JP4881815B2 - Sand collector - Google Patents

Description

  The present invention relates to a sand basin facility such as a sewage treatment plant and a pumping station, and more particularly to a sand collecting device for injecting pressure water to sand settling at the bottom of a sand basin and transferring the sand to a sand collecting pit. .

  Conventionally, in sewage treatment plants and pump stations, sand basin facilities are installed to remove sand contained in the water. In this settling basin facility, the settling sand deposited at the bottom of the settling basin is transferred to a sand collecting pit by a sand collecting device. The sand collecting device is provided with a sand collecting nozzle, jets pressure water from the sand collecting nozzle to the sand settling at the bottom of the sand basin, and transfers the pressure water to the sand collecting pit by the water flow and water pressure. Then, the sand collected in the sand collecting pit is discharged out of the sand basin together with water by a sand pump (sand pump).

  In the sand collecting device, the settling sand can be moved by the pressure water sprayed from the sand collecting nozzle. However, in the conventional sand collecting device, because the distance between the sand collecting nozzles is long, the pressure cannot reach the pressure of the injected pressure water. A large amount of water was required to transport the settling sand. In order to apply the pressure water pressure sprayed from the sand collecting nozzle to the entire flow path, it is necessary to shorten the nozzle interval.

  In the above-described sand collecting device that jets pressure water from the nozzle, the bottom shape of the sand basin is classified into three types: a flat gradient, a flat step, and a trough. The trough type is commonly used because it has better sand collection efficiency than the flat type gradient and flat type stepped shape, but a large number of troughs parallel to the pond bottom are made of steel plates filled with concrete or mortar. There is a drawback that the workability is poor because of the formation.

  FIG. 14 is a view showing a conventional trough type sand collecting device, FIG. 14 (a) is a schematic sectional view showing a typical example of a pressure water pipe embedded type sand collecting device, and FIG. 14 (b) is a hanging nozzle. It is a schematic sectional drawing which shows the typical example of a type sand collecting apparatus.

As shown in FIG. 14 (a), the pressure water pipe buried type sand collecting device has a pressure water pipe 101 buried under the foundation surface (bottom plate) of the parallel partition walls 100 formed of concrete or steel plate. In this structure, pipes 102 are set up at predetermined intervals from the water pipe 101, and a sand collecting nozzle 103 is provided at the tip of each pipe 102.
As shown in FIG. 14 (b), the suspended nozzle type sand collecting device is provided with a pressure water pipe 111 above the parallel partition walls 100 formed of concrete or steel plate, and below the pressure water pipe 111 and A large number of pipes 112 extending in the lateral direction are provided, and a sand collecting nozzle 113 is provided at the tip of each pipe 112.

JP 2001-129313 A JP 2002-282609 A

  In the conventional pressure water pipe buried type sand collecting device as shown in FIG. 14 (a), the sand collecting nozzle is installed on the bottom plate of the sand settling channel. If the interval between the nozzles is shortened, there is a problem that the nozzle at the bottom of the sand settling channel hinders the transfer of sand. In addition, there is a problem that the pressure water jetted from the nozzle hits the nozzle in front and the distance over which the pressure of the jetted pressure water acts becomes short.

  On the other hand, in the conventional suspended nozzle type sand collecting device as shown in FIG. 14B, a large number of pipes are extended from the pressure water pipe at the upper part of the sand basin and connected to the nozzles in the sand settling channel. As a result, the total number of pipes increases, the number of pipe supports to support these pipes increases, and there is a problem of frequent entanglement of foreign matter, and it also hinders maintenance work such as inspection and replacement in the sand basin. There is a problem of becoming. If the interval between nozzles is shortened to increase the number of nozzles, these disadvantages become more prominent, and therefore there is a problem that the interval between nozzles cannot be shortened.

In addition to the sand collecting devices shown in FIGS. 14 (a) and 14 (b), the following problems are listed as common problems of conventional sand collecting devices.
(1) The sand settling channel is a trough made of steel plate or concrete molded with a mortar-filled bottom surface. Generally, the inside of the sand settling basin is in a corrosive environment. There is a risk of damage. And when it breaks, much time and expense are required for repair and replacement | exchange of a sand flow path.
(2) Since it is necessary to install the sand collecting pit at a lower level than the sand settling channel, a large amount of filler such as mortar is required to raise the sand settling channel. Moreover, as a result of raising the sedimentation channel, the cross-sectional area of the sedimentation basin channel is reduced, the flow velocity in the sedimentation basin is increased, and sedimentation of the sand is prevented.
(3) The sand collection transferred into the sand collection pit by the pressure water jetted from the sand collection nozzle flows into another sand settling channel not jetting the pressure water, and sand collection efficiency is lowered.
(4) In order to make the level (height) of the sand settling channel higher than the level (height) of the sand collecting pit, it is necessary to raise the sand settling channel, and a large amount of mortar needs to be filled. And by raising the sediment flow path, the cross-sectional area of the sedimentation basin channel is reduced, and as a result, the flow velocity in the sedimentation basin is increased and the sedimentation of the sand is prevented.

