KR20100103200A - Underwater pump for floodgate - Google Patents

Abstract

PURPOSE: An underground pump for a floodgate with a swirl prevention unit is provided to prevent noise, vibration, abrasion, and damage to the underground pump by preventing a swirl. CONSTITUTION: An underground pump for a floodgate with a swirl prevention unit comprises a pump body(221), a cover(223), a swirl prevention member(250). The pump body is installed in a door main body(210) of a floodgate(200) and drains flowing water. The cover is installed in a suction port(222) of the pump body so that an inlet port(224) is toward the ground. The swirl prevention member prevents water flowing through the inlet port from being swirled.

Description

Submersible submersible pump with vortex prevention means {UNDERWATER PUMP FOR FLOODGATE}

The present invention relates to a hydrologic submersible pump equipped with a vortex preventing means, and more particularly, a vortex preventing means capable of preventing eddy currents generated in the water flow flowing into the suction port of the submersible pump to prevent a decrease in efficiency of the submersible pump. It relates to a submersible water pump provided.

In general, a water gate is provided in a waterway of a river or the like for the purpose of water, and the water gate has a drainage port, and a gate is provided at the drainage hole.

The submersible pump is directly installed in the gate, and the submersible pump is for forcibly draining the water flow in the water channel in the state where the gate is closed. This submersible pump has several types.

These submersible pumps are mainly different according to the direction in which the pump rotation shaft is installed, and are divided into horizontal axis type and vertical axis type.

In addition, in order to improve the suction performance of the submersible pump, the suction port should be installed as close as possible to the lower bed (or the bottom of the channel), and the submersible pump has a low water level due to the situation on the side of the channel. If the submersible pump does not have the required depth of immersion, vortices (air intake vortex, submerged vortex, swirl flow, etc.) occur, and the vortices cause poor water intake.

That is, the vortex causes a decrease in the amount of pumping, cavitation, lowering of the head, and the like. Cause problems.

Therefore, the optimum water level installation condition for the pump diameter is determined so that no vortex occurs in the inlet motor inlet. If the gap between the bottom of the waterway and the depth submerged in the water is an appropriate value, it can be operated to the low water level without digging the bottom. In the case of the horizontal pump, the air suction vortex easily occurs on the surface of the water above the submersible pump, and in order to avoid this, the recommended value of the height of the submersible pump and the required submerged depth is determined.

In addition, a technique for lowering the required water level to enable low water level operation is known.

For example, Japanese Patent Application Laid-Open No. 2002-021050 and Japanese Patent Application Laid-Open No. 2003-055946 are horizontal shaft type installations of submersible pumps (gate pumps). . This is known to incline the pump rotation axis (wing axle) of the gate pump so that the suction port is close to the bottom of the channel. In particular, Japanese Patent Application Laid-Open No. 2002-021050 has a countermeasure that prevents the occurrence of air intake vortex by providing a cover protruding in the inflow direction of the water-side edge of the gate pump inlet.

It has also been described that the suction inlet flow-through cross-sectional area of the guide casing is made larger than the guide casing hole cross-sectional area so that the concave vortex is less likely to grow into the air intake vortex.

Further, as shown in Japanese Patent Laid-Open No. 2005-002876, the pump suction port is composed of a tapered ordinary member whose diameter increases toward the tip side opening portion, and the tip side opening portion is formed from the lower end portion. It is known to be inclined so as to protrude toward the tip side, and to have a baffle lower vertical baffle and an upper vertical baffle at the tip side opening portion.

Further, as shown in Japanese Patent Laid-Open No. 2004-360503, the inlet opening area of the cover provided at the inlet port is made larger than the inlet opening area of the pump, and the lower wall or side wall of the inlet cover. It is known that the openings are formed in (i) to prevent the generation of vortices.

In addition, as shown in Korean Patent Application Laid-Open No. 2007-12208, it is also known to provide a configuration for preventing the generation of water vortex by providing a vortex generation preventing member in the suction port of the pump.

However, in the water pump, the object of the water flow is not necessarily the rectification of a constant direction and the water flow close to the surface.

The flowing water flowing through the outside of the submersible pump hits the side wall or the door body of the water channel and reverses the so-called inversion in which the direction is changed. The reversed flow of water flows into the pump inlet by combining with the rectification near the inlet of the submersible pump, and generates vortices according to the flow conditions.

