JP2019055391A - Floating material removal device - Google Patents

Abstract

To provide a floating material removal device capable of simplifying the device configuration to miniaturize the device and easily adjusting a floating position of a float.SOLUTION: A floating matter removal device 100 includes a single vertically long float 1 floating on a liquid surface, a pump main body 3 which is provided immediately below the float 1 and generates a suction force for suctioning floating matter near the liquid surface and a suction member 2, separate from the float 1, which includes a floating matter suction part 22a and is connected to the pump body 3 and the float 1.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a suspended matter removing apparatus including a float that floats on a liquid surface.

  2. Description of the Related Art Conventionally, a suspended matter removing apparatus including a float that floats on a liquid surface is known (see, for example, Patent Document 1).

  The above-mentioned Patent Document 1 includes a float that includes a plurality of floats that float on the liquid surface, and a recovery pipe (suction member) that is connected to the float and has an inflow portion (float matter suction portion) disposed near the liquid surface. A removal device is disclosed. A plurality of floats are provided around the collection pipe.

JP-A-11-90426

  However, since the floating substance removal apparatus of Patent Document 1 includes a plurality of floats, there is a problem that the apparatus configuration becomes complicated and the apparatus becomes large. In addition, since a plurality of floats are provided, there is a problem that it takes time to adjust the floating position of each float.

  The present invention has been made in order to solve the above-described problems, and one object of the present invention is to simplify the device configuration, to reduce the size of the device, and to float the float. It is an object of the present invention to provide a suspended matter removing apparatus capable of easily adjusting the position.

  A floating substance removing device according to one aspect of the present invention includes a single vertically long float that floats on a liquid surface, a pump main body that is provided immediately below the float and generates a suction force that sucks floating substances in the vicinity of the liquid surface, An inhalation member including a float inhaler, connected to the pump body and the float, and provided separately from the float. Here, the suspended matter is a substance that floats on the liquid surface, and includes sludge mass (scum), bubbles, fallen leaves, algae, oily substance separated from water, supernatant, and the like.

  In the suspended matter removing apparatus according to one aspect of the present invention, as described above, a single vertically long float, a pump main body that is disposed immediately below the float, and generates a suction force that sucks suspended matter near the liquid surface; And a floating substance suction part, connected to the pump body and the float, and provided with a suction member separate from the float. In this way, by configuring the float in a single vertically long shape, even if the float is configured with the same surface area as that configured in a spherical shape, the amount of vertical displacement due to ups and downs when floating on the liquid surface is increased. Therefore, it is possible to easily adjust the vertical position when the float floats. In addition, by configuring the float in such a single vertically long shape, the size of the float in the horizontal direction can be made smaller than the size in the vertical direction of the float, thereby suppressing an increase in the size of the entire apparatus. be able to. In addition, since the floating substance removing apparatus includes a single float, the apparatus configuration can be simplified and the apparatus can be miniaturized and the number of floats that require position adjustment compared to the case where there are a plurality of floats. Can be made one. In addition, since the heavy pump body is disposed immediately below the float, the entire apparatus can be stabilized in a state of being floated on the liquid level even with a single float.

  In the suspended matter removing apparatus according to the above aspect, preferably, the central axis extending in the vertical direction of the float substantially coincides with the central axis extending in the vertical direction of the pump body. If comprised in this way, force can be made to act on the float downward along the central axis of the float by the dead weight of the pump body, so even a single float was suspended on the liquid surface. The entire apparatus can be made more stable in the state.

  In the suspended matter removing apparatus according to the above aspect, preferably, the float is provided on a central axis of the float, and includes a liquid level adjustment unit that adjusts a height position of the float with respect to the suspended matter inhaling unit. The adjustment unit is configured to be able to adjust the height position of the floating substance suction part with respect to the liquid level by adjusting the height position of the float with respect to the floating substance suction part. If comprised in this way, a suction | inhalation member can be easily arrange | positioned by the liquid level adjustment part in the predetermined height position which can suck | inhale a suspended | floating matter effectively by a suspended | floating matter suction part.

  In the floating substance removing apparatus according to the above aspect, the horizontal size of the float is preferably larger than the horizontal size of the pump body. If comprised in this way, the attitude | position of the whole apparatus can be stabilized compared with the case where the magnitude | size of the horizontal direction of a float is smaller than the magnitude | size of the horizontal direction of a pump main body.

  In the suspended matter removing apparatus according to the above aspect, the suction member is preferably formed so as to surround the float in plan view. If comprised in this way, since the suction | inhalation member is arrange | positioned around the float with sufficient balance, the attitude | position of the whole apparatus can be maintained stably.

  In this case, preferably, the float has a vertically long oval shape, a vertically long oval shape, or a vertically long egg shape in a side view, and the suction member is provided on a side of the float and extends in the vertical direction. A cylindrical first part, and a second part provided at the lower end of the first part and having a curved inner surface along the outer surface of the float; and the inner surfaces of the first part and the second part; Between the outer surface of the float, a flow path for floating substances is provided. If comprised in this way, the suspended | floating matter and the liquid which were suck | inhaled from the suspended | floating matter suction part can be flowed from a flow path to a pump main body.