  The present invention solves various problems of the conventional sand collecting device described above, and can arrange sand collecting nozzles at short intervals in the sand settling channel, enabling sand collection with a small amount of water, and a sand settling basin Since the pressure water piping is not buried under the bottom plate of the pipe, workability is good, and since there are few pipes and pipe supports that block the sand flow path, tangling of foreign substances can be minimized and maintenance work is easy An object of the present invention is to provide a sand collecting device.

In order to achieve the above-mentioned object, one aspect of the present invention is a sand collecting apparatus for transferring the sand settling on the pond bottom of the sand settling basin to the sand collecting pit by injecting pressure water into the sand settling channel. A trough that constitutes a plurality of sand settling channels installed in parallel with each other above the foundation surface, a pressure water pipe installed in parallel with and adjacent to the trough, and the pressure water pipe from the inside of the sand settling channel A plurality of sand collecting nozzles extending to the bottom, and the pressure water pipe and the plurality of sand collecting nozzles are located above a bottom surface of the sand settling channel, and the plurality of sand collecting nozzles are disposed within the sand settling channel. The pressure water piping is arranged between adjacent troughs, a partition wall is provided so as to straddle adjacent troughs, and the pressure water piping is covered by the partition wall. It is characterized by this.

  According to the present invention, the pressure water piping is not embedded under the foundation surface of the sand basin, so that the workability is very good, and since there are few pipes and piping supports that block the sand sediment flow path, the tangle of foreign matter is minimized. And there is no hindrance to work and movement in the pond. Moreover, since the pressure water piping is disposed adjacent to the trough and the plurality of sand collecting nozzles extending from the pressure water piping into the sand settling channel are provided, the sand collecting nozzles can be disposed at short intervals. As a result, the pressure water jetted from one nozzle effectively acts on the sand settling in some areas of the sand settling channel while maintaining a high pressure, and the action reaches the settling sand throughout the channel by a plurality of nozzles. Therefore, a large amount of water is not required for the entire length of the flow path, and sand collection can be performed with a small amount of water.

According to the present invention, since the pressure water pipe is installed in the partition wall that forms a part of the sand settling channel, the pipe and support installed in the sand settling basin even if the sand collecting nozzles are arranged at short intervals. And there are few foreign objects entangled. In addition, it does not hinder the work in the sand basin.

  According to a preferred aspect of the present invention, the pressure water pipe is installed between adjacent troughs, and the partition wall has a mountain-shaped cross section having a high top and low both ends, and straddles adjacent troughs. It is characterized by being installed as follows.

  According to a preferred aspect of the present invention, the pressure water pipe and the sand collecting nozzle are connected via a pressure water branch pipe, and the pressure water branch pipe protrudes into the sand settling channel from at least one surface of the partition wall. It is characterized by that.

According to a preferred aspect of the present invention, a liner plate made of a thin plate is provided on the trough bottom plate constituting the trough.
According to the present invention, it is possible to easily cope with wear and corrosion of the flow path by installing a liner plate that can be easily replaced on the trough bottom plate forming the sand settling flow path. In addition, since the trough bottom plate is covered with a liner plate, the trough bottom plate is not afraid of wear, and the thickness of the trough bottom plate can be reduced. In addition, lightweight and good workability materials such as resin can be used. .

According to a preferred embodiment , the end of the trough can be opened only on the sand collecting pit side so that the sand settling in the sand collecting pit does not flow back into the trough at the connecting portion to the sand collecting pit. A check plate is provided .
According to the above-described embodiment , the reverse of the trough is configured to open the flow path by the water pressure and the water flow injected at the sand collection pit side end of the trough, that is, at the end of the sand collection flow path at the sand collection pit side. By providing the stop plate, it is possible to prevent the reverse flow of the sand settling from the sand settling channels facing each other across the sand collecting pit. Further, since the check plate constitutes the wall surface of the sand collecting pit, it is not necessary to provide the sand collecting pit at a lower level than the sand settling channel, and it is not necessary to raise the sand settling channel. Therefore, the mortar filling amount can be reduced, the flow velocity in the sand basin can be lowered, and the sedimentation of sand can be promoted.

According to a preferred embodiment , the trough is inclined upward toward the sand collecting pit .
According to the said Example , it is comprised so that the sedimentation flow path which consists of troughs may become an upward slope toward a sand collection pit. By making the sand settling channel ascending in this way, it is not necessary to raise the sand settling channel on the left and right ends of the trough (opposite the sand collecting pit), and the mortar filling amount can be reduced. At the same time, the flow velocity in the sand basin can be lowered.

