KR101157884B1 - Waste sludge pumping device - Google Patents

Abstract

PURPOSE: A waste sludge pumping apparatus is provided to grind and scatter precipitated sludge and to increase dissolved oxygen of wastewater and sewage by spraying pumped wastewater and sewage to the precipitated sludge. CONSTITUTION: A waste sludge pumping apparatus includes a pump(10), a discharging pipe(20), a spraying pipe(30), an air pipe(40), and a supporting casing(50). The pump pumps excrement or sewage. The spraying pipe is combined with the discharging pipe. A plurality of spraying holes(33) spraying the excrement or the sewage is formed at the bottom of the spraying pipe. Air is injected into the casing(11) of the pump through the air pipe. A plurality of sucking holes(53) is formed at the outer circumference of the supporting casing. The air pipe is curved to the bottom of the casing.

Description

Waste sludge pumping device

The present invention relates to a pumping device for suction pumping sludge together with wastewater and sewage in a wastewater or sewage storage tank, and more specifically, the wastewater and sewage pumped from the pump are sprayed at a high pressure on the sludge settled at the bottom of the storage tank. The sludge sludge deposited at the bottom of the reservoir is effectively pumped by crushing and scattering the sludge and installing a fallopian tube-shaped air inlet pipe under the inlet of the casing to inject sufficient air from the outside into the wastewater and sewage sucked into the casing. The present invention relates to a waste sludge pumping device for purifying by increasing dissolved oxygen of wastewater and sewage by increasing air intake from the outside by using a fallopian tube-shaped air inlet pipe.

In general, livestock manure and sewage from the livestock industry and various wastewater and sewage are first introduced into separate reservoirs or sewage tanks, and then composted into liquid fertilizers through microbial fermentation or discharged to rivers through biochemical purification processes. Or used for domestic water.

High concentrations of livestock manure, sewage, and various wastewater and sewage contain a large amount of solids and various foreign substances. Therefore, a large amount of sludge is settled at the bottom of a storage tank or a sewage tank. Since the utility space of the sewage tank is gradually reduced, it is important to recover and process it.

Accordingly, the present applicant can easily pump and remove the sludge deposited on the bottom of the storage tank or the sewage tank, while effectively preventing damage to the pump by crushing and cutting solids in the high speed rotating impeller and the suction port, and pumping force of the pump. As a technology to perform the purification function by increasing the dissolved oxygen of waste water and sewage as well as to increase the amount of water, a Korean patent application No. 10-2008-0106836 (aeration type waste sludge pumping device) has been filed and offered.

Looking at the above prior art, a pump is provided with a casing for discharging the pumped manure or sewage, the motor is located in the upper portion and the impeller is built in the lower portion; A discharge pipe coupled to a casing for discharging manure or sewage from the pump and having a pumping pipe equipped with a valve; An injection pipe coupled to the discharge pipe and having a plurality of injection holes for pumping manure or filthy water pumped onto a bottom surface thereof and provided with a valve; It is configured to include; an air pipe through which air is injected into the casing of the pump.

In the above prior art, the wastewater and sewage pumped from the pump are sprayed at a high pressure on the sludge settled at the bottom of the storage tank or the sewage tank, and the precipitated sludge is crushed and scattered while injecting air from the outside into the wastewater and the sewage as fine particles. Sludge precipitated at the bottom of the tank or sewage tank is easily sucked and removed, while the dissolved oxygen of the wastewater and sewage is increased, thereby performing a purification function.

However, the above-mentioned prior art is that the air suction force is not applied to the casing, or the waste water sucked into the casing, as the air pipe into which the air is introduced into the casing from the outside is installed under the inlet of the casing or the side of the casing. As air is not sufficiently injected into the sewage, there is a problem in that the dissolved oxygen of the pumped wastewater and the sewage cannot be effectively increased.

According to the present invention, air is introduced into the casing from the outside in the prior art is installed on the side of the casing or under the inlet of the casing is not enough air is injected into the waste water and sewage sucked into the casing does not effectively increase the dissolved oxygen amount As a technology designed to improve the problem, a fallopian tube-shaped air inlet pipe is installed under the inlet of the casing to increase air intake from the outside, thereby increasing the dissolved oxygen amount by infusing air into the wastewater and sewage sucked into the casing to purify the function. It is an object of the present invention to provide a waste sludge pumping device that increases dissolved oxygen by selectively adjusting the suction amount of waste water, sewage, or sludge that is sucked into the casing while effectively performing the process.

The present invention is to realize the desired object as described above,

A pump is installed at the upper part of the motor and a lower part of the casing is provided with a built-in impeller to pump the manure or the sewage; A discharge pipe coupled to the casing to discharge the manure or the sewage from the pump, and having a pumping pipe equipped with a valve; An injection pipe coupled to the discharge pipe, having a plurality of injection holes through which manure or sewage is injected, and having a valve; An air pipe through which air is injected into the casing of the pump; And a support casing coupled to the bottom of the casing in the pump and having a plurality of suction holes formed on an outer circumference thereof.

