KR200362641Y1 - Automatic Fluid Zalet and Discharge Device - Google Patents

Abstract

The present invention relates to a fluid intake and discharge device used for transporting liquid materials in industrial fields as well as for cooling and heating of buildings, or for supplying water to a high temperature condensate boiler. It allows the fluid to be sucked and discharged without using the pump.

To this end, a pressure tank (1) filled with a solution (2) therein to continuously apply pressure to the solution by a gas (28), a solution supply pipe (5) connected to one side of the pressure tank, and the solution supply pipe An impeller pump (7) connected to the other end of the pump to pump the solution into the pressure tank according to the operation of the motor (6), and a check valve installed on the solution supply pipe to prevent the solution in the pressure tank from flowing back to the pump side. (8), a solution discharge pipe (9) connected to a lower portion of the pressure tank to form a closed circuit with a pump and a solution supply pipe, and a solution distribution part (10) installed on the solution discharge pipe to switch the flow of the solution (10). ) And a cylinder for discharging or suctioning a liquid to another part as the solution suction and discharge tube 16 connected to one side of the solution distributor is connected and the inside is partitioned to suck and discharge the solution inside by driving the solution distributor. With 19, The valve body 21, which is installed in the cylinder and is deformed by the pressure difference of the solution being pumped according to the driving of the pump, is connected to one side of the cylinder with a valve body 21 for sucking or discharging the liquid into the cylinder, and the liquid is inside the cylinder. A suction pipe 23 connected to the other side of the cylinder, a discharge pipe 25 connected to the other side of the cylinder to compress and discharge the liquid introduced into the cylinder, and an intermittent operation installed on the suction and discharge pipe While the liquid is sucked into the inside of the cylinder, it is composed of a check valve (27a) (27b) to be discharged.

Description

Automatic Fluid Zalet and Discharge Device

The present invention relates to an automatic suction and discharge device for a fluid used in a high temperature condensate boiler water supply device, and more specifically, to enable the suction and discharge of a fluid without using a pump using an expensive centrifugal force or a gear piston. will be.

Generally, medium or hot water or water above 100 ° C, that is, liquids in which high temperature and high pressure steam and water are evaporated immediately under atmospheric pressure, cannot be absorbed or discharged without using a high temperature high performance pump. Do.

Accordingly, in the related art, a pump using a precision-processed centrifugal force or a gear piston is used in a suction and discharge device of a fluid that sucks a fluid, compresses it to high temperature and high pressure, and then discharges the fluid.

However, the pump using centrifugal force or gear type piston in such a conventional fluid intake and discharge device is a super-precision processed product, but it usually depends on imports, but fine foreign matter enters the pump during operation, or the liquid is repeatedly changed to a high or low temperature state. As a result, the parts have fatal defects that can not withstand stress and break.

The present invention was devised to solve such a conventional problem, and by improving the structure of the pump, it is possible to inhale the fluid into the cylinder, compress it to high temperature and high pressure, and then discharge the fluid without using an expensive piston. There is a purpose.

According to an aspect of the present invention for achieving the above object, a pressure tank in which a solution is filled inside to continuously apply pressure to the solution by gas, a solution supply pipe connected to one side of the pressure tank, and the other end of the solution supply pipe. An impeller pump connected to the pump to pump the solution to the pressure tank according to the driving of the motor, a check valve installed on the solution supply pipe to prevent the solution from flowing back to the pump side, and a lower portion of the pressure tank. A solution discharge pipe connected to form a closed circuit with a pump and a solution supply pipe, a solution distribution part installed on the solution discharge pipe to switch the flow of the solution, and a solution suction and discharge pipe connected to one side of the solution distribution part is connected. At the same time, the inside is partitioned and the cylinder for discharging the liquid to the other part as the solution is sucked into the inside by the drive of the solution distributor, A valve body which is installed in the cylinder and is deformed by a pressure difference of a solution being pumped according to the driving of the pump and is connected to one side of the cylinder with a valve body for sucking or discharging liquid into the cylinder, so that the liquid flows into the cylinder A suction tube connected to the other side of the cylinder, and a discharge tube for compressing and discharging the liquid introduced into the cylinder; Provided is a fluid automatic suction and discharge device comprising a check valve for suction or discharge.