According to a preferred embodiment, the tip of the sand collecting nozzle is oriented in the direction in which the trough extends and is directed downward relative to the horizontal.
According to the above-described embodiment , the tip of the sand collecting nozzle ejects the pressure water obliquely downward, so that the sand collecting efficiency is improved with a small amount of water, and the upper surface of the trough bottom plate or liner plate is kept clean. be able to.

According to another aspect of the present invention, there is provided a sand collecting apparatus for transferring the sediment deposited on the bottom of the sedimentation basin to the sand collection pit by injecting pressure water to the trough installed above the foundation surface of the sand basin. A pressure water pipe installed in the trough and in parallel with the trough, and a plurality of sand collecting nozzles extending from the pressure water pipe into the trough, the plurality of sand collecting nozzles inner are spaced at, the pressure water pipe, it is characterized in that it has placed on top had higher end portions of the cross section of the lower mountain-shaped deposition preventive cover.

  According to the present invention, since the pressure water piping is not embedded under the foundation surface of the sand basin, the workability is extremely good, and since there are no many pipes or piping supports that block the sand sediment flow path, the entanglement of foreign matter is minimized. And there is no hindrance to work and movement in the pond. In addition, because the pressure water piping is arranged in the trough and a plurality of sand collecting nozzles extending from the pressure water piping into the trough are provided, the sand collecting nozzles can be arranged at short intervals, and sand collection is performed with a small amount of water. Can do.

According to the present invention, since the pressure water pipe is installed in the accumulation prevention cover that forms a part of the sand settling channel, the pipe installed in the sand settling basin even if the sand collecting nozzles are arranged at short intervals. And support is low, and foreign objects are rarely tangled. In addition, it does not hinder the work in the sand basin.

  According to a preferred aspect of the present invention, a support for supporting the pressure water pipe is provided, and the accumulation prevention cover has a mountain-shaped cross section having a high top and low both ends, and both ends of the accumulation prevention cover. The portion is fixed to the support.

According to a preferred aspect of the present invention, the pressure water pipe and the sand collecting nozzle are connected via a pressure water branch pipe, and the pressure water branch pipe protrudes from one surface of the support into the trough. To do.
According to a preferred embodiment , the end of the trough can be opened only on the sand collecting pit side so that the sand settling in the sand collecting pit does not flow back into the trough at the connecting portion to the sand collecting pit. A check plate is provided .
According to the above-described embodiment , the reverse of the trough is configured to open the flow path by the water pressure and the water flow injected at the sand collection pit side end of the trough, that is, at the end of the sand collection flow path at the sand collection pit side. By providing the stop plate, it is possible to prevent the reverse flow of the sand settling from the sand settling channels facing each other across the sand collecting pit. Further, since the check plate constitutes the wall surface of the sand collecting pit, it is not necessary to provide the sand collecting pit at a lower level than the sand settling channel, and it is not necessary to raise the sand settling channel. Therefore, the mortar filling amount can be reduced, the flow velocity in the sand basin can be lowered, and the sedimentation of sand can be promoted.

According to a preferred embodiment, the tip of the sand collecting nozzle is oriented in the direction in which the trough extends and is directed downward relative to the horizontal.
According to the above-described embodiment , the tip of the sand collecting nozzle ejects the pressure water obliquely downward, so that the sand collecting efficiency is improved with a small amount of water, and the upper surface of the trough bottom plate or liner plate is kept clean. be able to.

The present invention has the following effects.
(1) Since pressure water piping is not embedded under the foundation surface of the sand basin, workability is extremely good, and since there are few pipes and pipe supports that block the sand flow channel, the entanglement of foreign matter should be minimized. And there is no hindrance to work or movement in the pond. Moreover, since there are few structures, such as a piping support in which filth tends to adhere, the sanitary condition of the work in a pond is also improved.
(2) Since the pressure water piping is arranged adjacent to the trough and a plurality of sand collecting nozzles extending from the pressure water piping into the sand settling channel are provided, the sand collecting nozzles can be arranged at short intervals, and the amount of water is small. Sand collection can be performed.
(3) By providing an easily replaceable liner plate on the trough bottom plate constituting the trough, it is possible to easily cope with wear and breakage of the sand settling channel. In addition, since the portion that comes into contact with the settling sand is a liner plate, the bottom plate has no fear of wear, and the thickness of the bottom plate can be reduced, or an inexpensive, lightweight and workable material such as resin can be used for the bottom plate. .
(4) Since the check plate provided at the end of the trough forms the sand collecting pit wall, it is not necessary to place the sand collecting pit at a lower level than the sand settling channel, so the sand settling channel is raised with mortar etc. This eliminates the need to maintain the cross-sectional area of the sand basin channel and greatly reduces the mortar construction on the bottom surface of the sand basin channel.
(5) Since the check plate provided at the end of the trough opens the flow path by the pressure / flow of the pressure water sprayed from the sand collecting nozzle and closes the other, the pressure in the other sand settling flow path It is possible to prevent backflow of sedimentation caused by water injection and backflow of sedimentation caused by injection of pressure water from a sand collection nozzle in the sand collection pit.

