suction / exhaust switch installed so as to cross the polarity is supplied with the inlet pipe inside the storage tank using the vacuum and compressed air. A liquid conveyer which sucks and discharges; The method of claim 1, A liquid feeder equipped with a safety valve to prevent the liquid in the storage tank from flowing into the intake / exhaust air pump;