In addition, as an embodiment of the present invention, the air pipe is bent to the bottom of the casing is installed outside the reservoir, characterized in that the air inlet pipe of the fallopian tube shape is installed at one end located below the inlet of the casing.

According to an embodiment of the present invention, the waste water and the sewage pumped from the pump are sprayed at a high pressure on the sludge settled at the bottom of the reservoir to crush and scatter the precipitated sludge, while installing a fallopian tube-shaped air inlet pipe under the inlet of the casing. By sufficiently injecting air from the outside into the wastewater and sewage sucked into the casing, the sludge deposited at the bottom of the reservoir is effectively sucked and pumped and removed, while the air intake pipe is made of a fallopian tube to increase the air intake from the outside. It is to provide the effect of performing the purification function by increasing the dissolved oxygen amount of the sewage.

In particular, an embodiment of the present invention is to provide an effect of increasing the dissolved oxygen amount to the maximum by effectively increasing the air intake amount by adjusting the intake amount of the waste water or sewage or sludge sucked into the casing by applying the suction amount control plate.

1 is a perspective view showing an embodiment of the present invention.
2 is an installation state according to an embodiment of the present invention.
Figure 3 is a sectional view of the main part showing an operating state according to an embodiment of the present invention.
Figure 4 is a sectional view of the main portion showing the installation state according to an embodiment of the present invention.
5 is a cross-sectional view showing an installation state of the support casing in the embodiment of the present invention.
Figure 6 is a low cross-sectional view showing the installation of the support casing in the embodiment of the present invention;
Figure 7 is a bottom view showing the suction volume control plate in an embodiment of the present invention.
Figure 8 is a bottom view showing the operating state of the suction volume control plate in an embodiment of the present invention.

In the embodiment of the present invention, the main point is to spray the waste water and sewage pumped from the pump at a high pressure to the sludge settled at the bottom of the reservoir to crush and scatter the precipitated sludge, so that the sludge is effectively suction pumped and removed, while the trumpet-shaped air Since the intake pipe increases the air intake from the outside, the dissolved oxygen of waste water and sewage is increased to perform the purification function. Also, by selectively adjusting the intake of waste water, sewage, or sludge that is sucked into the casing, the dissolved oxygen is effectively increased. will be.

Looking at the main configuration of the waste sludge pumping apparatus according to an embodiment of the present invention with reference to the accompanying drawings, the motor 12 is located at the top, the lower casing 11 with the impeller 13 is installed, the manure A pump 10 for suction pumping sewage; A discharge pipe 20 coupled to the casing 11 for discharging manure or sewage from the pump 10 and having a pumping pipe 21 equipped with a valve 22; An injection pipe 30 coupled to the discharge pipe 20 and having a plurality of injection holes 33 formed at the bottom thereof to discharge manure or sewage, and provided with a valve 31; An air pipe 40 through which air is injected into the casing 11 of the pump 10 from the outside; And a support casing 50 coupled to the bottom of the casing 11 in the pump 10 and having a plurality of suction holes 53 formed on an outer circumference thereof.

In the main configuration of the embodiment, the pump 10 is a conventional generalized submersible pump, as shown in Figure 2, is placed on the bottom of the reservoir 100 in which the manure or sewage is stored, the motor 12 is located at the top, The casing 11 in which the impeller 13 is built in the lower part of the motor 12 is coupled and installed.

In the above motor 12 has a drive shaft is mounted to the impeller 13 provides a driving force to rotate the impeller 13 at high speed, the casing 11 is a function to discharge the manure or sewage pumped on one side of the outer periphery While the flange 15 is implemented, the impeller 13 is installed therein, and the suction port 14 is formed at the center of the bottom to suck the manure or the sewage by the high speed rotation of the impeller 13.

Here, the impeller 13 has a cutting blade protrudingly formed in the shape of "S" at the center of the bottom portion, and a plurality of cutting protrusions are formed on the inner circumference of the suction port 14 so as to approach the cutting blade. By crushing and cutting to prevent damage to the pump effectively.

In addition, in the main configuration of the embodiment, the discharge pipe 20 is installed in a horizontal state coupled to the flange 15 to discharge the manure or sewage from the casing 11, the discharge pipe 20 is a storage tank for pumped manure or sewage A pumping pipe 21 having a function of transferring to the desired place at 100 is implemented.

The pumping pipe 21 transfers the manure or sewage pumped from the casing 11 to the discharge pipe 20 to the outside of the storage tank 100, and opens and closes the pumping pipe 21 from the outside of the storage tank 100. Valve 22 is mounted.