Hereinafter, an embodiment of a sand collecting device according to the present invention will be described with reference to FIGS. 1 to 13.
1 and 2 are views showing an embodiment of a sand collecting device according to the present invention, FIG. 1 is a longitudinal sectional view showing a sand settling basin and a sand collecting device, and FIG. 2 is a main part of the sand collecting device. FIG.
As shown in FIG. 1, the sand basin 1 is formed in a substantially box shape from concrete or the like, and the bottom of the sand basin 1 is formed flat. The upper surface of the bottom of the sand basin 1 constitutes a foundation surface 1a. A trough bottom plate 2 made of a steel plate or a resin plate is laid on the foundation surface 1 a of the sand basin 1. The trough bottom plate 2 is provided with a plurality of troughs 3 arranged in parallel and adjacent to each other, and the upper ends of the adjacent troughs 3 are connected by a flat connecting portion 4. Each trough 3 constitutes a sand settling channel for flowing sand settling in the sand settling basin 1.

  In addition, a pressure water pipe 5 is disposed on a connecting portion 4 that connects adjacent troughs 3. The pressure water pipe 5 is located above the bottom surface of the trough 3. Each pressure water pipe 5 has a mountain-shaped (triangular) cross section and is covered with a partition wall 6 made of a steel plate or a resin plate. The partition wall 6 is installed between the troughs 3 and 3 adjacent to each other. The partition wall 6 also has a function as a rectifying plate for rectifying the flow. Each partition wall 6 has a mountain-shaped cross section with a high top and low both ends, and is installed so as to straddle adjacent troughs 3 and 3.

  As shown in FIG. 2, both lower ends of the partition wall 6 are fixed to the trough bottom plate 2 with bolts 7 and nuts 8. The pressure water pipe 5 is provided with a pressure water branch pipe 9 at predetermined intervals. Each pressure water branch pipe 9 extending from the pressure water pipe 5 installed in the partition wall 6 protrudes from the one surface of the partition wall 6 toward the sand settling channel, and a sand collecting nozzle 10 is attached to the tip of each pressure water branch pipe 9. ing. The sand collecting nozzle 10 is located above the bottom surface of the trough 3. Each trough 3 is provided with a liner plate 12 made of a thin steel plate or the like so as to cover the upper surface of the trough 3. The liner plate 12 is bent so that the central portion has a substantially V-shaped cross section.

  In FIG. 2, the liner plate 12 is fixed to the trough bottom plate 2 by bolts 7 and nuts 8 for fixing the partition wall 6 to the trough bottom plate 2, but the liner plate 12 is dedicated to the trough bottom plate 2. A dedicated bolt or nut may be provided for fixing to the head. When the liner plate 12 is fixed to the trough bottom plate 2 using dedicated bolts and nuts, there is an advantage that the liner plate 12 can be detached from the trough bottom plate 2 independently.

  As described above, by installing the easily replaceable liner plate 12 on the trough bottom plate 2 forming the sand settling channel, it is possible to easily cope with wear and corrosion of the channel. In addition, since the trough bottom plate 2 is covered with the liner plate 12, the trough bottom plate 2 is free from wear, and the thickness of the trough bottom plate 2 can be reduced. Good materials can also be used. Further, the liner plate 12 is bent so that the fold line extends in the direction of the sand collection pit, thereby forming a V-shape on the plate, and giving directionality to the transfer of the sedimentation. Since it is less dispersed and the bottom cross-sectional area of the sand settling channel is reduced, the flow velocity at the bottom of the sand settling channel is increased, and sand collection efficiency is improved.

  3 is a cross-sectional view taken along the line III-III in FIG. 1 and is a side cross-sectional view of the sand settling channel. As shown in FIG. 3, two trough bottom plates 2 are installed on the left and right in the sand basin 1, and a sand collecting pit 15 is installed between the two trough bottom plates 2 and 2. A plurality of troughs 3 shown in FIGS. 1 and 2 are formed in parallel on each trough bottom plate 2. Each pressure water branch pipe 9 extending from the pressure water pipe 5 installed in the partition wall 6 protrudes from the one surface of the partition wall 6 toward the sand settling channel, and a sand collecting nozzle 10 is attached to the tip of each pressure water branch pipe 9. It has been. As shown in FIG. 3, the tip of the sand collecting nozzle 10 installed in the left trough 3 is directed to the right side and slightly downward with respect to the horizontal, and the sand collecting nozzle 10 supplies pressure water to the right and It is designed to spout diagonally downward. The tip of the sand collecting nozzle 10 installed in the right trough 3 is directed to the left side and slightly downward with respect to the horizontal, and the sand collecting nozzle 10 ejects the pressure water leftward and obliquely downward. ing. Thus, since the tip of the sand collecting nozzle 10 ejects the pressure water obliquely downward, the sand collecting efficiency can be improved with a small amount of water, and the upper surface of the bottom plate or liner plate can be kept clean. .

