JP2017202433A - Float-type transfer device of suspended matter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a float-type transfer device of suspended matters that is usable in any place with a greatly enhanced transfer efficiency of scum and can freely change the transfer direction.SOLUTION: A float-type transfer device 1 of suspended matters includes at least two floats 2 that float on the water surface and are connected by a frame 3, a submerged pump 4 supported by a frame 2, a vertical pipe 5 connected to the water delivery port 41 of the submerged pump 4, a nozzle clamp 6 connected to the vertical pipe 5, a horizontal pipe 7 supported by the nozzle clamp 6, and a plurality of nozzles 8 installed on the horizontal pipe 7. The water sucked by the submerged pump 4 is supplied from the water delivery port 41 to a plurality of the nozzles 8 via the vertical pipe 5, the nozzle clamp 6, and the horizontal pipe 7 and is blown out from the nozzles 8.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a floating floating material transfer device, and more specifically, a floating floating material for collecting floating materials such as scum floating in a liquid surface or water in a predetermined direction in a sea, a river, a reservoir, a water tank, or the like. The present invention relates to a transfer device.

  Conventionally, various processing tanks in painting factories, food factories, steel plants, thermal power plants, marine processing plants, machinery factories, etc., and liquid surface floating substances such as scum and oil that float on the surface of the sea or river are collected. As a device for doing this, a liquid surface floating material recovery device is known. As this liquid level floating substance recovery device, the liquid level floating substance flows in from the gate part floated and held in the vicinity of the liquid level, and the separation apparatus arranged outside the processing tank through a recovery pipe connected to this gate part. A configuration in which the recovered liquid surface suspended matter is transferred and separated is known.

  However, in the sea surface suspended matter collection operation using this liquid surface suspended matter collection device, there is a problem that scum floating in the vicinity of the device can be collected, but scum at a distance cannot be collected. . In particular, when the floating scum is a highly viscous oil or the like, there is a problem that the fluidity is poor and the scum cannot be continuously collected.

In order to solve the above problems, a technique disclosed in Patent Document 1 (Japanese Patent No. 3341135) is known.
The technique described in Patent Document 1
“A scum transfer device for transferring a scum by ejecting a spray of pressure fluid, a scum collecting device for collecting the transferred scum to the suction port of the suction tube, and a suction pipe using a jet pump that operates the collected scum by a pressure fluid; The scum removal device, which consists of a scum discharge device that sucks and discharges through the discharge pipe and sends it to the scum storage tank, the pressurized levitation device that separates the pressurized levitation by applying pressurized air dissolved water to the stored scum, and the concentrated scum is dehydrated Is a scum removal / treatment facility comprising a scum treatment device comprising a dehydrating device.
In other words, it is a technique for transferring a floating material such as scum by injecting a “pressure fluid spray”.

However, as shown in Fig. 5, 6 or 9, this technology places a spray nozzle above the water surface, moves this spray nozzle in a specific direction at a position close to the water surface, and identifies floating substances such as scum. There is a problem that the transfer is not possible or the transfer efficiency is poor in an environment where the water surface where the floating substance is floating is undulated and the liquid level fluctuates.
In addition, since this spray nozzle is configured to be mounted on both sides of the scum storage tank, it can be used only in the scum storage tank, and can only move to a predetermined position. Depending on the floating position, there is a problem that it cannot be transferred.

Japanese Patent No. 3341135

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a floating floating material transfer apparatus that can significantly increase the efficiency of scum transfer, can be used anywhere, and can freely change the transfer direction. There is.

The object of the present invention is achieved by the following means.
1. At least two floats floated on the water surface and connected by a frame;
A submersible pump supported by the frame;
It has a vertical pipe connected to the water discharge port of this submersible pump, a nozzle clamp connected to this vertical pipe, a horizontal pipe supported by this nozzle clamp, and a plurality of nozzles provided on this horizontal pipe. And
Water sucked by the submersible pump is supplied to the nozzle from the water discharge port through the vertical pipe, the nozzle clamp and the horizontal pipe, and water is jetted from the nozzle. A floating floating material transfer device.

2. 2. The floating floating material transfer apparatus according to claim 1, wherein the horizontal pipe includes a left horizontal pipe and a right horizontal pipe, and each horizontal pipe is supported by a nozzle clamp so as to freely expand and contract.

3. 3. The floating floating material transfer apparatus according to claim 1, wherein the vertical pipe is composed of an upper vertical pipe and a lower vertical pipe, and is freely stretchable.

4). The floating float transfer device according to any one of claims 1 to 3, wherein the nozzle is configured to change an angle with respect to a horizontal pipe.