  In the configuration in which the float includes the liquid level adjustment unit, preferably, the suction member is provided between the pump body and the float, and a lower limit position restriction that restricts the downward movement of the float by contacting the float. Part. According to this structure, when the flow path is provided between the float and the suction member, the float can be stopped at the lower limit position by the lower limit position restricting unit, so that the flow path can be reliably secured. it can.

  In the floating substance removing apparatus according to the above aspect, the suction member is preferably provided with a leg portion that is disposed so as to surround the pump body and extends below the lower end of the pump body. If comprised in this way, when mounting a floating substance removal apparatus on the land, it can suppress that a pump main body interferes with a mounting surface by a leg part, Therefore A floating substance removal apparatus is stabilized on land. Can be placed.

  According to the present invention, as described above, the apparatus configuration can be simplified, the apparatus can be miniaturized, and the floating position of the float can be easily adjusted.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially broken side view showing an overall configuration of a suspended matter removing apparatus according to a first embodiment of the present invention. It is the top view which showed the suspended | floating matter removal apparatus by 1st Embodiment of this invention. It is a figure for demonstrating the removal method of the floating substance of the floating substance removal apparatus by 1st Embodiment of this invention. It is the partially broken side view which showed the whole structure of the suspended | floating matter removal apparatus by 2nd Embodiment of this invention. It is the partially broken side view which showed the whole structure of the suspended | floating matter removal apparatus by the 1st modification of 1st Embodiment of this invention.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments embodying the present invention will be described below with reference to the drawings.

[First Embodiment]
(Configuration of floating substance removal device)
With reference to FIGS. 1-3, the structure of the suspended | floating matter removal apparatus 100 by 1st Embodiment of this invention is demonstrated.

  1 is configured to be installed in a state where it floats on a liquid (for example, water or the like) stored in a predetermined area (for example, a storage tank or a reservoir). The suspended matter removing apparatus 100 is configured to remove the suspended matter in the vicinity of the liquid surface from a predetermined region by suction.

  The floating substance removing device 100 includes a single float 1 including a liquid level adjustment unit 11, a suction member 2, and a pump body 3 that is separate from the float 1. The suction member 2 is connected to the float 1. The suction member 2 is fixedly connected to the pump body 3.

  The liquid level adjustment unit 11 is configured to adjust the height position of the float 1 with respect to the suction member 2 (a floating material suction unit 22a of the suction member 2 described later). The float 1, the suction member 2, and the pump body 3 are configured to be movable relative to each other in the vertical direction by the liquid level adjustment unit 11. In short, the liquid level adjustment unit 11 has a function of adjusting the height position of the suction member 2 with respect to the liquid level.

<Float configuration>
A float 1 shown in FIG. 1 is made of, for example, a resin material (foam material) and has a vertically long oval shape. Specifically, the float 1 is disposed at the center of the float 1 in the horizontal direction, and includes a through hole 1a penetrating the float 1 in the vertical direction (Z direction). The float 1 generally has a vertically long elliptical shape in a side view. That is, the float 1 is generally an ellipsoid whose longitudinal direction is the longitudinal direction, and has a through hole 1a provided on the central axis α extending in the vertical direction. The float 1 is configured to float on the liquid surface. The float 1 can generate a buoyancy of a predetermined size or more that allows the suspended matter removing apparatus 100 to float. The oval shape in the present invention has a central axis α as a symmetry axis, and has a shape similar to an elliptical shape, an oval shape, or an egg shape, and is formed by a smooth curve. It is.

  By configuring the float 1 in such an oval shape, even when the float 1 is configured with the same surface area as that configured in a spherical shape, the amount of vertical displacement due to ups and downs when floating on the liquid surface can be increased. Therefore, it is possible to easily adjust the vertical position when the float 1 floats. That is, the position adjustable width can be increased. Further, by configuring the float 1 in such an oval shape, the horizontal dimension D1 of the float 1 can be configured to be smaller than the vertical dimension h of the float 1 (D1 <h). It is possible to suppress an increase in the size of the entire device, in particular, an increase in the size of the suction member 2 in the horizontal direction.

  The horizontal size D1 of the float 1 is larger than the horizontal size of the pump body 3 (the size of the housing portion that houses the motor 32) D2 (D1> D2). That is, the pump main body 3 is configured to overlap the float 1 in the vertical direction in substantially the entire region.

  The float 1 is provided with a cylindrical guide member 12 disposed inside the through hole 1 a of the float 1.