  As shown in FIG. 2 and FIG. 3, the nozzle at the bottom of the sand settling channel that has conventionally hindered the transfer of the sand set and the nozzle injection pressure by protruding the sand collecting nozzle 10 from the partition wall 6 on the side surface of the sand settling channel. The sand collecting nozzles 10 can be arranged at short intervals. In addition, since the pressure water pipe 5 is installed in the partition wall 6 that forms a part of the sand settling channel, even if the sand collecting nozzles 10 are arranged at short intervals, Less support, less tangled foreign objects. Moreover, the work in the sand basin 1 is not hindered.

  As shown in FIG. 3, each of the pressure water pipes 5 accommodated in the partition wall 6 is connected to a pressure water pipe 5 v extending at one end in the longitudinal direction, and the pressure water is supplied from the pressure water pipe 5 v to the inside of the partition wall 6. The pressure water pipe 5 is supplied. The other end of each pressure water pipe 5 is closed by a closing plate (not shown).

  Further, as shown in FIG. 3, a check plate 16 is disposed on the most downstream side of each trough 3. The check plate 16 is fixed to the upper end of the partition wall 6 by a hinge or the like so that it can be opened and closed only on the sand collecting pit side. That is, when the pressure water is ejected from the sand collecting nozzle 10, the check plate 16 is opened (left check plate in FIG. 3), and when the pressure water is not ejected from the sand collecting nozzle 10, the check plate is opened. Reference numeral 16 is closed (the check plate on the right side in FIG. 3).

  As described above, at the most downstream of each trough 3, that is, at the end of each sand settling channel on the side of the sand collecting pit, the channel is opened by the water pressure and water flow injected when the sand collecting nozzle 10 is jetted. By providing the check plate 16, it is possible to prevent the reverse flow of the sand settling from the sand settling channels facing each other across the sand collecting pit 15. Further, since the check plate 16 constitutes the wall surface of the sand collecting pit 15, it is not necessary to provide the sand collecting pit at a lower level than the sand settling channel, and it is not necessary to raise the sand settling channel. Therefore, the mortar filling amount can be reduced, the flow velocity in the sand settling basin 1 can be lowered, and the sedimentation of sand can be promoted.

4 and 5 are plan views of the sand basin. FIG. 4 is a plan view showing a sand basin provided with a sand collecting device in which a check plate is not installed on the most downstream side of the trough. FIG. 5 is a plan view showing a sand basin equipped with a sand collecting device in which a check plate is installed on the most downstream side of the trough.
As shown in FIGS. 4 and 5, in the rectangular sand basin 1, two trough bottom plates 2 are installed on the left and right, and a sand collecting pit 15 is installed between the two trough bottom plates 2, 2. A plurality of troughs 3 shown in FIGS. 1 and 2 are formed in parallel on each trough bottom plate 2. A plurality of sand collecting pits 18 for sand collecting pits are arranged at both ends of the sand collecting pit 15, and pressure water is jetted from each sand collecting nozzle 18 to lift the sand settling in the sand collecting pit 15. It is designed to be transferred to the vicinity of the nozzle of a sand machine (lifting pump). The difference between the sand collecting device and the sand basin shown in FIG. 4 and the sand collecting device and the sand basin shown in FIG. 5 is only the presence or absence of the check plate 16, and the other configurations are the same.

  FIG. 6 is a side view of the sand basin. As shown in FIG. 6, the sand settling channel composed of the trough 3 is configured to rise upward toward the sand collecting pit 15. By making the sand settling channel ascending in this way, it is not necessary to raise the sand settling channel on the left and right ends of the trough 3 (on the side opposite to the sand collecting pit 15), and the mortar filling amount can be reduced. And the flow velocity in the sand basin can be lowered.

Next, specific modes of the sand collecting device shown in FIGS. 1 to 6 will be described below.
As shown in FIGS. 4 and 5, the troughs 3 and the partition walls 6 are installed at a pitch of 400 mm to 600 mm so as to divide the width direction of the sand settling basin 1 to form parallel sand settling channels. The ascending slope of the sand settling channel is preferably 3 ° or less. A plurality of sand collecting nozzles 10 having a nozzle diameter of 5 to 8 mm are arranged in each sand settling channel at a pitch of 500 mm to 800 mm. As shown in FIGS. 1 to 5, the sand collecting nozzle 10 protruding from the partition wall 6 is disposed in one side of the sand settling channel separated by the partition wall 6. The sand collecting nozzle 10 may be disposed in the sand settling channels on both sides of the partition wall 6. When the sand collecting nozzle 10 is disposed in the sand settling channels on both sides, the number of partition walls for accommodating the pressure water pipes 5 can be halved. .