1a and 1b is a configuration diagram showing an embodiment of the present invention,

Figure 1a is a state in which the liquid is sucked into the cylinder and the solution is discharged

1B is a state in which a solution is sucked into the cylinder and the liquid is discharged

Figure 2 is an exploded perspective view showing the structure of a cylinder in one embodiment

3 is a longitudinal cross-sectional view of the assembled state of FIG.

4 is an enlarged longitudinal sectional view of portion “A” of FIG. 1A;

Explanation of symbols on main parts of drawing

1: pressure tank 5: solution supply pipe

7: pump 9: solution discharge tube

10: solution distribution part 16: solution intake and discharge pipe

18 liquid 19 cylinder

21 valve body 23 suction pipe

25: discharge pipe 27a, 27b: check valve

Hereinafter, with reference to Figures 1 to 4 showing the present invention as an embodiment in more detail as follows.

1a and 1b is a schematic view showing an embodiment of the present invention and Figure 2 is an exploded perspective view showing the structure of a cylinder as an embodiment and Figure 3 is an assembled longitudinal cross-sectional view of Figure 2, the present invention is a plurality of outer surfaces The solution (2) is filled in the pressure tank (1) in which the two cooling fins (1a) are formed. The solution (2) carries nitrogen gas (28) through the nitrogen (N ₂ ) gas injection valve (3). Constant pressure is always applied by injection, and the upper part of the pressure tank 1 is provided with a safety valve 4 for discharging the excess pressure to the outside when the pressure in the pressure tank is operated above the set pressure.

The solution supply pipe 5 is connected to one side of the pressure tank 1, and the other end of the solution supply pipe impeller pump 7 for pumping the solution 2 into the pressure tank 1 according to the driving of the motor 6. Is installed, and a check valve 8 is installed on the solution supply pipe 5 to prevent the solution 2 in the pressure tank 1 from flowing back to the pump 7 side.

And a solution discharge pipe (9) for forming a closed circuit with the pump (7) and the solution supply pipe (5) is connected to the lower portion of the pressure tank (1) and the other end of the solution discharge pipe (9) Solution distribution part 10 for switching the flow of the) is provided.

In the embodiment of the present invention, the solution dispensing unit 10 is connected to the solution discharge pipe 9 on one side, and the other end of the housing 12 is connected to the extension pipe 11 connected to the pump 7 and the A sub-motor 15 intermittently operated in accordance with the operation of the timer switch 14 is connected to the ball 13 installed in the housing for switching the flow path and the stem 17 fixed to the ball.

One end of the solution intake and discharge tube 16 is connected to one side of the solution distribution unit 10, and the other end of the solution intake and discharge tube 16 is partitioned inside by driving the solution distribution unit 10. As the liquid 2 is sucked and discharged, a cylinder 19 for discharging or suctioning the liquid 18 is connected to the inside, and a solution 2 that is pressurized by the driving of the pump 7 inside the cylinder 19. The valve body 21 which inhales or discharges the liquid 18 in the inside of the cylinder 19, and is deformed by the pressure difference of the is provided.

1 to 3 show the valve body 21 as an embodiment of the present invention, the plate-shaped heat resistant rubber sheet partitioning the inside of the cylinder 19 is applied, but the valve body 21 is applied to the cylinder 19. ) Is a bag-shaped tube that contracts or expands in accordance with the transfer of the solution 2, and an extension tube (not shown) having a plurality of through holes is provided inside the tube through the solution suction and discharge tube 16. It can also be installed and configured.

In addition, a suction pipe 23 for connecting the liquid 18 to the inside of the cylinder 19 is connected to one side of the cylinder 19, and the liquid introduced into the cylinder 19 to the other side of the cylinder ( A discharge tube 25 is connected to allow the 18 to be compressed and discharged, and the liquid 18 is sucked into the cylinder 19 while alternately operating on the suction and discharge tubes 23 and 25, or Check valves 27a and 27b for discharging are provided.

Referring to the operation of the present invention configured as described above are as follows.

First, for convenience, as shown in FIG. 1A, the submotor 15 is driven by the operation of the timer switch 14 to open the " a " When (7) is activated, the solution (2) inside the cylinder (19) is the solution suction and discharge tube (16)-"a" of the solution distribution section 10-extension tube (11)-pump (7)-solution Since it is discharged to the pressure tank 1 side via the supply pipe 5, the check valve 27a located at the inlet side of the suction pipe 23 is opened due to the pressure difference, so that the liquid 18 opens the suction pipe 23. Through the flow into the cylinder 19, the check valve (27b) located at the outlet side of the discharge tube 25 is kept in a closed state, so that the liquid 18 introduced into the cylinder (19) It is not discharged from the cylinder.

