KR890007916Y1 - Device for lifting sewage - Google Patents

Abstract

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Description

Sewage discharge device using air pressure

The accompanying drawings are the entire schematic diagram for explaining the device of the present invention.

The present invention relates to a sewage discharge device using air pressure, when the sewage tank reaches the discharge water level, the compressed air is instantaneously introduced into the sewage tank so that the sewage can be discharged rapidly in a very short time. In addition to reducing the excessive occurrence of the phenomenon to the minimized state, the generated odor is introduced into the pipeline to completely eliminate the case of contaminating indoor air.

Conventionally, sewage discharge devices installed in underground floors where natural drainage is difficult in high-rise buildings, etc., are configured to forcibly discharge sewage collected in sewage tanks by pumps using pumps, but such sewage discharge devices discharge the sewage by operating a pump. Therefore, the sewage discharge time is naturally longer than the sewage tank capacity, which increases odor occurrence during sewage discharge, and also due to the lack of a system for effectively discharging the odor generated in the sewage tank. The bad odor flows back through the sewage inflow pipe line to each floor drain or restroom in the basement of the building, so that the places are contaminated by the bad odor.

Therefore, the present invention was devised to eliminate all the defects of the related art, and when filthy water was sufficiently introduced into the OAs tank, the compressed air was instantaneously introduced to discharge the sewage in an extremely short time. The end of the sewage inlet and outflow pipe, which flows in and out of the sewage, is immersed in the undischarged sewage water level, which is always stored in the sewage tank, thereby eliminating the phenomenon that the compressed air and odor existing in the sewage tank rises through the sewage inlet pipe When the waste water discharge operation to solve the waste, such as indoor air pollution by odors to explain the device of the present invention in detail according to the accompanying drawings as follows.

On both sides of the sewage supply pipe 2 connected to the sewage inflow pipe side 1a on one side, valves 3a and 3b and check valves 4a and 4b for inflow are connected to the sewage outflow pipe side 1b on the other side. Discharge check valves 6a and 6b and valves 7a and 7b are respectively installed on both sides of the sewage discharge pipe 5 which are connected, and both ends of the sewage oil and the access pipe side 1a and 1b are arranged in parallel. Connected to the inflow and outflow pipes (8a) and (8b) by inserting them into the lower column (10'a) (10'b) lower than the low water level (L) from the top of the sewage tank (9a) (9b)) To the insertion tube (10a) (10b).

Level switch LS ₁ (LS ₂ ) into which sensing rods 11a, 12a, 11b, and 12b for detecting the low water level (L) and the high water level (H) are inserted at one side of the upper surface of the sewage tank (9a) (9b). ), And the compressed air inlet (13a) (13b) on the other side.

The compressed air inlets 13a and 13b are directly connected to both ends of the compressed air induction pipe 15 connected to the supply pipe 14 of the compressed air tank T, and the supply pipe 14 is connected to the air induction pipe 15. Three-way valves (16a) and (16b), manual valves (17a) and (17b), positive pressure valves (18a) and (18b) operated by compressed air from the compressed air inlet pipes (13a) and (13b) on both sides of the connection. (19a) Bypass pipes (21a) provided with symmetrical installations (19b) in turn, and bypass valves (20a) and (20b) installed on both sides of manual valves (17a), (19a), (17b), and (19b). 21b, and the three-way valve 16a, 16b is also connected to the bypass pipe 22 by one side flow path.

And the three-way valve (16a) (16b) is connected to the solenoid valve (SV ₁ ) (SV ₂ ) that interlocks with the level switch (LS ₁ ) (LS ₂ ), the solenoid valve (SV ₁ ) (SV ₂ ) is compressed air It is connected to the air static pressure tube 24 of the upper pressure control valve 23a of the tank T to control the opening and closing direction by using the three-way valves 16a and 16b as air pressure, and also the solenoid valve SV ₁ (SV ₂ ). In the open / close operation state, the circuit is configured such that when one starts the closing operation and the other does not operate even when the closing operation signal is received, the other starts successively when the previous one is completed.

Compressed air tank (T) is provided with the above-mentioned upper pressure control valve (23a) and lower pressure control valve (23b), which detects the air pressure of the compressed air tank (T) to start and stop the compressor (COMP) Acting as a switch.

Unexplained reference numeral 25 is a three-way valve (16a) (16b) connected to the bypass pipe 22 connected to one outflow passage to discharge air and odors to the outside, 26a and 26b, 27a and 27b and 28 are wastewater A drain pipe connected to the bottom of the tanks (9a) and (9b), an auxiliary discharge pipe connected to the manual valve and a sewage discharge pipe (5) installed therein, 29 is a check valve 30 is a pump, P ₁ and P ₂ is an upper and a lower pressure gauge, 31 and 31 'is the sight glass to check the low water level (L) and high water level (H), 32 is the safety valve.