That is, the vortex is reversed from the channel wall or the main body against the flow of rectification flowing from the front side of the submersible pump in the channel, and the flow of water flowing from the rear side of the submersible pump collides at the boundary part. Occurs as

Therefore, the flowing water flowing outside the suction port is inverted by the channel wall or the door body to reach the vicinity of the suction port in the form of a reverse flow, and joins the rectification and is sucked into the suction port. At this time, the backflow along the submersible pump flows in a different direction of about 180 degrees with respect to the rectification and collides with the rectification at the boundary portion. At this time, the mutual flow is suppressed by a sudden change in the flow direction, the U-turn is to change the direction of the flow, if the force of the flow is large is the vortex due to the local negative pressure (負壓) between each other.

This vortex tends to occur when bad conditions overlap, such as when the water flow is fast or when the water pressure is high.

When the vortex is sucked into the pump, the performance of the submersible pump is reduced and mechanical defects such as noise, vibration, bearing wear, damage, and erosion of the pump blades are caused.

However, Japanese Patent Application Laid-Open No. 2002-021050 and Japanese Patent Application Laid-Open No. 2003-055946 are technologies that close the inlet of the submersible pump to the bottom of the channel, so that no vortices can be prevented. Vortex occurs. Even if the pump is inclined in this way, the installation configuration is limited, and it is difficult to say that the vortex cannot be eliminated and it is difficult to say that it is complete.

In addition, the technique disclosed in Japanese Patent Laid-Open No. 2005-002876 discloses that if the lower vertical baffle contains obstacles such as earth and sand deposits on the lower floor, the lower vertical baffle interferes with the operation of the door body and causes vortex flow. Problems other than the occurrence of abnormal eddy currents, which are unsafe to prevent, also occur.

In addition, Japanese Laid-Open Patent Publication No. 2004-360503 has a hole formed in the lower wall or sidewall of the inlet cover to suck the flow water corresponding to the backflow from the opening and join the rectification. It is difficult to say that it is a fundamental solution to alleviate backflow intake at the inlet because it inhales limited flow water in a very limited space. That is, the problem caused by backflow at the suction port is not solved. When joining in the inlet, it is not limited to flexibly joining the commutation without generating vortex.

In addition, the technique disclosed in Korean Patent Laid-Open Publication No. 2007-12208 can prevent the vortices generated at the bottom of one side of the suction port by the vortex generation preventing member installed at the suction port of the pump, but since the vortex generation preventing member is formed in a plate shape, There was a problem that vortices were generated on both sides of the vortex generation preventing member.

The present invention is to solve the above problems, its purpose is to prevent the generation of vortex during operation by the vortex generation preventing member installed in the lower part of the inlet hole of the submersible pump, so the performance of the submersible pump, noise, vibration, wear of the bearing The present invention provides a submersible water pump for eddy current prevention, which can prevent damage, erosion of the wing, and the like.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

Hydrostatic submersible pump equipped with a vortex preventing means according to the present invention is installed on the hydrologic door body of the waterway to suck the flow water from one direction of the waterway to rotate the rotation axis about the horizontal line to drain the water in the other direction of the waterway A pump body installed at an inclined angle, a cover installed at a suction port of the pump body so that the inflow hole for inflowing the water flows toward the ground, and the pump body to prevent vortex generation of the flowing water sucked into the lower portion of the inflow hole The vortex generation preventing member is formed in the lower portion of the inlet hole formed in the shape of the arc toward the lower portion so that the flow direction of the flowing water coming back from the rear side of the.

In addition, the inlet hole area of the cover according to the present invention is configured to be larger than the area of the suction port.

In addition, the front end portion of the vortex generation preventing member according to the present invention is formed to be bent upward.

In addition, the occurrence preventing member according to the present invention is formed a myriad of holes.

In addition, the bottom surface of the vortex generation preventing member according to the present invention is formed to protrude at least two or more guide pieces in the direction in which the water flow moves.

The present invention is prevented by the vortex generation prevention member installed in the lower portion of the inlet hole of the submersible pump, so that the vortex can be prevented from occurring, it is possible to prevent the performance of the submersible pump, noise, vibration, abrasion, damage, wing erosion, etc. Has a unique effect.

