KR101276636B1 - Floating matter recovery pump - Google Patents

Abstract

PURPOSE: A floating material recovering pump is provided to prevent the malfunction of a pump body caused by foreign materials stuck inside the pump body. CONSTITUTION: A floating material recovering pump(100) comprises a pump body(110), a main frame(110), a main frame(120), a buoyant member(140), and an elastic member(145). The pump body includes an inlet(115) suctioning floating matters floated onto the surface of the water, an outlet(150) discharging the floated floating matters, an impeller discharging the floating matters suctioned through the inlet to the outlet, and a motor driving the impeller. The pump body is fixed to the main frame. The buoyant member is joined to the main frame, thereby making the pump body to be floated. The elastic member supports the buoyant member using an elastic force in the main frame, thereby preventing the impact of waves from being delivered to the pump body.

Description

Floating matter recovery pump

The present invention relates to a float recovery pump that can recover and process suspended matter suspended above the water surface.

In general, suspended solids such as oil, dust and sludge exist on the surface of reservoirs and water purification plants. As an example of a device for separating such suspended matter from the water surface, there is disclosed a "float collected discharge device of sedimentation tank for sewage and wastewater treatment facility" of Korea Patent No. 1995-0005496 (registered on May 24, 1995).

In the conventional sewage collection and discharging device of the sedimentation tank for sewage and wastewater treatment equipment, the tank having the floating water introduction pipe (5), the air supply pipe (6) and the discharge pipe (7) attached to the support plate (1) with the mouth (2) ( 4) and a flange nozzle plate 8 having taper on the outer surface of the inner end of the inlet pipe 5 into the tank 4 and the nozzle hole 9 formed on the outer side of the tapered surface is provided. And, between the outer end of the introduction pipe (5) and the conduit (10) is characterized in that the installation of the reverse check for preventing the reverse flow of the float.

In the conventional waste water collection and discharge device of the sedimentation tank for wastewater treatment facilities having such a configuration, foreign matter is caught in the pump body, and the pump body can be prevented from failing.

In addition, since the buckle 2 is fixed to the support bar (3) can not absorb the shock applied to the pump body there was a problem that frequent failure.

In addition, when the gap between the suction port and the water height is not appropriate, there was a problem in that the height to remove the floating waste collection device to adjust.

The present invention is to solve the problems as described above, the problem to be solved by the present invention can prevent the foreign matter is caught in the pump body, can absorb the impact of the wave by the elastic member, It is to provide a float recovery pump that can adjust the height of the buoyancy member installed in the reservoir.

Float recovery pump according to an embodiment of the present invention for achieving the above object is a suction port for suctioning the suspended suspended matter on the water surface, the discharge port for discharging the sucked suspended matter, and discharges the suspended matter sucked into the suction port to the discharge port A pump main body including an impeller and a motor driving the impeller, a main frame to which the pump main body is fixed, a buoyancy member supporting the main body in the form of being coupled to the main frame and supporting the main frame to the surface, and The main frame includes an elastic member for supporting the buoyancy member by the elastic force to prevent the impact of the wave to be transmitted to the pump body.

The suction port may include a suction filter member having a plurality of suction holes formed in a size smaller than the size of the suction port in order to prevent a float having a size larger than the suction port from being introduced into the suction port.

The discharge port may include a strainer for filtering the suspended matter having a predetermined size before discharging the suspended matter introduced through the suction hole to the discharge hole.

The elastic member may be provided above and below the buoyancy member in the main frame, respectively, to elastically support the buoyancy member in the main frame.

The main frame includes a pump coupling portion to which the pump body is coupled to a central portion, a rod portion radially disposed around the pump coupling portion, and a buoyancy installation portion protruding upward from each end of the rod portion to install the buoyancy members, respectively. It may include.

It may be provided in the main frame or the pump body may include a lifting height setting unit for adjusting the lifting height of the pump body in the form of adjusting the height of the buoyancy member in the main frame.

The lifting height setting unit is provided on the pump body or the upper part of the main frame and the handle is provided at the end, and the buoyancy member is supported and screwed with the screw rod is screwed to the top of the screw rod or according to the rotation of the screw rod It may include a buoyancy support member moving downward.