5. The horizontal pipe is configured to be freely rotatable with respect to the nozzle clamp, and the water injection direction and angle from the nozzle can be adjusted by rotating the left and right horizontal pipes, respectively. 4. The floating floating material transfer apparatus according to any one of 4 above.

6). The floating floating material transfer apparatus according to any one of claims 1 to 5, further comprising a fastening portion for connecting the operation member.

  According to the first aspect of the present invention, since the entire apparatus floats on the water surface due to the float and the water surface fluctuates due to undulation or the like, the distance between the water surface and the nozzle is kept constant. And the transfer efficiency can be remarkably increased as compared with the conventional technique.

Further, according to the invention shown in the above 1, since the device itself is configured to float on the water surface, a place for installing the device in addition to the water surface is unnecessary and easy to carry. be able to.
Furthermore, since the apparatus itself floats on the water surface and can move freely on the water surface, the floating material transfer direction can be freely changed.

  According to the second aspect of the invention, since the horizontal pipe can be expanded and contracted, the horizontal pipe can be contracted and used when the place to be used is narrow, and when the place to be used is wide, the horizontal pipe can be used. By extending the pipe, it is possible to widen the range for transferring suspended matter such as scum.

  According to the third aspect of the invention, the vertical pipe can be expanded and contracted, and the height position of the nozzle provided in the horizontal pipe can be changed by the expansion and contraction of the vertical pipe. Thereby, the position of a water surface and a nozzle can be adjusted, and the water injection position from a nozzle can be optimized according to the kind, quantity, and characteristic of floating substances, such as a scum.

  According to the fourth aspect of the present invention, the angle of the nozzle provided on the horizontal pipe can be changed, whereby the water injection angle from the nozzle to the floating substance such as scum can be adjusted. it can.

  According to the invention shown in 5 above, since the horizontal pipe is freely rotatable with respect to the nozzle clamp, the direction of the nozzle can be changed to the front side or the back side of the apparatus. In addition, since the left and right horizontal pipes can be rotated individually, it is possible to set the nozzle of one horizontal pipe to the front side of the device and the nozzle of the other horizontal pipe to the back side of the device. It is. That is, the water injection direction from all the nozzles can be one direction on the front side or the back side of the apparatus, and the water injection directions from the nozzles can be reversed by the left and right horizontal pipes.

  According to the invention described in 6 above, the device is provided with a fastening portion for connecting an operation member such as a rope, and the operation member can fix the device, or the device can be moved in an arbitrary manner. it can.

The perspective view showing one Example of the floating type floating material transfer apparatus which concerns on this invention The front view showing one Example of the floating type floating material transfer apparatus which concerns on this invention The top view showing one Example of the floating type floating material transfer apparatus which concerns on this invention The right view showing one Example of the floating type floating material transfer apparatus which concerns on this invention Schematic explanatory drawing showing the usage status of the floating floating material transfer device according to the present invention

  The floating floating material transfer apparatus 1 according to the present invention is used in floating tanks or reservoirs for storing industrial wastewater, floating oil and dirt, floating oil that has flowed into the sea due to maritime accidents, etc. It is a device for transferring suspended matter such as scum in the direction of the recovery device during the operation of recovering floating contaminants (floating matter) or the like with a liquid surface floating matter recovery device (scum recovery device). In other words, the liquid surface floating material collecting device (scum collecting device) plays a role of “dust removal” for collecting scum and the like, whereas the floating type floating material transferring device according to the present invention brings scum and the like together. It plays the role of collecting brooms.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a perspective view showing an embodiment of a floating floating material transfer device (hereinafter also simply referred to as “floating floating material transfer device”) 1 according to the present invention. 2 to 4 are a front view, a plan view, and a right side view showing an embodiment of the floating floating material transfer apparatus 1 according to the present invention. In FIG. 5, the schematic explanatory drawing showing the use condition of the floating type floating material transfer apparatus 1 which concerns on this invention is shown.

  As shown in FIGS. 1 to 4, the floating floating material transfer apparatus 1 includes a float 2, a frame 3, a submersible pump 4, a vertical pipe 5, a nozzle clamp 6, a horizontal pipe 7 and a nozzle 8.

The float 2 is “floating” for floating the floating floating material transfer apparatus 1 to the liquid surface (water surface).
At least two floats 2 are provided. This is to stabilize the posture of the floating floating material transfer apparatus 1 when the float 2 floats on the water surface. 1 to 4, the left float 21 and the right float 22 are arranged in parallel on the left and right, but are not limited to this arrangement. Further, three floats 2 can be provided, and each float 2 can be arranged at the apex of a triangle. Further, four or more floats 2 can be provided.