  In the sand collecting apparatus shown in FIGS. 1 to 6, pressure water of 0.1 to 0.4 MPa is sprayed from the sand collecting nozzle 10 for 10 to 40 seconds for each sand settling channel, and the accumulated sand is transferred to the sand collecting pit 15. To do. The same process is sequentially performed in all the sand settling channels. Next, pressure water is jetted from the sand collecting nozzle 18 in the sand collecting pit 15 to transfer the sand sediment to the vicinity of the nozzle of the sand raising machine (sand raising pump). Note that the gap between the trough bottom plate 2 and the pond body is preferably filled with mortar, sand, resin, or the like in order to prevent sludge and sedimentation.

7 and 8 are views showing another embodiment of the sand collecting device according to the present invention. FIG. 7 is a longitudinal sectional view showing the main part of the sand collecting device, and corresponds to FIG. 8A is a cross-sectional view taken along line VIIIA-VIIIA in FIG. 7, and FIG. 8B is a cross-sectional view taken along line VIIIB-VIIIB in FIG.
As shown in FIGS. 7 and 8, a plurality of trough pedestals 21 made of grooved steel are installed on the foundation surface 1 a of the sand basin 1 at a predetermined interval. On the trough base 21, a plurality of pairs of brackets 22a and 22b are fixed. A plurality of brackets 22a and 22b forming a pair are installed at a predetermined interval in the direction in which the trough support 21 extends. A trough bottom plate 23 made of a steel plate or a resin plate is fixed to each pair of brackets 22a and 22b. Each trough bottom plate 23 is bent so as to have a substantially V-shaped cross section, and each trough bottom plate 23 forms a trough constituting a sand settling channel.

A support base 24 is fixed between adjacent trough bottom plates 23, and a pressure water pipe 25 is disposed on the support base 24. Each pressure water pipe 25 has a mountain-shaped (triangular) cross section and is covered with a partition wall 26 made of a steel plate or a resin plate. Both lower ends of the partition wall 26 are fixed to the brackets 22 a and 22 b together with the trough bottom plate 23 by bolts 7 and nuts 8. The pressure water pipe 25 is provided with a pressure water branch pipe 29 at predetermined intervals. Each pressure water branch pipe 29 extending from the pressure water pipe 25 installed in the partition wall 26 protrudes from the one surface of the partition wall 26 toward the sand basin channel, and a sand collecting nozzle 30 is provided at the tip of each pressure water branch pipe 29. It is attached.
In the sand collecting device shown in FIGS. 7 and 8, the trough bottom plate is divided into a plurality of parts. Therefore, the weight of the member can be reduced and the material cost can be reduced as compared with the sand collecting device shown in FIGS. . Other configurations and operational effects are the same as those of the sand collecting device shown in FIGS. 1 and 2.

  FIG. 9 is a view showing still another embodiment of the sand collecting device according to the present invention, and is a longitudinal sectional view showing the main part of the sand collecting device and corresponding to FIG. The sand collecting apparatus of the embodiment shown in FIG. 9 is obtained by removing the partition wall 6 from the sand collecting apparatus of the embodiment shown in FIG. Since the sand collecting apparatus shown in FIG. 9 has no partition wall 6, the pressure water pipe 5 is exposed, but the other configuration is the same as that of the sand collecting apparatus shown in FIG. Since the sand collecting apparatus shown in FIG. 9 has a simple structure, construction is easy and material costs can be reduced.

  12 and 13 are views showing still another embodiment of the sand collecting device according to the present invention, and are longitudinal sectional views showing the main part of the sand collecting device and corresponding to FIG. The sand collecting device of the embodiment shown in FIGS. 12 and 13 is obtained by removing the pressure water pipe 5 of the sand collecting device of the embodiment shown in FIG. 2 and providing the partition wall 6 with the same function as the pressure water pipe 5. is there. That is, the partition wall 6 serves as a pressure water header instead of the pressure water pipe. The partition wall 6 has a triangular cross section (FIG. 12) or a square cross section (FIG. 13). The pressure water branch pipe 9 connected to the side surface of the partition wall 6 protrudes above the trough, and the sand collecting nozzle 10 is provided at the tip of the branch pipe. This is the same as the embodiment described above. In the sand collecting device shown in FIGS. 12 and 13, a trough is formed by the trough bottom plate 2 and the steel strip 50 on the trough bottom plate 2. The steel strip 50 also serves as a mounting seat for the partition wall 6. The sand collecting device shown in FIG. 13 includes a deposition prevention cover 46 for preventing sedimentation on the partition wall 6. The deposition prevention cover 46 has a mountain-shaped cross section having a high top and low both ends, and both ends of the deposition prevention cover 46 are fixed to the partition wall 6. Other configurations are the same as the sand collecting apparatus shown in FIG. Since the sand collecting device shown in FIGS. 12 and 13 has a simple structure, construction is easy and the same sand collecting effect as the sand collecting device shown in FIG. Further, the liner plate can be installed in the sand settling channel, or a check plate can be provided on the sand collecting pit side of the trough.