The discharge port may be formed to be bent in the opposite direction in which the centrifugal force of the motor is generated such that the centrifugal force of the motor is canceled by the force for discharging the float.

The discharge port includes a reservoir for temporarily storing the float discharged to the discharge port and a hose connecting the discharge port, and at the end of the hose located in the reservoir, a mandrel formed of a net for filtering the float discharged through the hose. This can be installed.

The strainer may include a support frame fixed to the reservoir to detachably couple the strainer to the reservoir.

According to the present invention, it is possible to prevent the foreign matter is stuck in the pump body, the failure of the pump body.

In addition, it is possible to absorb the shock received by the pump body by the elastic member to reduce the frequency of failure, maintenance costs can be reduced.

In addition, the height of the pump body can be adjusted in the state installed in the reservoir can adjust the amount of water sucked.

In addition, the performance of the pump can be improved by filtering before discharging the float, it is possible to facilitate the post-treatment work of the float because it separates the float in the reservoir.

1 is a perspective view of a suspended solids collection and discharge device of a sedimentation tank for waste water treatment facilities according to the prior art.
2 is a perspective view of a float recovery pump according to an embodiment of the present invention.
Figure 3 is a front view of the float recovery pump according to the embodiment of the present invention.
Figure 4 is a side sectional view of the discharge port of the float recovery pump according to the embodiment of the present invention.
Figure 5 is a perspective view showing a manure of the float recovery pump according to an embodiment of the present invention.
Figure 6 is an exploded perspective view showing the manure of the suspended solids recovery pump in accordance with an embodiment of the present invention.
7 is a front view showing a state of use of the float recovery pump according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

First, the float recovery pump of the present invention is installed in a reservoir for storing waste water, and discharged to another reservoir capable of treating the float in order to treat the float suspended in the reservoir, or circulating the waste water stored in the reservoir to filter the float. It is a device that can treat suspended solids contained in waste water in the form of internal combustion, and in a reservoir without floats, it is a device that can circulate fluid for water treatment.

Float recovery pump 100 according to an embodiment of the present invention may include a pump body (110).

The pump body 110 is a configuration that can suck and discharge the suspended matter, it may include an impeller 117 inside the pump body 110.

This impeller 117 can suck and discharge a float by a rotating centrifugal force.

On the other hand, the impeller 117 may be configured in a shape in which a plurality of wings are disposed radially in the circumferential direction around the axis of rotation, and various types of known impellers may be applied.

In addition, the pump body may include a motor 118.

This motor 118 may provide a driving force for rotating the impeller 117.

On the other hand, the motor 118 is composed of a rotor having a drive shaft inside the stator and the stator, the rotor is configured to rotate by the electric magnetic force inside the stator to rotate the drive shaft.

Here, the motor 118 may be implemented as an electric motor operated by electricity, and since the electric motor is a known configuration, a detailed description thereof will be omitted.

In addition, the pump body 110 may include a suction port 115.

The suction port 115 may suck a float, and may be formed in a shape that becomes narrower toward the bottom in a cylindrical shape, and the suction port 115 may include a suction filter 115a.

The suction filter 115a may be formed to protrude upward from the circumference of the suction port 115 in the shape of a cylinder.

In addition, a plurality of suction holes 115b may be formed in the suction manure portion 115a, and a plurality of suction holes 115a may have a float larger than the suction hole 115a and flow into the suction port 115 so that the pump main body 110 may be formed. Can be prevented.

In addition, the pump body 110 may be a discharge port 150 is formed.

The discharge port 150 may discharge the suspended matter sucked through the suction port 115.

At this time, the discharge port 150 may be formed in a form bent in the opposite direction in which the centrifugal force is generated in order to cancel the centrifugal force generated in the motor.

In addition, the discharge port 150 may include a bypass pipe 152.

The bypass pipe 152 is provided with a strainer 151 inside the inlet of the bypass pipe 152 so that the floating material introduced through the suction port 115 before the floating material is discharged to the discharge port 150 is larger than the floating material having a predetermined size. Can filter large floats.