At this time, the sub-motor 15 maintains a state in which the driving is temporarily stopped while the flow path of the ball 15 passes through the solution intake and discharge tube 16 and "a".

Subsequently, when the submotor 15 is operated by the timer switch 14 to rotate the ball 15 by 180 ° in contrast to FIG. 1A, the "a" is closed and "b" is opened at the same time as described above.

In this state, when the pump 7 is operated by the driving of the motor 6, the solution 2 in the pressure tank 1 becomes the "b" of the solution discharge pipe 9-the solution distribution part 10-the solution suction, In the process of pushing the valve body 21 to the right as it flows into the cylinder 19 through the discharge tube 16, the liquid 18 inside the cylinder 19 begins to be compressed, and the cylinder is continuously compressed. After the liquid inside the cylinder 19 is compressed to a predetermined pressure or more, the check valve 27b provided on the outlet side of the discharge tube 25 is opened, so that the liquid 18 inside the cylinder 19 is discharged to the discharge tube ( 25 is discharged to the outside, at this time the check valve (27a) located at the inlet side of the suction pipe 23 is kept in a closed state so that the liquid 18 does not flow into the cylinder through the suction pipe (23). Do not.

In the above operation, the solution 2 inside the pressure tank 1 is provided with a check valve 8 on the solution supply pipe 5 even though a predetermined pressure is applied by the gas filled therein. The phenomenon of backflow to the 7) side is prevented.

As described above, the liquid (condensed water in the case of the boiler) is repeatedly sucked into the cylinder 19 through the suction pipe 23 to be compressed and discharged to a set pressure, and the impeller pump 7 As the solution 2 in the pressure tank 1 is circulated through the closed circuit by driving of the temperature, the temperature of the solution 2 is increased by the cooling fin 1a formed on the outer surface of the pressure tank 1. Because it is to diverge to prevent the phenomenon that the solution (2) is overheated.

As described above, according to the present invention, the liquid is sucked into the cylinder according to the contraction and relaxation of the valve body in the separated cylinder, and then compressed and discharged, thereby allowing the liquid to be automatically sucked and discharged without frequent breakdown of the parts. Accordingly, the reliability of the product can be greatly improved.

In addition, it is possible to save foreign currency due to the substitution effect of expensive imported goods.

Claims (3)

A pressure tank in which the solution is filled and the pressure is continuously applied to the solution by the gas, a solution supply pipe connected to one side of the pressure tank, and the other end of the solution supply pipe are connected to the pressure tank according to the driving of the motor. An impeller pump for pumping, a check valve installed on the solution supply pipe to prevent the solution in the pressure tank from flowing back to the pump side, and a solution connected to the lower part of the pressure tank to form a closed circuit with the pump and the solution supply pipe. The discharge tube, the solution dispensing unit installed on the solution discharging tube to switch the flow of the solution, and the solution suction and discharge tube connected to one side of the solution distributing unit are connected, and the inside is partitioned, and the inside of the solution distributing unit is driven inside. A cylinder for discharging the liquid in the other part as the liquid is sucked, and installed in the cylinder to be pumped according to the driving of the pump Is a valve body for sucking or discharging liquid into the cylinder while being deformed by the pressure difference of the solution, a suction pipe connected to one side of the cylinder to allow the liquid to flow into the cylinder, and connected to the other side of the cylinder. And a discharge tube for compressing and discharging the liquid introduced into the cylinder, and a check valve installed on the suction and discharge tubes, respectively, to allow the liquid to be sucked into or discharged into the cylinder while operating alternately. Fluid automatic suction and discharge device, characterized in that. The method of claim 1, The solution dispensing part is composed of a cylindrical housing, the solution discharge pipe is connected to one side, and an extension pipe connected to the pump is connected to the other end, and the valve plate is divided into upper and lower compartments and intermittent operation according to the operation of the timer switch. Automatic fluid intake, discharge device characterized in that the solenoid valve is installed. The method of claim 1, The valve body is a fluid automatic suction and discharge device, characterized in that the plate-shaped heat-resistant rubber sheet for partitioning the inside of the cylinder.