10 and 11 are views showing still another embodiment of the sand collecting device according to the present invention. FIG. 10 is a longitudinal sectional view of the sand basin and the sand collecting device, and FIG. 11 is a sectional view taken along line XI-XI in FIG.
The sand basin shown in FIG. 10 is a pond having a smaller scale than the sand basins as shown in FIGS. 1 to 9, and the pond width exceeds 600 mm and is relatively narrow as less than 800 mm. Therefore, a single trough is installed. ing. That is, a trough bottom plate 32 formed by bending a steel plate or a resin plate is installed on the foundation surface 1 a of the sand basin 1. The trough bottom plate 32 is bent so that the central portion has a substantially V-shaped cross section, and the upper portion of the trough bottom plate 32 is bent inward. And the upper both ends of the trough bottom board 32 are being fixed to the side wall of the sand basin 1 with a volt | bolt etc. (not shown). The trough bottom plate 32 forms a single trough, and this trough constitutes a sand settling channel for flowing sand settling in the sand settling basin 1. And in the trough, the pressure water piping 35 is arrange | positioned in parallel with the trough. The pressure water pipe 35 is supported by a support 36. As shown in FIG. 11, the support 36 is supported in a cantilever manner by a support plate 37 provided at the end of the sand basin 1. The pressure water pipe 35 is provided with a pressure water branch pipe 39 at predetermined intervals, and each pressure water branch pipe 39 protrudes from the support surface 36 s of the support 36 toward the bottom of the sand settling channel. A sand collecting nozzle 40 is attached to the tip of each pressure water branch pipe 39. Other configurations and operational effects are the same as those of the sand collecting device shown in FIGS. 1 and 2.

Each of the pressure water pipes 35 is covered with a deposition prevention cover 46 made of a steel plate or a resin plate. The deposition prevention cover 46 has a mountain-shaped cross section with a high top and low ends, and both ends of the deposition prevention cover 46 are fixed to the support 36. Although not shown in FIG. 11, another trough bottom plate is installed so as to face the trough bottom plate 32 shown in FIG. Further, a check valve similar to the check valve shown in FIG. 3 is provided at a connection portion of the end portion of the trough bottom plate 32 to the sand collecting pit 45. The configuration of the sand collecting nozzle 40 is the same as that of the sand collecting nozzle 10 shown in FIGS.
According to the sand collecting device shown in FIG. 10 and FIG. 11, sand corresponding to approximately two troughs can be collected by a set of sand collecting nozzles 40 extending downward from the pressure water pipe 35 and arranged at a predetermined interval.

  Although several embodiments of the present invention have been described so far, it is needless to say that the present invention is not limited to the above-described embodiments, and may be implemented in various forms within the scope of the technical idea.

It is a figure which shows one Embodiment of the sand collecting apparatus which concerns on this invention, and is a longitudinal cross-sectional view of a sand basin and a sand collecting apparatus. It is a longitudinal cross-sectional view which shows the principal part of a sand collecting apparatus. It is the III-III sectional view taken on the line of FIG. 1, and is a figure which shows the side cross section of a sand settling channel. It is a top view which shows the sand basin provided with the sand collecting apparatus which has not installed the non-return plate in the most downstream of the trough. It is a top view which shows the sand basin provided with the sand collecting apparatus which installed the non-return plate in the most downstream of the trough. It is a side view of a sand basin. It is a figure which shows other embodiment of the sand collecting apparatus which concerns on this invention, and is a longitudinal cross-sectional view which shows the principal part of a sand collecting apparatus. 8A is a cross-sectional view taken along line VIIIA-VIIIA in FIG. 7, and FIG. 8B is a cross-sectional view taken along line VIIIB-VIIIB in FIG. It is a figure which shows other embodiment of the sand collecting apparatus which concerns on this invention, and is a figure corresponding to FIG. 2 in the longitudinal cross-sectional view which shows the principal part of a sand collecting apparatus. It is a figure which shows other embodiment of the sand collecting apparatus which concerns on this invention, and is a longitudinal cross-sectional view of a sand settling basin and a sand collecting apparatus. It is the XI-XI sectional view taken on the line of FIG. It is a figure which shows other embodiment of the sand collecting apparatus which concerns on this invention, and is a figure corresponding to FIG. 2 in the longitudinal cross-sectional view which shows the principal part of a sand collecting apparatus. It is a figure which shows other embodiment of the sand collecting apparatus which concerns on this invention, and is a figure corresponding to FIG. 2 in the longitudinal cross-sectional view which shows the principal part of a sand collecting apparatus. It is a figure which shows the conventional trough-type sand collecting apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Sedimentation basin 1a Foundation surface 2,23,32 Trough bottom plate 3 Trough 4 Connection part 5,5v, 25,35,101,111 Pressure water piping 6,26,100 Partition wall 7 Bolt 8 Nut 9,29,39 Pressure water branch Pipe 10, 30, 40, 103, 113 Sand collecting nozzle 12 Liner plate 15, 45 Sand collecting pit 16 Check plate 18 Sand collecting nozzle for sand collecting pit 21 Trough base 22a, 22b Bracket 24 Support base 36 Support 37 Support Plate 46 Deposition prevention cover 50 Steel strip 102, 112 Piping