At this time, the strainer 151 may be formed of a strainer, it may be inserted into the bypass pipe 152, the bypass pipe 152 to separate the strainer 151 from the bypass pipe 152. ) May be screwable.

Therefore, it is possible to remove the suspended matter filtered by the strainer 151 installed inside the bypass pipe 152 to prevent the pressure of the pump body 110 from rising due to the strainer 151 filled with the suspended matter.

The discharge port 150 may include a support frame 153.

The support frame 153 may support the filter 157 to be described later to temporarily store the floating matter discharged from the discharge port 150.

In addition, the upper surface of the support frame 153 may be formed in an open shape to accommodate the filter barrel 157, the side and the lower surface may be formed as an edge.

On one side of the support frame 153, a fixed support portion 154 may be formed in a "c" shape so that a part of the support frame 153 may be fitted into a reservoir. It can be fixed by screwing.

In addition, the discharge port 150 may include a hose 155.

The hose 155 may connect the discharge port 150 and the filter box 157 so that the floating matter discharged from the discharge port 150 may flow into the filter box 157, and the hose 155 may be connected to one end of the support frame 153. The hose fixing part 155 'may be formed to be fixed.

The hose fixing part 155 'may be formed as a band and may be screwed.

Therefore, since the hose 155 is fitted into the hose fixing part 155 ′ and fixed, the floating material exiting from the discharge port 150 may flow into the filter box 157 without being separated.

In addition, a filter box 157 may be formed inside the support frame 153.

The filter box 157 may be located inside the support frame 153 and may be inserted into an upper surface of the support frame 153.

And, the filter barrel 157 may be formed with a plurality of holes smaller than the hole formed in the strainer 151, the handle 158 is coupled to the upper center of the filter barrel 157 to be separated from the support frame 153. Can be.

Therefore, the float introduced through the hose 155 may escape between the plurality of holes formed in the filter 157, the floating that did not escape the filter 157 can be removed by removing the filter 157 from the reservoir 153. Can be.

Float recovery pump 100 according to an embodiment of the present invention may include a main frame 120.

The main frame 120 may be composed of a pump coupling portion 123, the rod portion 125 and the buoyancy installation portion 140.

The pump coupling part 123 is for connecting the pump body 110 and may screw the pump body 110 to the center portion of the main frame 120, and is formed to protrude upwardly perpendicular to the rod part 125. It may be, it may be configured in the shape of a plate supporting both ends of the pump body (110).

In addition, the rod part 125 may be positioned below the pump coupling part 123 as a part for supporting the pump body 110 and the buoyancy installation part 140, and may be formed in the shape of a plate or a rod. It may be disposed radially about the coupling portion 123.

In addition, the buoyancy installation portion 127 may be formed at the end of the rod portion 125.

The buoyancy installation portion 127 may be connected to the buoyancy member 140, which will be described below, may protrude vertically at each end of the rod portion 125, and may further protrude upwards, and the height of the buoyancy is raised. The setting unit 130 may be set.

Float recovery pump 100 according to an embodiment of the present invention may include a buoyancy member 140.

The buoyancy member 140 may be formed in plural in the shape of a sphere, the main frame 120, more specifically, the buoyancy installation portion 127 may be connected to be a central axis, the buoyancy member 140 It may further protrude upwards.

An elastic member 145 may be formed on the upper and lower portions of the buoyancy member 140.

The elastic member 145 may be installed in the main frame 120, more specifically, the buoyancy installation unit 127, and may be formed to surround the buoyancy installation unit 127.

In addition, between the upper side of the buoyancy member 140 and the buoyancy support member 137, between the lower side of the buoyancy member 140 and the rod portion 125 so as to elastically support the buoyancy member 140 It may be formed in a form surrounding the circumference of the buoyancy installation portion 127.

Float recovery pump 100 according to an embodiment of the present invention may include a lifting height setting unit 130.

The flotation height setting unit 130 may be provided in the main frame 120 or the pump body 110 in a configuration capable of adjusting the height of the buoyancy member 140.

On the other hand, the lifting height setting unit 130 may include a screw rod 133.

The screw rod 133 may be formed in the shape of a cylinder, the handle 135 is formed on the top end of the main frame 120 or the pump body 110 can be formed.