  The guide member 12 has a round bar shape extending linearly in the vertical direction (Z direction). The guide member 12 has an outer diameter (diameter of the outer peripheral surface) slightly smaller than the inner diameter (diameter of the inner peripheral surface) of the through hole 1a of the float 1. The guide member 12 is inserted into the through hole 1 a of the float 1. The guide member 12 and the through hole 1a of the float 1 are configured to be slidable in the vertical direction. That is, the float 1 is configured to be guided in the vertical movement by the guide member 12. The lower end of the guide member 12 is fixedly connected to the suction member 2.

  The liquid level adjustment unit 11 includes a shaft portion 110 and an upper limit position restricting portion 111 attached to the shaft portion 110.

  The shaft portion 110 is formed in a male screw shape extending linearly in the vertical direction. The shaft portion 110 is provided so as to extend upward from the upper end of the guide member 12. The shaft portion 110 is fixedly connected to the guide member 12. That is, the shaft part 110 and the liquid level adjustment part 11 are fixedly connected to each other via the guide member 12. The shaft portion 110 is passed through the through hole 1 a of the float 1. It is formed thinner than the guide member 12 that guides the movement of the float 1. An annular upper end portion 110 a is fixed to the upper end of the shaft portion 110. The upper end portion 110a moves when the suspended matter removing device 100 is moored to restrict horizontal movement when the suspended matter removing device 100 is installed on the liquid surface, or when the suspended matter removing device 100 is lifted. When the suspended matter removing apparatus 100 is installed in a predetermined area, a rope is attached and used for mooring to make the planar suspended position of the suspended matter removing apparatus 100 constant.

  The upper limit position restricting portion 111 is configured to be able to adjust the suspended matter suction portion 22a to a position straddling the liquid level by adjusting the height position of the float 1 with respect to the later-described suspended matter suction portion 22a of the suction member 2.

  Specifically, the upper limit position restricting portion 111 has a female screw hole penetrating in the vertical direction at the center. The upper limit position restricting portion 111 is attached to the shaft portion 110 by screwing. The upper limit position restricting portion 111 is configured to be able to adjust the vertical position with respect to the shaft portion 110 by changing the screwing position to the shaft portion 110. The upper limit position restricting unit 111 is provided above the float 1. The upper limit position restricting portion 13 is formed larger than the through hole 1a of the float 1 in the horizontal direction. The upper limit position restricting unit 111 makes contact with the float 1 that floats by buoyancy from above while the suspended matter removing device 100 is installed on the liquid surface, so that the float 1 with respect to the guide member 12 (suction member 2) It is comprised so that the relative movement to upper direction may be controlled. In short, the upper limit position restricting portion 111 is a member that determines the vertical position of the float 1. As a result of adjusting the vertical position of the float 1 by the upper limit position restricting portion 111, the height position of the suction member 2 (floating matter suction portion 22a) with respect to the float 1 can be adjusted.

  When the upper limit position restricting portion 111 is moved upward along the shaft portion 110, the float 1 moves upward with respect to the suction member 2. At this time, the suction member 2 moves downward with respect to the liquid level. On the other hand, when the upper limit position restricting portion 111 is moved downward along the shaft portion 110, the float 1 moves downward relative to the suction member 2. At this time, the suction member 2 moves upward with respect to the liquid level.

<Configuration of suction member>
The suction member 2 is disposed between the pump body 3 and the float 1 in the vertical direction. The suction member 2 is connected to each of the pump body 3 and the float 1.

  The suction member 2 is generally formed in a cylindrical shape extending in the vertical direction. Specifically, the suction member 2 is formed so as to surround the float 1 in plan view. In addition, the suction member 2 has a bowl shape that is open at the top, and is provided with a through hole 21 that extends downward at the lower end on the inside. It arrange | positions so that the central axis (alpha) of the float 1 extended in an up-down direction may pass through the through-hole 21 inside. The through hole 21 communicates with the pump suction port 3a of the pump body 3 at the lower end. The suction member 2 has a shape that is substantially line symmetric with respect to the central axis α of the float 1 in a side view, except for a floating substance suction portion 22a described later.

  The inner surface of the suction member 2 has a shape along the outer surface of the float 1. Between the inner surface of the suction member 2 (first member 22 and second member 23, which will be described later) and the outer surface of the float 1, a flow path A for floating matter and liquid sucked from the floating matter suction portion 22a is formed. ing. One end of the flow path A is disposed in the vicinity of the liquid surface, and the other end communicates with the internal space of the pump body 3 through the through hole 21.

  The suction member 2 includes a first member 22 and a second member 23. The first member 22 is an example of the “first portion” in the claims. The second member 23 is an example of the “second portion” in the claims.

  The first member 22 is provided on the side of the float 1 so as to surround the float 1. The first member 22 is an annular and cylindrical member extending in the vertical direction along the outer surface of the float 1 (a portion extending generally in the vertical direction of the outer surface). At the upper end of the first member 22, a plurality (ten pieces) of floating matter suction portions 22 a are provided. The plurality of floating substance suction portions 22a are provided at substantially the same height.