Claims (7)

In a sand collection device that transports the sediment deposited on the bottom of the sedimentation basin to the sand collection pit by injecting pressure water into the sedimentation channel,
A trough constituting a plurality of sand flow paths installed in parallel with each other above the foundation surface of the sand basin;
Pressure water piping installed in parallel and adjacent to the trough;
A plurality of sand collecting nozzles extending from the pressure water pipe into the sand settling channel,
The pressure water pipe and the plurality of sand collecting nozzles are above the bottom surface of the sand settling channel,
The plurality of sand collecting nozzles are arranged at intervals in the sand settling channel,
A sand collecting device, wherein the pressure water pipe is disposed between adjacent troughs, a partition wall is provided so as to straddle adjacent troughs, and the pressure water pipe is covered by the partition wall. In a sand collection device that transports the sediment deposited on the bottom of the sedimentation basin to the sand collection pit by injecting pressure water into the sedimentation channel,
A trough constituting a plurality of sand flow paths installed in parallel with each other above the foundation surface of the sand basin;
Pressure water piping installed in parallel and adjacent to the trough;
A plurality of sand collecting nozzles extending from the pressure water pipe into the sand settling channel,
The pressure water pipe and the plurality of sand collecting nozzles are above the bottom surface of the sand settling channel,
The plurality of sand collecting nozzles are arranged at intervals in the sand settling channel,
A partition wall is provided between adjacent troughs, the pressure water pipe is installed in the partition wall,
The pressure water pipe is installed between adjacent troughs, and the partition wall has a mountain-shaped cross section with a high top and low both ends, and is installed to straddle adjacent troughs. A sand collecting device. In a sand collection device that transports the sediment deposited on the bottom of the sedimentation basin to the sand collection pit by injecting pressure water into the sedimentation channel,
A trough constituting a plurality of sand flow paths installed in parallel with each other above the foundation surface of the sand basin;
Pressure water piping installed in parallel and adjacent to the trough;
A plurality of sand collecting nozzles extending from the pressure water pipe into the sand settling channel,
The pressure water pipe and the plurality of sand collecting nozzles are above the bottom surface of the sand settling channel,
The plurality of sand collecting nozzles are arranged at intervals in the sand settling channel,
A partition wall is provided between adjacent troughs, the pressure water pipe is installed in the partition wall,
The pressure water pipe and the sand collecting nozzle are connected via a pressure water branch pipe, and the pressure water branch pipe projects into the sand settling channel from at least one surface of the partition wall.   The sand collecting device according to any one of claims 1 to 3, wherein a liner plate made of a thin plate is provided on a trough bottom plate constituting the trough. In the sand collection device that jets the pressure of the sediment deposited on the bottom of the sand basin to the sand collection pit by jetting pressure water,
A trough installed above the foundation surface of the sand basin;
A pressure water pipe installed in the trough and in parallel with the trough;
A plurality of sand collecting nozzles extending into the trough from the pressure water pipe,
The plurality of sand collecting nozzles are arranged at intervals in the trough,
A sand collecting apparatus, wherein the pressure water pipe is installed in a cover for preventing deposition having a mountain-shaped cross section having a high top and low both ends. In the sand collection device that jets the pressure of the sediment deposited on the bottom of the sand basin to the sand collection pit by jetting pressure water,
A trough installed above the foundation surface of the sand basin;
A pressure water pipe installed in the trough and in parallel with the trough;
A plurality of sand collecting nozzles extending into the trough from the pressure water pipe,
The plurality of sand collecting nozzles are arranged at intervals in the trough,
The pressure water pipe is installed in a cover for preventing deposition,
A support for supporting the pressure water pipe is provided, the accumulation prevention cover has a mountain-shaped cross section having a high top and low both ends, and both ends of the accumulation prevention cover are fixed to the support. A sand collecting device characterized by that. The sand collecting apparatus according to claim 6, wherein the pressure water pipe and the sand collecting nozzle are connected via a pressure water branch pipe, and the pressure water branch pipe protrudes from the one surface of the support into the trough. .

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