  There is no limitation on the form and material of the float 2, as long as the buoyancy that can float the floating floating material transfer apparatus 1 to the liquid surface is obtained. If the form of the float 2 is illustrated, as shown in FIGS. 1-4, it is a disk shape shape | molded by lightweight materials, such as a synthetic resin, Comprising: What was filled with urethane etc. hollow or inside is mentioned. it can. Other examples include a ring-shaped body in which air is sealed, such as a floating ring, and a plate-shaped body formed of a lightweight synthetic resin such as a swimming beet board.

The frame 3 is a member for connecting at least two floats 2 and also a member for supporting the submersible pump 4.
In the embodiment shown in FIGS. 1 to 4, the frame 3 includes an upper frame 31 and a lower frame 32. The upper frame 31 is positioned above the float 2 and is configured to connect and hold the left float 21 and the right float 22 from above. On the other hand, the lower frame 32 is located below the float 2 and is configured to connect and hold the left float 21 and the right float 22 from below. That is, the left float 21 and the right float 22 are sandwiched between the upper frame 31 and the lower frame 32.

  As described above, the frame 3 is configured to support the submersible pump 4 by being coupled and fixed thereto. In the embodiment shown in FIGS. 1 to 4, the submersible pump 4 is arranged between the left float 21 and the right float 22 when the floating floating material transfer apparatus 1 is viewed in plan (FIG. 3). In this case, the frame 3 is configured to support the submersible pump 4 at the central portion of the member. Further, since the frame 3 is composed of two members, an upper frame 31 and a lower frame 32, the submersible pump 4 is supported by these two frames 31 and 32.

  There is no limitation on the fixing means between the frame 3 and the submersible pump 4. For example, a means for fixing bolts by using bolt holes in the frame 3 and the submersible pump 4 in advance can be mentioned. Moreover, you may use means, such as welding.

  The submersible pump 4 is a device that sucks water from the water such as a water storage tank and discharges it from the water discharge port 41. The configuration of the submersible pump 4 is not limited, and any submersible pump that is capable of sucking and discharging water from the water may be used, and a publicly known submersible pump can be employed without any particular limitation. Examples of the submersible pump 4 to be used include those having a power of 400 W and a flow rate of 100 L / min, and those having a power of 150 W and a flow rate of 60 L / min.

  The vertical pipe 5 is a pipe that is connected to the water discharge port 41 of the submersible pump 4 and delivers water upward. The form and material of the vertical pipe 5 are not limited, and a publicly known pipe that allows water or liquid to pass therethrough can be used without any particular limitation.

  The vertical pipe 5 is constituted by two pipes, that is, an upper vertical pipe 51 and a lower vertical pipe 52, and the two pipes are preferably configured to be freely stretchable and contracted. With this configuration, the height position of the nozzle 8 can be changed, the water surface and the height position of the nozzle 8 can be adjusted, and depending on the type, amount and characteristics of the suspended matter such as scum, The water injection position can be optimized.

There is no limitation on the configuration for allowing the upper vertical pipe 51 and the lower vertical pipe 52 to freely expand and contract, and a publicly known technique can be employed without any particular limitation. For example, as shown in FIGS. 1 to 4, the upper vertical pipe 51 has a smaller diameter than the lower vertical pipe 52, and the upper vertical pipe 51 can be inserted into the lower vertical pipe 52, that is, a slidable structure. A configuration in which the sliding in the vertical direction is stopped or released using a lock nut (vertical lock nut 53) can be given. The lock nut is a member capable of extending and contracting two pipes by tightening or loosening the lock nut, and the vertical lock nut 53 in the present invention employs a publicly known lock nut without any particular limitation. can do.

  The nozzle clamp 6 is a connection tool that connects the vertical pipe 5 and the horizontal pipe 7 and allows liquid such as water to pass therethrough. The nozzle clamp 6 shown in FIGS. 1 to 4 is substantially T-shaped, and is connected to the vertical pipe 5 at the lower part and to the horizontal pipe 7 at the left and right side parts.

  The horizontal pipe 7 is a pipe that is connected to the left and right side portions of the nozzle clamp 6 and delivers water in the horizontal direction. The form and material of the horizontal pipe 7 are not limited, and a publicly known pipe as a pipe through which water or liquid passes can be employed without any particular limitation.