  The floating substance suction part 22a is a part that takes in the floating substance inside the suction member 2 by allowing the floating substance to pass from the outer peripheral part to the inner peripheral part of the suction member 2 (first member 22). In addition, the floating substance suction portion 22a is a groove-shaped portion that is notched downward from the upper end of the first member 22. That is, the floating substance suction part 22a is formed in a shape whose width becomes narrower as it goes downward. Specifically, the floating substance suction portion 22a is formed in a V shape (triangular shape) whose width is narrowed downward.

  The floating substance suction part 22a has an upper end part 22b arranged at a height position higher than the liquid level and a lower end part arranged at a height position lower than the liquid level when the float 1 is floated on the liquid level. 22c. The lower end portion 22c is a corner portion located at the lowermost portion of the suspended matter suction portion 22a whose width is narrowed downward. The angle β of the corner portion of the lower end 22c is formed at about 30 degrees. The floating substance suction part 22a in this embodiment serves as a triangular weir.

  As shown in FIG. 2, the plurality (10 pieces) of the floating substance suction portions 22 a are provided at substantially equal angles (γ degrees (36 degrees)) in the circumferential direction of the upper end of the cylindrical first member 22. . In FIG. 2, for convenience of explanation, the upper end of the suction member 2 including the upper end portion 22 b of the suspended matter suction portion 22 a is hatched, but this hatching does not show a cross section.

  As shown in FIG. 1, the second member 23 is disposed below the first member 22. The second member 23 is provided in the vicinity of the upper end, and has a step portion 24 into which the first member 22 is fitted. The second member 23 is provided below the float 1. The second member 23 has a curved inner surface along the lower outer surface of the float 1.

  The second member 23 (suction member 2) includes a lower limit position restricting portion 25 that restricts the downward movement of the float 1.

  The lower limit position restricting portion 25 extends inside the second member 23 so as to protrude upward from the vicinity of the center of the second member 23, and has an upper end fixedly connected to the guide member 12. The lower limit position restricting portion 25 is disposed immediately below the float 1 and is configured to come into contact with the lower end of the float 1 when the float 1 moves downward. That is, the lower limit position restricting portion 25 is configured to restrict the downward movement of the float 1 and is a portion that determines the vertical position of the float 1.

  The second member 23 (suction member 2) includes a through hole 26a and a valve member 26b that can open and close the through hole 26a. The through hole 26a and the valve member 26b are disposed at a position shifted from the central axis α of the float 1 in the horizontal direction.

  The through hole 26a is a hole portion that communicates the internal region that is the region on the float 1 side of the second member 23 (suction member 2) and the external region that is the region opposite to the float 1 side. The through hole 26 a is configured to guide the liquid from the outer region to the inner region of the suction member 2 by opening the valve member 26 b when the float 1 is floated on the liquid surface. The valve member 26b is closed in a state where a predetermined amount of liquid is introduced into the inner region of the second member 23 (suction member 2). The valve member 26b is a valve that opens and closes due to a pressure difference between the internal region and the external region. That is, when the inner region (inner side) of the second member 23 is empty (when the liquid on the inner side is small), the valve member 26b opens and the liquid flows into the inner region (inner side) of the second member 23 by a predetermined amount or more. In such a case, the valve member 26b is closed. As a result, when the suspended matter removing apparatus 100 is installed in a predetermined region, it is possible to allow the liquid to flow into the internal region of the second member 23 and stably install the suspended matter removing device 100 on the liquid surface.

  A plurality (three) of leg portions 27 are provided on the second member 23 (suction member 2).

  The plurality of leg portions 27 are arranged so as to surround the pump body 3 in the horizontal direction. The leg portion 27 is formed in a rod shape extending in the vertical direction. The leg portion 27 extends below the lower end (motor 32 side) of the pump body 3. The plurality of leg portions 27 are configured to stably support the suspended matter removing device 100 when the suspended matter removing device 100 is placed on land (when not in use). That is, the leg part 27 is a structure for mounting the suspended | floating matter removal apparatus 100 upright on land.

  A ball valve 28 is provided on the outer peripheral surface side of the second member 23 (suction member 2).

  The ball valve 28 includes a floating valve body 281 having a spherical shape, and a cover member 282 having a vertically long internal space extending in the vertical direction in which the floating valve body 281 is disposed inside.

  The floating valve body 281 is formed so as to float in a liquid in a predetermined region where the suspended matter removing device 100 is disposed. The cover member 282 is provided above the floating valve body 281 for introducing water into the internal space in which the floating valve body 281 is disposed, and the internal space of the cover member 282 and the area inside the suction member 2. And a through hole 282b extending in the vertical direction.

  The floating valve body 281 is configured to float (moves upward in the internal space) and closes the through hole 282b when placed below the liquid level. That is, the liquid does not flow out of the suction member 2 through the through hole 282b.

  On the other hand, when the floating valve body 281 is lifted above the liquid level, the floating valve body 281 descends (moves downward in the internal space) and opens the through hole 282b. That is, the liquid is discharged out of the suction member 2 through the through hole 282b.