In addition, the injection pipe 30 in the main configuration of the embodiment as shown in Figures 1 to 3, as a function of pulverized by spraying the pumped manure or sewage to the sludge precipitated at the bottom of the storage tank 100 at high pressure, The injection pipe 30 is installed to be coupled to the end of the discharge pipe 20, a plurality of injection holes 33 are formed in the bottom portion at regular intervals to inject the pumped manure or sewage at high pressure to the precipitated sludge. .

In the above, the injection pipe 30 may be variously applied to have a “?” Shape or a “∪” shape and a circular structure according to the bottom surface structure of the storage tank 100, and in this case, it is deposited in a wider area. Sludge can be ground by spraying manure or sewage at high pressure.

Meanwhile, a valve 31 having a function of opening and closing the manure or filthy water pumped by the injection pipe 30 is installed between the discharge tube 20 and the injection pipe 30 through which the manure or filthy water is pumped, and the valve 31 The valve rod 32 is installed from the body of the valve 31 to the outside of the reservoir 100 to perform the opening and closing operation from the outside of the reservoir 100.

In addition, in the main configuration of the embodiment, the air pipe 40 is a function of injecting air into the casing 11 of the pump 10 from the outside of the reservoir 100, the air pipe 40 is shown in Figs. As shown in FIG. 5, one end is bent to the bottom of the casing 11 through the outer surface of the casing 11 from the outside of the storage tank 100.

The air pipe 40 exposed to the outside of the storage tank 100 is equipped with a valve 41 of the opening and closing function to selectively adjust the air injection amount, and also the air pipe located under the inlet 14 of the casing 11. One end of the 40 is provided with a trumpet-shaped air inlet pipe 42, where the air inlet pipe 42 is an air pipe 40 in the form of a wide upper and narrow upper light lower strait (上 廣 下 狹) It is installed at the end of the.

Air pipe 40 is the inside of the casing (11) by the strong suction force acting when the impeller 13 rotates at a high speed, the air is sucked from the outside of the reservoir 100, the casing (11) through the inlet (14) Is injected into.

In addition, as the fallopian tube-shaped air inlet pipe 42 is installed at the end of the air pipe 40 under the inlet 14 of the casing 11, as shown in Figure 5, at the end of the air inlet pipe 42 Due to the suction force of the impeller 13, the flow rates of wastewater and sewage are sharply increased, so the air suction pressure is increased to increase the air suction amount from the outside.
Specifically, the general pressure unit is "kgf / cm²", that is, the pressure represents the force applied per unit area, and in the present invention, the horizontal cross-sectional area inside the upper casing 51 forms a constant area, and When the fallopian tube-shaped air inlet pipe 42 is introduced into the casing 51, the horizontal inlet area of the upper casing 51 is reduced by the horizontal cross-sectional area of the fallopian tube-shaped air inlet pipe 42. Since the internal pressure of the upper casing 51 corresponding to the portion where the end portion of 42) rises occurs, as a result, the flow rates of wastewater and sewage are rapidly increased as the pressure increases.
In addition, since the pressure rises at the end of the air inlet pipe 42, which is implemented in the shape of a fallopian tube, and the flow rate of wastewater and sewage is sharply increased, the air intake pipe 42 increases as the air suction pressure increases in the air inlet pipe 42. ), The air intake amount from the outside is increased.
Therefore, the impeller 13 rotates at a high speed inside the casing 11 to the casing 11 through the air pipe 40 and the air inlet pipe 42 from the outside of the storage tank 100 by a strong suction force. Air is injected, and the air injected into the casing 11 is separated into fine particles by the impeller 13 rotating at a high speed, and the amount of dissolved oxygen is injected into the waste water or the sewage through the discharge pipe 20 and the injection pipe 30. Increase the cleansing function.

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In addition, in the main configuration of the embodiment, the support casing 50 supports the casing 11 of the pump 10 from the bottom surface of the storage tank 100 while the suction amount of waste water or sewage or sludge contained in the storage tank 100 is maintained. As a function to adjust, the support casing 50 is installed in the upper casing 51 and the lower casing 52 in a cylindrical shape, as shown in Figures 3 to 6 in the figure, the outer periphery of the lower casing 52 A plurality of suction holes 53 through which waste water, sewage, or sludge is sucked are formed, while a plurality of suction holes 54 through which waste water, sewage, or sludge flows are formed in the lower casing 52.

The upper casing 51 is coupled to the bottom of the casing 11, the lower casing 52 is placed on the bottom surface of the reservoir 100, the upper casing 51 and the lower casing 52 are mutually A partition is provided in the upper side of the lower casing 52 at the portion to be coupled, and a plurality of suction holes 54 are formed in the partition.