By rotating the handle 135, the distance between the pump body 110 and the buoyancy member 140 can be adjusted so that the buoyancy member 140 is located on the water surface.

And the lifting height setting unit 130 may include a buoyancy support member (137).

The buoyancy support member 137 may support the buoyancy member 140, and when the handle 135 formed on the screw rod 133 is rotated by being screwed with the screw rod 133, the buoyancy support member 137 is formed. It can move to the top or bottom of the four sticks (133).

Here, the lifting height setting unit 130 is rotated by the handle 135 in one direction, the screw is tightened while the height of the buoyancy member 140 is lowered, while rotating the handle 135 in the other direction while unscrewing the screw The height of the buoyancy member 140 is raised.

Therefore, when the height of the water surface is low or high to suck the floating material from the suction port, the handle 135 formed on the screw rod 133 is adjusted between the buoyancy member 140 and the pump body 110 by floating material recovery pump 100 ) Can control the amount of water inhaled.

The operation and effect of each of the components described above will be described.

In the suspended solids recovery pump 100 according to an embodiment of the present invention, the pump main body 110 is provided with a suction port 115 for sucking the suspended matter and a discharge port 150 for discharging the sucked suspended matter, and the pump main body 110. A motor 118 for driving the impeller 117 and an impeller 117 for discharging the suspended matter to the discharge port 150 are installed in the interior of the motor 118.

At this time, the suction filter 115a protruding upward of the suction port 115 is formed along the circumference of the suction port 115, and a plurality of suction holes 115b are formed in the suction filter 115a.

In addition, the discharge port 150 includes a bypass pipe 152, a strainer 151 for filtering the suspended matter of any size before discharging the suspended matter is installed inside the bypass pipe 152.

The pump coupling portion 123 to which the pump body 110 is coupled is formed in the center of the main frame 120, and the rod portion 125 formed radially is formed at the lower end of the pump coupling portion 123.

In addition, a buoyancy installation unit 127 capable of supporting the buoyancy member 140 formed to vertically protrude upward of the rod part 125 is installed, and the pump main body (120) in the main frame 120 or the pump main body 110. Screw rod 133 is provided with a handle 135 to adjust the lifting height of 110, and the buoyancy support member 137 screwed with the screw rod 133 is configured.

In addition, the buoyancy member 140 is formed in the buoyancy installation part 127, and the upper and lower portions of the buoyancy member 140, more specifically, the upper portion of the buoyancy member 140 and the lower portion of the buoyancy support member 137, buoyancy force. An elastic member 145 is installed between the lower portion of the member 140 and the upper portion of the rod 125 to absorb the impact of the wave.

Then, the support frame 153 is formed with a fixed support 154, the hose 155 for connecting the discharge port 150 and the support frame 153, and the inside of the support frame 153, the hose 155 The filter box 157 is formed with a plurality of holes to filter the suspended matter introduced through.

When the float recovery pump 100 according to the embodiment of the present invention configured as described above operates the motor 118 in the pump body 110, the impeller 117 coupled to the drive shaft rotates, Floating matter is sucked into the suction port 115 through the suction hole 115b of the suction filter 115a.

At this time, if the surface of the water is too low to suck the float into the suction port 115, by rotating the handle 135 in one direction to tighten the screw. Then, the inlet 115 is lowered by narrowing the interval between the pump body 110 and the buoyancy member 140, so that it is possible to suck up suspended matter.

On the other hand, when the gap between the pump body 110 and the buoyancy member 140 is narrow at the same time when the float is introduced at once, the handle 135 is rotated in the other direction to loosen the screw. Then, the interval between the pump body 110 and the buoyancy member 140 is widened so that the suction port 115 is increased, it is possible to reduce the amount of suspended matter sucked.

In addition, the suspended matter sucked into the suction port 115 is discharged to the discharge port 150 by the impeller 117, and before that, the suspended matter of predetermined size is filtered out by the strainer 151 installed in the bypass pipe 152. .

If the float is filled with the strainer 151, the lower end of the bypass pipe 152 fixed by screwing is rotated to remove the strainer 151 to remove the float, and then the strainer 151 is inserted again and screwed together.