<Configuration of pump body>
The pump body 3 shown in FIG. 1 is mainly formed of, for example, a resin material and a metal material having corrosion resistance such as stainless steel, and is a relatively lightweight pump. The pump body 3 is a submersible pump that is driven in a state of being disposed in a liquid. The pump body 3 is configured to generate a suction force that sucks floating matter near the liquid surface from the floating matter suction portion 22a. The pump body 3 is connected to the float 1 via the suction member 2 at a position directly below the float 1. The pump body 3 overlaps with the float 1 in the vertical direction over substantially the entire area of the pump body 3. The pump body 3 is configured to be removable from the suction member 2 and exchangeable with another output type pump. Although it is an example, the pump main body 3 is comprised so that it can mutually exchange between various pumps of the output types of 150W, 250W, 350W, 450W, and 750W.

  The pump body 3 includes a centrifugal impeller 31 and a motor 32 that applies a driving force to the impeller 31 via a rotation shaft 32a. The rotating shaft 32a extends in the vertical direction. An impeller 31 is attached in the vicinity of the upper end (the pump suction port 3a side) of the rotation shaft 32a, and a motor 32 is disposed in the vicinity of the lower end of the rotation shaft 32a. The rotation shaft 32a is disposed on the central axis α of the float 1 extending in the vertical direction.

  The pump body 3 is provided with an impeller 31 on the inner side and a pump chamber 33 for sending sucked water (floating matter) from the pump suction port 3a to the pump discharge port 3b. The pump suction port 3a is provided on the center axis α passing through the center of the float 1 and the pump body 3 in the vertical direction. That is, the central axis extending in the vertical direction of the pump body 3 substantially coincides with the central axis α extending in the vertical direction of the float 1. The pump suction port 3 a is provided immediately below the center of the float 1. The pump discharge port 3b is provided so as to face the side of the pump body 3 (a direction substantially orthogonal to the Z direction).

  One end of a hose H is connected to the pump discharge port 3b from the side. The other end of the hose H is connected to, for example, a purification device provided on the ground. In the purification apparatus, oil / water separation processing or filtration processing of suspended matters is performed.

  Between the pump discharge port 3b and the hose H, a packing-like flow rate control valve 34 for starting is provided. The start-time flow rate suppression valve 34 suppresses the maximum flow rate at the start of the pump body 3 and prevents the water level inside the pump suction port 3a from abruptly decreasing and the entire apparatus from rising greatly.

  The start-time flow control valve 34 has a through hole that communicates with the internal space of the pump body 3 through which the fluid passes and the internal space of the hose H, and has a plurality of tongues 34a that protrude to the inner peripheral side of the through hole. doing. The tongue 34a has flexibility, and warps from the hose H side to the pump main body 3 side as shown by a broken line in FIG. 1 in a state where the external force due to the liquid before starting the pump main body 3 is not received. It is formed to hold the shape that changes.

  After the pump body 3 is started, the tongue 34a is elastically deformed so as to warp from the pump body 3 side to the hose H side (opposite side before starting).

  The pump body 3 has a larger weight than the float 1 and the suction member 2. The pump body 3 is provided at the lower end of the entire apparatus at a position directly below the float 1. Therefore, the pump body 3 tends to continue to be positioned directly below the float 1 with respect to the float 1 floating on the liquid surface due to its own weight. That is, the floating substance removing apparatus 100 is configured such that the pump body 3 maintains the mutual position of the pump body 3 and the float 1 and stabilizes the entire apparatus when the float 1 is floated on the liquid surface. Has been. Thereby, the suspended | floating matter removal apparatus 100 can exhibit the function which removes a suspended | floating matter by suction.

<Removal method of suspended solids using the suspended matter removal device>
Next, with reference to FIG. 1 and FIG. 3, a method (principle) of removing floating substances by the floating substance removing apparatus 100 will be described.

  As shown in FIG. 1, the liquid level adjustment unit 11 adjusts the height position of the float inhaler 22a with respect to the liquid level by moving the float 1 up and down with respect to the liquid level. Specifically, the upper end portion 22b of the floating substance suction portion 22a is disposed at a height position above the liquid level, and the lower end portion 22c of the floating substance suction portion 22a is disposed at a height position lower than the liquid surface. At this time, the liquid level adjustment unit 11 is adjusted so that the liquid level is positioned closer to the upper end 22b than to the lower end 22c. Before the pump body 3 is driven, the water level (inner water level) on the inner peripheral side of the suction member 2 and the water level (outer water level) on the outer peripheral side of the suction member 2 are at the same height.

  Then, the pump body 3 is driven. That is, the impeller 31 is rotated to generate a flow of liquid containing suspended matter from the suspended matter suction part 22 a toward the pump chamber 33.