According to the present invention, the solenoid valve (SV ₁ ) (SV ₂ ) is opened in the sewage tanks (9a) and (9b) under the low water level (L), and the compressed air in the compressed air tank (T) is opened. It flows out to the virtual pressure control valve 23a and flows into the air constant pressure tube 24, and the wet air compressed through the solenoid valve SV ₁ (SV ₂ ) is three-way valve 16a (16b). The valve itself is configured to close one side, that is, the positive pressure valve 18a (18b) side connected to the compressed air supply pipe 14, so that the compressed air does not flow into the sewage tanks 9a, 9b. On the contrary, the sewage tanks 9a and 9b are compressed air inlet pipes 13a and 13b and the bypass pipe 22 are open to each other.

The sewage flowing into the sewage supply pipe 2 in the above state is introduced into the sewage inflow pipe side 1a on one side and naturally distributed to both sides, and the sewage discharge tube is passed through the valves 3a, 4a, and 3b, 4b. Guided to the inflow and outflow pipe (8a) (8b) connected in parallel with (1b) is introduced into the sewage tank (9a) (9b) through the insertion pipe (10a) (10b), respectively, in this way sewage supply pipe (2) As it continues to flow into the sewage tank (9a) (9b) is filled with sewage, the sewage flowing into the natural distribution state from the sewage supply pipe (2) to the sewage inflow observation (1a) is not distributed in the same amount Since water flows into either side more necessarily, the level of the sewage introduced into the sewage tanks 9a and 9b is always different.

In order to help explain the sewage discharge operation state of the device of the present invention will be described by taking an example of a state in which the side of the sewage tank (9a) first reaches a high water level (H) as follows.

If the sewage flowing into one sewage tank 9a reaches the high water level H before the other sewage tank 9b while the sewage is continuously introduced into the sewage supply pipe 2, the high water level of the level switch LS _{1 on} one side The sensing rod 11b detects the sewage. Accordingly, the level switch LS ₁ operates the solenoid valve SV ₁ from the open state to the closed state so that the three-way valve 16a of the three-way valve 16a is opened. The valve body is in a state where the inflow of air pressure for closing the outflow passage on the positive pressure valve 18a side is blocked, and the valve body in this case is compressed air induction through the supply pipe 14 of the compressed air tank T. Compressed air tanks (3a) open the compressed air induction pipe (15a) by opening the compressed air induction pipe (15a) while simultaneously blocking the outflow path on the bypass pipe (22) side by the inlet and pressure of the compressed air that is present in the pipe (15). Compressed air in T) is supplied to the supply pipe (14) and the compressed air induction pipe (15). The compressed air inlet pipe 13a is instantaneously introduced into the sewage tank 9a via the valve 19a → static pressure valve 18a → manual valve 17a → three-way valve 16a. By pressing the sewage, the sewage is discharged to the end (10 'a) of the insertion pipe (10a) inserted in a state lower than the low water level (L), discharged through the outflow pipe (8a) connected to the insertion pipe (10a) The sewage to be discharged is not discharged to the sewage inflow pipe side 1a by the inflow check valve 4a, but flows out only through the discharge check valve 6a, and the other side discharge valve of the sewage discharge pipe side 1a ( 6b) is not allowed to enter.

Thus, the sewage in the one side sewage tank 9a into which the compressed air is instantaneously pressurized passes through the check valve 6a for the discharge of the insertion pipe 10a-> outflow pipe 8a-> sewage discharge pipe side 1b. Will be discharged.

On the other hand, even when the sewage in the sewage tank 9a on one side is discharged by the compressed air, when the sewage is supplied to the sewage supply pipe 2, the inlet check valve 4a on the side where the sewage is discharged is sewage on the back side. When the sewage is discharged from the sewage tank 9a on one side, the sewage flowing into the sewage supply pipe 2 flows only to the inflow check valve 4b on the other side and the other side is closed. It is introduced into the sewage tank (9b) of the, while in this way to discharge the sewage from the sewage tank (9a) of one side, the sewage tank (9b) of the other side is filled with the high water level (H) to reach this Although the solenoid valve (SV ₁ ) on the other side does not operate even though the high level detection rod 12b detects it, the low water level detection rod 11a detects this when the one sewage tank 9a completely discharges to the low water level (L). Swiss Value in (LS ₁₎ that it has configured to operate by operating the solenoid valve, the solenoid valve (SV ₂₎ in that a level switch (LS ₂₎ the other side when a condition that caused the (SV ₁₎ in the open state to the closed state The sewage tank 9b of the other side starts discharging operation only when one sewage tank 9a completes discharging operation, and on the other hand, the sewage tank of one side in which the discharging operation is completed (or collecting sewage). The (9a) side is in a state of introducing sewage.