Embodiment of the present invention is a means for adjusting the suction amount of waste water or sewage or sludge, the suction amount adjusting plate 60 is installed on the upper portion of the partition provided in the upper side of the lower casing 52, the suction amount adjusting plate 60 is In the figure, as shown in Figure 7, a plurality of suction holes 61 are formed in the inner side in the form of a disc, a protrusion 62 is formed on one side of the edge.

The guide groove 55 is formed at one edge of the partition to correspond to the protrusion 62 formed on the suction amount adjusting plate 60, and the lower inner peripheral surface of the upper casing 51 is rotatably fixed to fix the suction amount adjusting plate 60. The support jaw 51a is formed.

Therefore, the suction amount adjusting plate 60 is to adjust the suction amount of the waste water, sewage or sludge by limiting the opening and closing range of the suction hole 54 formed in the partition of the lower casing 52, as shown in Figure 8, the suction amount adjusting plate ( As the suction amount adjusting plate 60 is rotated in one direction by using the protrusion 62 formed at 60, the suction amount is controlled by limiting the opening and closing range of the suction hole 54 formed in the partition of the lower casing 52. .

In addition, when adjusting the suction amount of wastewater, sewage or sludge flowing into the casing 11 through the suction hole 54 of the lower casing 52, the air suction pressure due to the strong suction force of the impeller 13 is relatively increased. This increases the air intake from the outside.

Embodiment of the present invention made of such a configuration to pump the waste water or sewage in the storage tank 100 to transfer to the desired place, and injecting air from the outside while grinding the sludge settled in the bottom of the storage tank 100 As to perform the function of, the first step to look at the operation of the pumping waste water or sewage to the desired place as follows.

First, when the pump 10 is driven by closing the valve 31 positioned between the discharge pipe 20 and the injection pipe 30 and closing the valve 41 mounted on the air pipe 40, the impeller 13 Waste water or sewage discharged from the casing 11 by a high speed rotation is pumped to a desired place from the outside of the storage tank 100 through the discharge pipe 20 and the pumping pipe 21.

Next, the operation process of crushing and scattering sludge deposited on the bottom of the storage tank 100 while injecting air from the outside of the storage tank 100 will first close the valve 22 mounted on the pumping pipe 21 and discharge the gas. When the pump 10 is driven by opening the valve 31 mounted between the pipe 20 and the injection pipe 30 and the valve 41 mounted on the air pipe 40, the casing is rotated at a high speed by the impeller 13. Air is injected into the casing 11 through the air pipe 40 and the air inlet pipe 42 as a strong suction force is applied to the (11) while waste water or sewage is sucked into the casing 11, and then the discharge pipe ( 20) and the high pressure to the sludge precipitated at the bottom of the storage tank 100 through the injection pipe 30 to crush the sludge and simultaneously spray the air into the fine particles to increase the dissolved oxygen of the waste water or sewage.

This embodiment of the present invention sprays waste water or sewage at high pressure to the sludge settled at the bottom of the reservoir to crush and scatter the sludge, so that the sludge is effectively suctioned and pumped and removed, while a fallopian tube-shaped air inlet pipe is disposed under the inlet of the casing. By installing the air intake from the outside to increase the dissolved oxygen of the waste water or sewage to effectively perform the purification function.

In addition, the embodiment of the present invention by effectively adjusting the suction amount of the wastewater or sewage or sludge sucked into the casing by applying the suction amount control plate to effectively increase the air suction amount from the outside to increase the dissolved oxygen of the wastewater or sewage to the maximum.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: Pump 11: Casing
12: motor 13: impeller
14: suction port 20: discharge tube
21: pumping pipe 22: valve
30: injection pipe 31: valve
32: valve rod 33: injection hole
40: air pipe 41: valve
42: air inlet pipe 50: support casing
51: upper casing 52: lower casing
53: suction hole 54: suction hole
55: guide groove 60: suction volume control plate
61: suction hole 62: protrusion
100: reservoir

Claims (4)

delete A motor 10 located at an upper portion thereof, and a casing 11 having an impeller 13 installed therein at a lower portion thereof, the pump 10 for suction pumping manure or sewage; A discharge pipe 20 coupled to the casing 11 for discharging manure or sewage from the pump 10 and having a pumping pipe 21 equipped with a valve 22; An injection pipe 30 coupled to the discharge pipe 20 and having a plurality of injection holes 33 formed at the bottom thereof to discharge manure or sewage, and provided with a valve 31; An air pipe 40 through which air is injected into the casing 11 of the pump 10 from the outside; And a support casing 50 coupled to the bottom surface of the casing 11 in the pump 10 and having a plurality of suction holes 53 formed on an outer circumference thereof.
The air pipe 40,
The waste, characterized in that bent to the bottom of the casing 11 from the outside of the reservoir 100, the air inlet pipe 42 of the fallopian tube shape is installed at one end located below the inlet 14 of the casing 11 Sludge pumping device. delete delete

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