  As a result, as shown in FIG. 3, the inner water level starts to decrease with respect to the outer water level. As the inner water level decreases with respect to the outer water level, the amount of liquid flowing into the suction member 2 increases. That is, the amount of liquid passing through the groove-like suspended matter suction part 22a increases due to natural flow. The floating substance removing device 100 floats and sinks in the vertical direction by driving the pump body 3.

  Then, the lowering of the inner water level stops at a position where the inner water level is lower than the outer water level by a predetermined height. That is, the flow rate (intake amount) of the pump body 3 (see FIG. 1) and the inflow amount of the liquid passing through the floating substance suction portion 22a are balanced, and the inner water level and the outer water level are kept at a constant water level difference. Steady state. In the steady state, the upper end 22b is disposed on the liquid level, and the lower end 22c is disposed below the liquid level.

  In this way, by maintaining the state in which the inner water level is lower than the outer water level by a predetermined height, it is possible to continue to take in the fluid containing the suspended matter into the suction member 2 by natural flow (overflow). As a result, a relatively fast flow can be generated in the vicinity of the liquid level around the floating substance suction part 22a (suction member 2), and the floating substance removing device 100 can effectively remove the floating substance. it can.

  After that, even when the driving environment of the pump body 3 changes such that the flow rate of the pump body 3 changes, the inner water level is outside in a predetermined height range in which the groove-like floating matter suction part 22a is provided. A steady state in which the inner water level and the outer water level are maintained at a constant water level difference is maintained by moving up and down relative to the water level. For example, when the suction amount of the pump body 3 exceeds the inflow amount of the liquid to the suction member 2, the inner water level starts to decrease, but the open area of the floating matter suction portion 22a also increases, so the liquid to the suction member 2 increases. The amount of inflow also increases, and the amount of inflow to the floating substance suction part 22a is automatically adjusted in response to fluctuations in the liquid level inside and outside the suction member 2, and the floating substance that effectively floats on the liquid surface and the liquid The state which can inhale the liquid of a surface can be maintained. Further, in the subsequent operation, when the suction amount of the pump body 3 exceeds the inflow amount of the liquid to the suction member 2, the inner water level starts to decrease, but the open area of the floating matter suction portion 22a also increases, so the suction member As a result, the amount of liquid flowing into the air inlet 2 also increases, so that the amount of liquid flowing into the floating substance suction part 22a is automatically adjusted in response to fluctuations in the liquid level inside and outside the suction member 2 and effectively floats on the liquid surface. It is possible to maintain a state in which suspended matter and liquid on the liquid surface can be sucked.

(Effect of 1st Embodiment)
In the first embodiment, the following effects can be obtained.

  In the first embodiment, as described above, a single vertically long float 1, a pump main body 3 that is disposed immediately below the float 1 and generates a suction force for sucking floating matter near the liquid surface, and floating matter suction A suction member 2 including a portion 22a, connected to the pump body 3 and the float 1, and separate from the float 1 is provided. Thereby, since the suspended | floating matter removal apparatus 100 is provided with the single float 1, compared with the case where there are two or more floats 1, while simplifying an apparatus structure and being able to miniaturize an apparatus, the float 1 Position adjustment can also be easily performed. Moreover, since the pump main body 3 which is a heavy article is arrange | positioned in the position directly under the float 1, even if it is the single float 1, the whole apparatus can be stabilized in the state suspended on the liquid level. Moreover, since the float 1 is formed vertically long, the apparatus can be downsized particularly in the horizontal direction, and in particular, the suction member 2 can be prevented from becoming large in the horizontal direction. Also, the float 1 is the same as those in the case where the size of the float 1 is the same in the horizontal direction (horizontal direction) (spherical shape) or in the case where the float 1 is larger in the horizontal direction (lateral direction) than the vertical direction. Even if it is constituted by the surface area, it is possible to make a large amount of vertical displacement due to ups and downs when floating on the liquid surface, so that it is possible to easily adjust the vertical position when the float 1 floats. That is, the position adjustable width can be increased.

  Further, in the first embodiment, as described above, the central axis α extending in the vertical direction of the float 1 is arranged so as to substantially coincide with the central axis extending in the vertical direction of the pump body 3. As a result, since the force of the pump body 3 can be applied to the float 1 downward along the central axis α of the float 1 due to its own weight, even the single float 1 is suspended on the liquid surface. In this state, the entire apparatus can be further stabilized.

  Further, in the first embodiment, as described above, the liquid level adjustment unit 11 that is arranged on the float 1 on the central axis α of the float 1 and adjusts the height position of the float 1 with respect to the floating substance suction unit 22a is provided. The liquid level adjustment unit 11 is configured such that the height position of the float suction part 22a with respect to the liquid level can be adjusted by adjusting the height position of the float 1 with respect to the float suction part 22a. Thereby, the suction | inhalation member 2 can be easily arrange | positioned by the liquid level adjustment part 11 in the predetermined | prescribed height position which can suck | inhale a suspended | floating matter effectively by the suspended | floating matter suction | inhalation part 22a.