When described with reference to the accompanying drawings showing the present invention.

Example 1

Figure 1 is a cross-sectional view showing a state in which a submersible water pump with a vortex prevention means according to the present invention is installed in a waterway, Figure 2 is a perspective view showing a vortex generation preventing member according to the present invention.

As referred to here, the waterway 100 is installed in the waterway 200, and the door body 210 is installed in the waterway to block and open the waterway 100 while moving up and down.

In addition, the door body 210 is provided with an underwater pump 220 for sucking the flow of water from one direction of the waterway 100 and draining the water in the other direction of the waterway 100. The pump body 221 is installed in the pump 220 such that the rotation shaft is inclined at a predetermined angle with respect to the horizontal line.

On the other hand, the inlet 222 of the pump body 221 is provided with a cover 223, the inlet hole 224 formed at the end of the cover 223 is installed to face the ground, the inlet hole ( The area of 224 is configured to be larger than the area of suction port 222.

In addition, a vortex generation preventing member 250 is installed at a lower side of the inlet hole 224 so as to change the flow direction of the effluent in order to prevent the generation of vortices due to flowing water coming back from the rear side of the pump body 221. It is.

The vortex generation preventing member 250 is formed in a plate shape and is installed in the horizontal direction at the lower portion of the inlet hole 224 so as to be able to change the flow direction of the flowing water returning from the rear side of the pump body 221.

In addition, it is also possible to form a vortex crushing groove 251 in the rear center of the vortex generation preventing member 250 to crush the vortex.

Therefore, the flow direction of the flowing water returning from the rear side during the operation of the submersible pump 220 is formed in a plate shape, the flow direction is converted by the vortex generation preventing member 250 installed in the horizontal direction, the vortex crushing groove 251 Since the vortex flows into the inlet hole 224 in a state in which the vortex is broken, the generation of the vortex in the lower side of the inlet hole 224 is prevented, thereby improving the efficiency of the underwater pump 220.

[Example 2]

Figure 3 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

As referred to here, the waterway 100 is installed in the waterway 200, and the door body 210 is installed in the waterway to block and open the waterway 100 while moving up and down.

In addition, the door body 210 is provided with an underwater pump 220 for sucking the flow of water from one direction of the waterway 100 and draining the water in the other direction of the waterway 100. The pump body 221 is installed in the pump 220 such that the rotation shaft is inclined at a predetermined angle with respect to the horizontal line.

On the other hand, the inlet 222 of the pump body 221 is provided with a cover 223, the inlet hole 224 formed at the end of the cover 223 is installed to face the ground, the inlet hole ( The area of 224 is configured to be larger than the area of suction port 222.

In addition, a vortex generation preventing member 250 is installed at a lower side of the inlet hole 224 so as to change the flow direction of the effluent in order to prevent the generation of vortices due to flowing water coming back from the rear side of the pump body 221. It is.

The vortex generation preventing member 250 is formed in a plate shape and is installed in the horizontal direction at the lower portion of the inlet hole 224 so as to be able to change the flow direction of the flowing water returning from the rear side of the pump body 221.

In addition, at least two or more through holes 252 are formed in the vortex generation preventing member 250.

Therefore, the flow direction of the flowing water coming back from the rear side during the operation of the submersible pump 220 is formed in a plate shape, the flow direction is converted by the vortex generation preventing member 250 installed in the horizontal direction, the through hole 252 Since the vortex flows into the inlet hole 224 while being broken, the generation of the vortex in the lower side of the inlet hole 224 is prevented, thereby improving the efficiency of the underwater pump 220.

Example 3

Figure 4 is a cross-sectional view showing a state in which the vortex generation preventing member of another embodiment according to the present invention is installed in the submersible pump, Figure 5 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

As referred to here, the waterway 100 is installed in the waterway 200, and the door body 210 is installed in the waterway to block and open the waterway 100 while moving up and down.

In addition, the door body 210 is provided with an underwater pump 220 for sucking the flow of water from one direction of the waterway 100 and draining the water in the other direction of the waterway 100. The pump body 221 is installed in the pump 220 such that the rotation shaft is inclined at a predetermined angle with respect to the horizontal line.