  The horizontal pipe 7 is composed of two pipes, a left horizontal pipe 71 and a left horizontal pipe 72, and each pipe is preferably configured to be freely expandable and contractable in the horizontal direction. With this configuration, the length of the horizontal pipe 7 and the position of the nozzle 8 in the horizontal direction can be changed. When the place to be used is small, the horizontal pipe 7 can be contracted and used. When the place is wide, the horizontal pipe 7 can be extended to widen the range for transferring floating substances such as scum.

  There is no limitation on the configuration for allowing the left horizontal pipe 71 and the right horizontal pipe 72 to expand and contract freely, and a publicly known technique can be employed without any particular limitation. For example, as shown in FIGS. 1 to 4, the left horizontal pipe 71 and the right horizontal pipe 72 are each composed of two pipes having different diameters, and a small diameter pipe can be inserted and slid into a large diameter pipe. A configuration in which sliding is stopped or released using a lock nut (horizontal lock nut 73) can be given.

Further, if the left horizontal pipe 71 and the right horizontal pipe 72 can be inserted into the nozzle clamp 6, that is, a structure that can slide in the horizontal direction, and a horizontal lock nut 73 is provided on the nozzle clamp 6 side, Using this lock nut (horizontal lock nut 73), sliding in the horizontal direction can be stopped or released.
The horizontal lock nut 73 has the same configuration as that of the vertical lock nut 53 described above, and a publicly known lock nut can be used as the horizontal lock nut 73 in the present invention without any particular limitation.

  The nozzle 8 is provided in the horizontal pipe 7. The water sucked by the submersible pump 4 is supplied from the water discharge port 41 to the nozzle 8 through the vertical pipe 5, the nozzle clamp 6 and the horizontal pipe 7, and water is jetted from the nozzle 8.

  As shown in FIGS. 1 to 4, a plurality of nozzles 8 are provided, and there is no other limitation as long as the number is two or more. In addition, it is preferable that at least one nozzle 8 is provided in each of the left horizontal pipe 71 and the right horizontal pipe 72, and two or more nozzles 8 are provided in each.

  The nozzle 8 is configured to be able to change the angle with respect to the horizontal pipe 7 and preferably can change the water injection direction arbitrarily. Thereby, the water injection angle from a nozzle to floating substances, such as scum, can be adjusted.

The horizontal pipe 7 is preferably rotatable with respect to the nozzle clamp 6. Thereby, the water injection direction and the water injection angle from the nozzle 8 can be adjusted by rotating the left and right horizontal pipes 7 respectively.
According to this structure, the water injection direction of the nozzle 8 can be arbitrarily changed to the front side or the back side of the apparatus. Moreover, since the left and right horizontal pipes 71 and 72 can be individually rotated, the nozzle 8 of one horizontal pipe faces the front side of the apparatus, and the nozzle 8 of the other horizontal pipe is the rear side of the apparatus. It is possible to make a setting such as That is, the water injection direction from all the nozzles 8 can be one direction on the front side or the rear side of the apparatus, and the water injection directions from the nozzles 8 are reversed by the left and right horizontal pipes 71 and 72. You can also.

  The nozzle 8 can also be provided in the nozzle clamp 6 as shown in FIGS. 1-4, although the nozzle 8 is attached toward the back of an apparatus, there is no limitation in the attachment direction, You may attach toward the front. Further, the nozzles 8 may be attached to both the front side and the rear side. In this case, it is preferable that the nozzles 8 be configured to be able to be opened or closed, and water is jetted only in one direction as necessary.

The floating floating material transfer apparatus 1 is preferably provided with a fastening portion 9 for connecting an operation member such as a rope. The floating floating material transfer device 1 can be fixed by an operation member such as a rope, or can be moved by an arbitrary method.
Although there is no limitation in the attachment position, form, etc. of the fixation part 9, the eyenut provided in the attachment position of the float 2 with respect to the flame | frame 3 can be used as FIG.

The use state of the floating floating material transfer apparatus 1 will be described with reference to FIG.
FIG. 5 is a schematic explanatory diagram showing a state in which the floating floating material transfer apparatus 1 is used in a liquid layer such as a water storage tank.

  In FIG. 5, the floating floating material transfer apparatus 1 is in a state of floating on the water surface W. The floating floating material transfer apparatus 1 is configured to eject a liquid such as water sucked by a submersible pump 4 from a nozzle 8. The injection direction of the injected water J is indicated by an arrow. The jet water J is jetted against a floating substance S such as scum that floats on the water surface W.