  In the first embodiment, as described above, the horizontal size of the float 1 is made larger than the horizontal size of the pump body 3. Thereby, compared with the case where the size of the float 1 in the horizontal direction is smaller than the size of the pump body 3 in the horizontal direction, the posture of the entire apparatus can be stabilized.

  In the first embodiment, as described above, the suction member 2 is formed so as to surround the float 1 in plan view. Thereby, since the suction member 2 is arranged around the float 1 in a well-balanced manner, the posture of the entire apparatus can be stably maintained.

  In the first embodiment, as described above, the float 1 is formed in a vertically long oval shape in a side view, and is disposed on the suction member 2 on the side of the float 1 and extends in the vertical direction. A first member 22 and a second member 23 disposed at the lower end of the first member 22 and having a curved inner surface along the outer surface of the float 1 are provided, and the inside of the first member 22 and the second member 23 is provided. Between the surface and the outer surface of the float 1, a flow path A of suspended matter is provided. Thereby, the floating substance and the liquid sucked from the floating substance suction part 22 a can be flowed from the flow path A to the pump body 3.

  In the first embodiment, as described above, the suction member 2 is provided between the pump body 3 and the float 1, and the lower limit position that restricts the downward movement of the float 1 by contacting the float 1. Establish a regulation section. Thereby, when the flow path A is provided between the float 1 and the suction member 2, the float 1 can be stopped at the lower limit position by the lower limit position restricting portion, so that the flow path A is ensured reliably. Can do.

  In the first embodiment, as described above, the suction member 2 is provided with the leg portion 27 that is disposed so as to surround the pump body 3 and extends below the lower end of the pump body 3. As a result, when the suspended matter removing device is placed on the land, the legs 27 can prevent the pump body 3 from interfering with the placement surface, so that the suspended matter removing device 100 is stabilized on the land. Can be placed.

[Second Embodiment]
Next, a second embodiment will be described with reference to FIG. In the second embodiment, unlike the first embodiment in which the float 1 is disposed inside the suction member 2, an example in which the suction member 202 is disposed at an arbitrary position away from the float 1 will be described. In addition, about the structure same as the said 1st Embodiment, the same code | symbol is attached | subjected and shown in the figure, and the description is abbreviate | omitted.

(Configuration of floating substance removal device)
The suspended | floating matter removal apparatus 200 by 2nd Embodiment of this invention is equipped with the suction member 202 as shown in FIG.

  The suction member 202 has a meandering tube shape, and one opening is disposed near the liquid surface, and the other opening communicates with the pump suction port 3 a of the pump body 3. A floating substance flow path A is formed inside the suction member 202. The suction member 202 includes a groove-like floating substance suction part 22a that is provided in one opening and takes in the floating substance by allowing the floating substance to pass from the outer peripheral part to the inner peripheral part. A plurality (five) of the floating substance suction portions 22a are provided at substantially equal angular intervals in the circumferential direction of the one opening. The one opening provided with the floating substance suction portion 22 a is arranged around the float 1 and separated from the float 1. The suction member 202 is disposed between the pump main body 3 and the float 1 and connects the pump main body 3 and the float 1 to each other. In the second embodiment, the horizontal size (diameter) D3 of the suction member 202 (cylindrical portion provided with the floating substance suction portion 22a) is larger than the horizontal size (diameter) D1 of the float 1. (D3 <D1).

  In addition, the other structure of 2nd Embodiment is the same as that of the said 1st Embodiment.

(Effect of 2nd Embodiment)
In the second embodiment, the following effects can be obtained.

  In the second embodiment, similarly to the first embodiment, a single vertically long float 1 and a pump main body 3 that is arranged immediately below the float 1 and generates a suction force for sucking floating matter in the vicinity of the liquid surface; The floating body suction portion 22a is connected to the pump body 3 and the float 1, and a suction member 202 separate from the float 1 is provided. Thus, by providing the suction member 202 at an arbitrary position away from the float 1, the horizontal size (diameter) D3 of the suction member 202 is smaller than the horizontal size (diameter) D1 of the float 1. Even when configured, the suspended matter removing apparatus 100 can be configured.

  The remaining effects of the second embodiment are similar to those of the aforementioned first embodiment.

[Modification]
In addition, it should be thought that embodiment (Example) disclosed this time is an illustration and restrictive at no points. The scope of the present invention is shown not by the above description of the embodiment (example) but by the scope of claims for patent, and further includes meanings equivalent to the scope of claims for patent and all modifications (variants) within the scope. .

  For example, in the first and second embodiments, the example in which the pump discharge port is directed to the side is shown, but the present invention is not limited to this. In the present invention, the pump discharge port 303b may be configured to face downward as in the suspended matter removing apparatus 300 of the first modification of the first embodiment shown in FIG. In this case, one end of a pipe member (for example, a street elbow or the like) L-shaped (a shape in which the direction toward the one end opening and the other end opening is substantially orthogonal) is connected to the pump discharge port 303b, and the other end of the pipe member E is connected. The hose H may be attached from the side.