As described above, when the sewage of the sewage tank 9a is completed, that is, when the sewage is lowered from the high water level H to the low water level L, the level switch LS ₁ is operated by the low water level detection rod 11a. When opening the SV ₁ , the valve body of the three-way valve 16a closes the positive pressure valve 18a side again, and the compressed air inlet pipe 13a and the bypass pipe 22 communicate with each other. The odor generated in 9a) is not discharged into the insertion pipe 10a having the end portion 10'a lower than the low water level L, and is led to the bypass pipe 22 through the compressed air inlet pipe 13a. There is no case where the odor is discharged to the air discharge pipe 25, and also the odor generated in the other sewage tank 9b is also discharged to the air discharge pipe 25 so that the odor is returned to the sewage supply pipe 2.

As described above, the level switches LS ₁ and LS ₂ operate the solenoid valves SV ₁ and SV ₂ alternately according to the state in which the sewage tanks 9a and 9b are filled with and filled with sewage. The compressed air storage state in the pressure air tank T for alternately discharging the sewage in the sewage tanks 9a and 9b is the upper pressure regulating valve 23 and the lower pressure regulating valve 23b. By detecting the air pressure inside and automatically operating and stopping the compressor (COMP), the compressed air tank (T) always maintains the compressed air pressure to discharge the sewage.

On the other hand, the above description is taken as an example when the positive pressure valves 18a and 18b operate normally, and in the case of any one or both of the positive pressure valves 18a and 18b, the failed positive pressure is caused. Bypass valves 20a or 20b which are closed on bypass valves 21a or 21b by closing manual valves 17a, 17b or 19a and 19b on both sides of valve 18a or 18b. Can be operated under emergency conditions while the fault is fully repaired, and the level switch (LS ₁ ) (LS ₂ ) solenoid valve (SV ₁ ) (SV ₂ ) or three-way valve (16a) (16b) has failed. If it does, the valve body of the three-way valve (16a) (16b) is manually operated to fix the compressed air inlet pipe (13a) (13b) and the bypass pipe (22) so as to communicate with each other, and then the sewage tank (9a) (9b). ) Sewage is discharged as a pump (30), at this time through the low water level (L) sight window 31 installed below the sewage tank (9b) (9b). The odor generated in the sewage tanks 9a and 9b is inserted into the insertion pipe 10a by being careful not to let the low water level L be lower than the ends 10'a and 10b of the insertion pipes 10a and 10b. If it is prevented to flow back into the sewage supply pipe (2b) by 10b, the odor is guided to the bypass pipe (22) through the compressed air inlet pipe (13a) and (13b) as in the normal state, so that the air discharge pipe (25) If the level switch (LS ₁ ) and (LS ₂ ) to detect the water level and install a separate circuit device to automatically operate the pump 30, the positive pressure valve (18a) or (18b) Even when a fault occurs, it is possible to automatically discharge the sewage as the pump (30).

As such, the present invention has a function of injecting sewage after both of the sewage tanks are empty or alternately discharging sewage, but when the sewage tank of one side discharges sewage first, the sewage tank of the other side continuously introduces sewage. In addition, it is possible to maintain the state of continuous collection of sewage, and to discharge the sewage by compressed air, so that the discharge operation of the sewage can be completed in a short time and the odor is returned to the sewage supply system. It can be completely prevented, it is a very practical design with the effect of preventing the bad case of polluting the indoor air by odor during the discharge of sewage as in the prior art.

Claims (4)

The sewage supply pipe (2) and the sewage discharge pipe (5) are connected separately, and the sewage inflow pipe (1a) and the sewage discharge pipe having the check valves (4a) (4b) (6a) and (6b) for inflow and discharge on both sides respectively. (1b) Connect the both ends in parallel, and connect the inlet and outflow pipes 8a and 8b connected with the insertion pipes 10a and 10b inserted into the sewage tanks 9a and 9b, respectively, and the compressed air inlet ( 13a) and (13b) are directly connected to the compressed air induction pipe 15 connected to the supply pipe 14 of the compressed air tank T, and the long-term pressure of the compressed air induction pipe 15 is connected to both sides thereof. The valves 18a and 18b are actuated by air pressure to install three-way valves 16a and 16b symmetrically, but the three-way valves 16a and 16b are solenoids that interlock with the level switches LS ₁ and LS ₂ . Sewage discharge device using air pressure configured to operate by valve (SV ₁ ) (SV ₂ ). The low water level (L) in which the water level is sensed by the low water level sensing rods (11a) 12a of the level switch LS ₁ (LS ₂ ). Sewage discharge device using the air pressure inserted into the sewage tank (9a) (9b) to be lower than). The manual valves (17a) (17b) and (19a) (19b) are installed on both sides of the positive pressure valves (18a) and (18b) installed in the compressed air induction pipe (15), and bypassed by this. A wastewater discharge device using air pressure formed by connecting and configuring bypass pipes (21a) (21b) provided with valves (20b). The wastewater discharge device using air pressure according to claim 1, wherein a bypass pipe (22) is connected to one outflow path of the three-way valves (16a) and (16b) on both sides to discharge odors to the outside.