On the other hand, the inlet 222 of the pump body 221 is provided with a cover 223, the inlet hole 224 formed at the end of the cover 223 is installed to face the ground, the inlet hole ( The area of 224 is configured to be larger than the area of suction port 222.

In addition, a vortex generation preventing member 250 is installed at a lower side of the inlet hole 224 so as to change the flow direction of the effluent in order to prevent the generation of vortices due to flowing water coming back from the rear side of the pump body 221. It is.

The vortex generation preventing member 250 is formed in a plate shape and is installed in the vertical direction at the lower portion of the inlet hole 224 so as to be able to change the flow direction of the flowing water returning from the rear side of the pump body 221.

In addition, at least two or more vortex crushing holes 254 are formed under the vortex generation preventing member 250 so as to crush the vortex.

Accordingly, the flow direction of the flowing water returning from the rear side during the operation of the submersible pump 220 is formed in a plate shape, the flow direction is converted by the vortex generation preventing member 250 installed in the vertical direction, the vortex crushing hole 254 Since the vortex flows into the inlet hole 224 while being broken, the generation of the vortex is prevented in the lower side of the inlet hole 224, thereby improving the efficiency of the underwater pump 220.

Example 4

Figure 6 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

As referred to here, the waterway 100 is installed in the waterway 200, and the door body 210 is installed in the waterway to block and open the waterway 100 while moving up and down.

In addition, the door body 210 is provided with an underwater pump 220 for sucking the flow of water from one direction of the waterway 100 and draining the water in the other direction of the waterway 100. The pump body 221 is installed in the pump 220 such that the rotation shaft is inclined at a predetermined angle with respect to the horizontal line.

On the other hand, the inlet 222 of the pump body 221 is provided with a cover 223, the inlet hole 224 formed at the end of the cover 223 is installed to face the ground, the inlet hole ( The area of 224 is configured to be larger than the area of suction port 222.

In addition, a vortex generation preventing member 250 is installed at a lower side of the inlet hole 224 so as to change the flow direction of the effluent in order to prevent the generation of vortices due to flowing water coming back from the rear side of the pump body 221. It is.

The vortex generation preventing member 250 is formed in a plate shape and is installed in the vertical direction at the lower portion of the inlet hole 224 so as to be able to change the flow direction of the flowing water returning from the rear side of the pump body 221.

In addition, at least two or more vortex crushing bars 254 are formed under the vortex generation preventing member 250 to crush the vortex.

Therefore, the flow direction of the flowing water coming back from the rear side during the operation of the submersible pump 220 is formed in a plate shape, the flow direction is converted by the vortex generation preventing member 250 installed in the vertical direction, the vortex crushing bar 254 Since the vortex flows into the inlet hole 224 while being broken, the generation of the vortex is prevented at the lower side of the inlet hole 224 to improve the efficiency of the underwater pump 220.

Example 5

Figure 7 is a cross-sectional view showing a state in which the vortex generation preventing member of another embodiment according to the present invention is installed in the submersible pump, Figure 8 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

As referred to here, the waterway 100 is installed in the waterway 200, and the door body 210 is installed in the waterway to block and open the waterway 100 while moving up and down.

In addition, the door body 210 is provided with an underwater pump 220 for sucking the flow of water from one direction of the waterway 100 and draining the water in the other direction of the waterway 100. The pump body 221 is installed in the pump 220 such that the rotation shaft is inclined at a predetermined angle with respect to the horizontal line.

On the other hand, the inlet 222 of the pump body 221 is provided with a cover 223, the inlet hole 224 formed at the end of the cover 223 is installed to face the ground, the inlet hole ( The area of 224 is configured to be larger than the area of suction port 222.

And, in order to prevent the generation of vortices due to flowing water entering the inlet 222 of the pump body 221, the vortex generation preventing member 250 is provided at the front end of the inlet hole 224 to change the flow direction of the flowing water. It is installed.

The vortex generation preventing member 250 is formed in a disk shape, and is formed of a mesh so as to be able to change the flow direction of the flowing water flowing into the inlet hole 224, and is installed at the tip of the inlet hole 224.

Therefore, the vortex of the flowing water entering the inlet hole 224 during the operation of the submersible pump 220 flows into the inlet hole 224 in a crushed state by the vortex generation preventing member 250 formed of a mesh, so that the underwater pump 220 ) Will improve the efficiency.