Thereafter, the suspended matter exiting the discharge port 150 enters through the hose 155 into the filter barrel 157 inside the support frame 153 which is fixed by the fixed support 154. Discharged through the hole and filled in the reservoir, the suspended material not discharged from the manure 157 is accumulated in the manure 157.

Then, the floating matter accumulated in the manure bucket 157 is lifted up by holding the handle 158 and then separates the support frame 153 and the manure 157 to remove the floating matter in the manure 157 and then inserted into the support frame 153 again. Put it in.

Therefore, it is possible to prevent the pump body from failing due to foreign matter being caught inside the pump body, and to absorb the shock received by the pump body by the elastic member, thereby reducing the frequency of failure and reducing the maintenance cost.

In addition, the height of the pump body can be adjusted in the state installed in the reservoir can adjust the amount of water sucked.

In addition, the performance of the pump can be improved by filtering the suspended solids before discharging the suspended solids, it is possible to facilitate the post-treatment of the suspended solids by separating the suspended solids in the reservoir.

In the above described embodiments of the present invention, the scope of the present invention is

The present invention is not limited thereto, and includes all changes and modifications within a range that are easily changed by those skilled in the art to which the present invention pertains and are considered equivalent.

100: suspended solids recovery pump 110: pump body
115: suction port 115a: suction filter
115b: suction hole 117: impeller
118: motor 120: mainframe
123: pump coupling portion 125: rod portion
127: buoyancy installation unit 130: flotation height setting unit
133: screw rod 135: handle
137: buoyancy support member 140: buoyancy member
145: elastic member 150: discharge port
151: strainer 152: bypass pipe
153: support frame 154: fixed support
155: Hose 155 ': Horse High Government
157: filter box 158: handle

Claims (10)

A pump body including a suction port for sucking the suspended matter suspended above the water, an discharge port for discharging the sucked suspended matter, an impeller for discharging the suspended matter sucked into the suction port, and a motor for driving the impeller;
The main frame to which the pump body is fixed,
A buoyancy member coupled to the main frame to support the pump body in the form of supporting the main frame to the surface, and
And a resilient member supporting the buoyancy member by the elastic force in the mainframe to prevent the impact of the wave from being transferred to the pump body. The method of claim 1,
The inlet is
And a suction filter member having a plurality of suction holes formed in a size smaller than the size of the suction port in order to prevent the float having a size larger than the suction port from being introduced into the suction port. The method of claim 1,
The discharge port
And a strainer for filtering a float having a predetermined size before discharging the float introduced through the suction port to the discharge port. The method of claim 1,
The elastic member
Float recovery pump, characterized in that provided in the upper and lower portions of the buoyancy member in the main frame to elastically support the buoyancy member in the main frame. The method of claim 1,
The mainframe
A pump coupling portion to which the pump body is coupled to a central portion;
A rod portion radially disposed around the pump coupling portion, and
Floating material recovery pump characterized in that it comprises a buoyancy installation portion protruding upward from each end of the rod portion, the buoyancy members are respectively installed. The method of claim 1,
Float recovery pump, characterized in that provided in the main frame or the pump body includes a lifting height setting unit for adjusting the lifting height of the pump body in the form of adjusting the height of the buoyancy member in the main frame. The method according to claim 6,
The flotation height setting unit
A screw rod provided on an upper portion of the pump body or the main frame and provided with a handle at an end thereof;
And a buoyancy support member which supports the buoyancy member and is screwed with the screw rod to move to the upper or lower portion of the screw rod according to the rotation of the screw rod. The method of claim 1,
The discharge port
Float recovery pump characterized in that it is formed in a form bent in the opposite direction in which the centrifugal force of the motor is generated so that the centrifugal force of the motor is canceled by the force for discharging the float. The method of claim 1,
The discharge port
It includes a reservoir for temporarily storing the float discharged to the discharge port and the hose connecting the discharge port,
Float recovery pump, characterized in that the mandrel formed of a net for filtering the float discharged through the hose is installed at the end of the hose located in the reservoir. 10. The method of claim 9,
The filter box is
Float recovery pump characterized in that it comprises a support frame fixed to the reservoir to detachably couple the manure tank to the reservoir.

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