  Further, in the first and second embodiments, the example is shown in which the float is formed so as to have a generally elliptical shape in a side view, but the present invention is not limited to this. In the present invention, for example, the float may be formed in a vertically long egg shape or a vertically long oval shape in a side view. In addition, the float may be formed in a cylindrical shape.

  Further, in the first embodiment, 10 examples of the floating member suction part are provided in the suction member, and in the second embodiment, five examples of the floating matter suction part are provided in the suction member. Not limited to. In the present invention, the inhalation member may be provided with 1 to 4 floating object inhalation parts, 6 to 9 or less, or 11 or more.

  In the first and second embodiments, the example in which the notch-like floating substance suction part is provided in the suction member has been described. However, the present invention is not limited to this. In the present invention, the suction member may be provided with a through-hole-like floating substance suction portion that communicates the inside and the outside.

  Moreover, in the said 1st and 2nd embodiment, although the example which formed the floating body suction | inhalation part in V shape was shown, this invention is not limited to this. In the present invention, the floating substance suction portion may be formed in a shape other than a V shape such as a U shape or a rectangular shape.

  In the first and second embodiments, the example in which the suction member is provided with the 30-degree V-shaped floating substance suction portion is shown, but the present invention is not limited to this. In the present invention, the suction member may be provided with, for example, a V-shaped floating substance suction portion other than 30 degrees and less than 90 degrees. It is more preferable to provide a V-shaped floating substance suction portion of less than 82 degrees.

  Moreover, in the said 1st Embodiment, although the example which provided the valve member and through-hole for water conveyance in the suction member was shown, this invention is not limited to this. In the present invention, the suction member may not be provided with a valve member and a through hole for water conveyance. In this case, for example, water may be introduced from an opening above the suction member.

  Moreover, although the example which used the centrifugal impeller for the pump main body was shown in the said 1st and 2nd embodiment, this invention is not limited to this. In the present invention, an impeller other than a centrifugal type such as an axial flow type or a diagonal flow type may be used for the pump body.

  Moreover, although the example which has arrange | positioned so that the rotating shaft of a pump main body might be extended in the up-down direction was shown in the said 1st and 2nd embodiment, this invention is not limited to this. In this invention, you may arrange | position so that the rotating shaft of a pump main body may be extended in a horizontal direction or a diagonal direction.

  Moreover, although the example which formed the float with the foam material was shown in the said 1st and 2nd embodiment, this invention is not limited to this. In the present invention, the float may be formed of a resin material other than the foam material.

  In the first and second embodiments, the suction member is configured by two members, the first member that is the first part of the present invention and the second member that is the second part of the present invention. Although shown, the present invention is not limited to this. In the present invention, the first part and the second part may be configured integrally, and the suction member may be configured by one member.

DESCRIPTION OF SYMBOLS 1 Float 2,202 Inhalation member 3,303 Pump main body 11 Liquid level adjustment part 22 1st member (1st part)
22a Floating substance suction part 23 Second member (second part)
27 Leg 100, 200, 300 Floating substance inhaler A Channel

Claims (8)

A single vertical float floating on the liquid surface;
A pump body that is provided directly below the float and generates a suction force for sucking floating matter in the vicinity of the liquid surface;
A floating substance removing apparatus including a floating substance suction unit, and connected to the pump main body and the float, and a suction member separate from the float.   The suspended matter removing apparatus according to claim 1, wherein a central axis extending in a vertical direction of the float substantially coincides with a central axis extending in a vertical direction of the pump body. The float is provided on a central axis of the float, and includes a liquid level adjustment unit that adjusts a height position of the float with respect to the floating substance suction unit,
The liquid level adjustment unit is configured to be able to adjust a height position of the floating substance suction part with respect to a liquid level by adjusting a height position of the float with respect to the floating substance suction part. Or the suspended matter removing apparatus according to 2;   The floating matter removing device according to any one of claims 1 to 3, wherein a horizontal size of the float is larger than a horizontal size of the pump body.   The suspended matter removing apparatus according to claim 1, wherein the suction member is formed so as to surround the float in a plan view. The float has a vertically long oval shape, a vertically long oval shape, or a vertically long egg shape in a side view,
The suction member is provided on a side of the float, and is provided with a cylindrical first portion extending in a vertical direction, a lower end of the first portion, and a curved inner surface along the outer surface of the float. A second part having
The suspended matter removing apparatus according to claim 5, wherein a suspended matter flow path is provided between an inner surface of each of the first portion and the second portion and an outer surface of the float.   The floating member according to claim 3, wherein the suction member includes a lower limit position restricting portion that is provided between the pump main body and the float and restricts the downward movement of the float by contacting the float. Object removal device.   The suspended matter removal according to any one of claims 1 to 7, wherein the suction member is provided with a leg portion that is disposed so as to surround the pump body and extends below a lower end of the pump body. apparatus.

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