According to the present invention as described above, it is possible to set the minimum water level of the submersible pump to be low, as well as to prevent the generation of eddy currents, thereby improving the reliability of the submersible pump operation.

Figure 1 is a cross-sectional view showing a state in which the submersible water pump for sluice provided with a vortex prevention means according to the invention installed in the water channel.

Figure 2 is a perspective view of the vortex generation preventing member according to the present invention.

Figure 3 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

Figure 4 is a sectional view showing a state in which the vortex generation preventing member of another embodiment according to the present invention is installed in the water pump.

Figure 5 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

Figure 6 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

Figure 7 is a sectional view showing a state in which the vortex generation preventing member of another embodiment according to the present invention is installed in the water pump.

Figure 8 is a perspective view showing a vortex generation preventing member of another embodiment according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: waterway 200: water gate

210: door body 221: pump body

222: inlet 223: cover

224 inflow hole 224 inflow hole

250: vortex generation preventing member 251: vortex crushing groove

251: through-hole 252: guided flight

253: vortex breaker 254: vortex breaker bar

Claims (9)

It is installed in the water main body 200 of the waterway 200 of the waterway 100 and rotates about a horizontal line to suck water from one direction of the waterway 100 to drain the water in the other direction of the waterway 100. The pump body 221 installed at an inclined angle, the cover 223 provided at the suction port 222 of the pump body 221 so that the inflow hole 224 for sucking the running water faces the ground, and the inflow hole In the submersible water pump for sluice provided with vortex prevention means is installed, the vortex generation preventing member 250 for preventing the vortex generation of the flowing water sucked into (224), The vortex generation preventing member 250 is formed in a plate shape, characterized in that installed in the horizontal direction in the lower portion of the inlet hole 224 to be able to change the flow direction of the flowing water coming back from the rear side of the pump body 221 Water pump for sluice with eddy current prevention means. The submersible water pump for sluice of claim 1, wherein the area of the inlet hole 224 of the cover 223 is larger than that of the suction port 222. The submersible water pump for sluice of claim 1, wherein a vortex crushing groove (251) is formed at a rear end of the vortex generation preventing member (250). The water pump according to any one of claims 1 to 3, wherein the vortex generation preventing member (250) is provided with at least two or more plural through holes (251). The vortex prevention according to any one of claims 1 to 3, wherein at least two or more guide pieces 252 are formed to protrude from the bottom of the vortex generation preventing member 250 in a direction in which water flow moves. Submersible submersible pump with means. It is installed in the water main body 200 of the waterway 200 of the waterway 100 and rotates about a horizontal line to suck water from one direction of the waterway 100 to drain the water in the other direction of the waterway 100. The pump body 221 installed at an inclined angle, the cover 223 provided at the suction port 222 of the pump body 221 so that the inflow hole 224 for sucking the running water faces the ground, and the inflow hole In the submersible water pump for sluice provided with vortex prevention means is installed, the vortex generation preventing member 250 for preventing the vortex generation of the flowing water sucked into (224), The vortex generation preventing member 250 is formed in a plate shape, it is installed in the vertical direction in the lower portion of the inlet hole 224 to be able to change the flow direction of the flowing water coming back from the rear side of the pump body 221 Water pump for sluice with eddy current prevention means. The water pump according to claim 6, wherein the vortex generation preventing member (250) is provided with vortex rupture holes (253). The submersible water pump according to claim 7, wherein at least two or more vortex crushing bars (254) are formed on a bottom of the vortex generation preventing member (250). It is installed in the water main body 200 of the waterway 200 of the waterway 100 and rotates about a horizontal line to suck water from one direction of the waterway 100 to drain the water in the other direction of the waterway 100. The pump body 221 installed at an inclined angle, the cover 223 provided at the suction port 222 of the pump body 221 so that the inflow hole 224 for sucking the running water faces the ground, and the inflow hole In the submersible water pump for sluice provided with vortex prevention means is installed, the vortex generation preventing member 250 for preventing the vortex generation of the flowing water sucked into (224), The vortex generation preventing member 250 is a water gate provided with a vortex preventing means, characterized in that formed in a circular mesh installed in the front of the inlet hole 224 to prevent the vortex of the flowing water flowing into the inlet hole 224 Submersible pump.

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