  In this way, the jet water J is jetted from the nozzle 8 to the floating substance S such as scum, whereby the floating substance S such as scum can be transferred in a predetermined direction by the water flow. In FIG. 5, the floating floating material transfer device 1 is floated and jet water J is sprayed so as to transfer the floating material S such as scum toward the floating material recovery device C. If the suspended matter S such as scum is gathered in the vicinity of the suspended matter collection device C, the collection efficiency of the suspended matter S such as scum by the suspended matter collection device C can be increased.

  Moreover, since this floating substance S is grind | pulverized by injecting a strong water flow (jet water J) with respect to the floating substance S which the surface dried, collection | recovery efficiency of the floating substance S by the floating substance collection | recovery apparatus C is further provided. Can be increased.

If the floating floating material transfer device 1 is used, the liquid level such as pollutants floating on the water surface due to spilled oil or algae in the sea, rivers, lakes or ponds, scum floating in the water tank of industrial wastewater in factories, etc. It is possible to transfer the suspended matter floating in the predetermined direction, and it can be used for assisting the recovery operation and increasing the recovery efficiency.
In addition, the field of use of the floating floating material transfer apparatus 1 according to the present invention is not limited, and can be used for, for example, floating substance transfer in a lake or the like, and can be remotely operated by loading a wireless device or the like. .

DESCRIPTION OF SYMBOLS 1 Floating type floating material transfer device 2 Float 21 Left side float 22 Right side float 3 Frame 31 Upper frame 32 Lower frame 4 Submersible pump 41 Water discharge port 5 Vertical pipe 51 Upper vertical pipe 52 Lower vertical pipe 53 Vertical lock nut 6 Nozzle clamp 7 Horizontal pipe 71 Left horizontal pipe 72 Right horizontal pipe 73 Horizontal lock nut 8 Nozzle 9 Fastening part J Spray water W Water surface S Floating substance C Floating substance recovery device

The object of the present invention is achieved by the following means.
1. At least two floats floated on the water surface and connected by a frame;
A submersible pump supported by the frame;
It has a vertical pipe connected to the water discharge port of this submersible pump, a nozzle clamp connected to this vertical pipe, a horizontal pipe supported by this nozzle clamp, and a plurality of nozzles provided on this horizontal pipe. And
The water sucked by the water pump, the riser pipe from the water discharge port, the supplied to the nozzle through the nozzle clamp and the horizontal pipe, a configuration in which water is injected from the nozzle, the horizontal pipe The floating floating material transfer apparatus is configured by a left horizontal pipe and a right horizontal pipe, and each horizontal pipe is supported by a nozzle clamp so as to freely expand and contract .

2 . 2. The floating floating material transfer apparatus according to claim 1, wherein the vertical pipe is constituted by an upper vertical pipe and a lower vertical pipe, and is freely stretchable.

3 . The floating floating material transfer apparatus according to claim 1 or 2 , wherein the nozzle is configured to change an angle with respect to a horizontal pipe.

4 . The horizontal pipe is configured to be freely rotatable with respect to the nozzle clamp, and the water injection direction and angle from the nozzle can be adjusted by rotating the left and right horizontal pipes, respectively. 4. The floating floating material transfer apparatus according to any one of 3 above.

5 . The floating floating material transfer apparatus according to any one of claims 1 to 4 , further comprising a fastening portion for connecting the operation member.

Claims (6)

At least two floats floated on the water surface and connected by a frame;
A submersible pump supported by the frame;
It has a vertical pipe connected to the water discharge port of this submersible pump, a nozzle clamp connected to this vertical pipe, a horizontal pipe supported by this nozzle clamp, and a plurality of nozzles provided on this horizontal pipe. And
Water sucked by the submersible pump is supplied to the nozzle from the water discharge port through the vertical pipe, the nozzle clamp and the horizontal pipe, and water is jetted from the nozzle. A floating floating material transfer device.   2. The floating floating material transfer apparatus according to claim 1, wherein the horizontal pipe includes a left horizontal pipe and a right horizontal pipe, and each horizontal pipe is supported by a nozzle clamp so as to freely expand and contract.   3. The floating floating material transfer apparatus according to claim 1, wherein the vertical pipe is composed of an upper vertical pipe and a lower vertical pipe, and is freely stretchable.   The floating float transfer device according to any one of claims 1 to 3, wherein the nozzle is configured to change an angle with respect to a horizontal pipe.   The horizontal pipe is configured to be freely rotatable with respect to the nozzle clamp, and the water injection direction and angle from the nozzle can be adjusted by rotating the left and right horizontal pipes, respectively. 4. The floating floating material transfer apparatus according to any one of 4 above.   The floating floating material transfer apparatus according to any one of claims 1 to 5, further comprising a fastening portion for connecting the operation member.