JP6803052B1 - Liquid transfer switching device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid feed switching device capable of easily installing and removing equipment used for injecting liquid into a pile hole and collecting liquid from the pile hole. When a liquid flows into a liquid flow switching part 1 from a liquid injection hose connection part 12, a flap plate part 15a pushed by the liquid flow closes an opening end portion of a recovery hose connection part 13. When the liquid flows into the liquid flow switching part 1 from the liquid injection hose connection part 14, the flap plate part 15a pushed by the liquid flow closes the opening end of the liquid injection hose connection part 12. It is a feature. [Selection diagram] Fig. 1

Description

The present disclosure relates to, for example, a liquid feed switching device that injects liquid into a pile hole for pile driving and recovers the liquid from the pile hole.

In the case of pile driving in foundation work of buildings, etc., first, the shaft of the pile hole is excavated at the position where the pile driving is performed. If excavation is performed in a place where the geology or soil is not sufficiently hard, the wall surface of the hole in the shaft will easily collapse. Therefore, when the hole is dug to an appropriate depth, a casing is built in the hole or excavation is performed. From the beginning, the casing is built (press-fitted) to prevent the hole wall from collapsing.
Further, when excavating the shaft portion, in addition to the above-mentioned casing construction, for example, an excavation liquid such as a stabilizer, fresh water, or muddy water (hereinafter referred to as an excavation liquid) is injected into the hole, which is desired. Excavation is performed to the depth of (for example, Patent Document 1).
The above excavation liquid is discharged to the outside of the hole when concrete is placed in the hole after excavating the shaft portion and the bottom expansion portion in the hole, building a reinforcing bar, and the like.

FIG. 10 is an explanatory view showing a schematic configuration of a device for injecting excavation liquid into a conventional pile hole. Further, FIG. 11 is an explanatory view showing a schematic configuration of a device for collecting excavated liquid from a conventional pile hole.
The excavated liquid is stored in the liquid storage tank 103 of FIG. The liquid storage tank 103 includes, for example, an electric liquid injection pump 101, and one end of a liquid injection hose 105 is connected to the liquid injection pump 101. The liquid injection hose 105 has a sufficient length to reach the position where the pile hole 104 is provided from the installation position of the liquid storage tank 103.

When excavating the pile hole 104 (shaft portion), the liquid injection pump 101 provided in the liquid storage tank 103 is operated to send the excavated liquid stored in the liquid storage tank 103 to the liquid injection hose 105. To do. At this time, the other end of the liquid injection hose 105 is arranged inside the pile hole 104 being excavated, and the excavated liquid sent from the liquid storage tank 103 by the liquid injection pump 101 is the pile hole 104. It is injected into the inside of.
When the excavation of the pile hole 104 reaches a predetermined depth and an appropriate amount of excavation liquid is injected into the hole, the operation of the injection pump 101 is stopped, and for example, hole bottom treatment, reinforcing bar construction, etc. are performed. ..

When concrete is placed inside the pile hole 104 after the reinforcing bars are built in the hole of the pile hole 104, the recovery pump 102 is installed inside the pile hole 104 as shown in FIG. A recovery hose 106 having one end connected to the recovery pump 102 is installed between the pile hole 104 and the liquid storage tank 103.
The other end of the recovery hose 106 is arranged so that the excavated liquid can be injected into the liquid storage tank 103.

If equipment such as the injection hose 105 becomes an obstacle when collecting the excavated liquid from the inside of the pile hole 104, the liquid is injected before starting the collection of the excavated liquid from the pile hole 104. Remove the equipment used at that time.
The other end of the recovery hose 106 is installed in the liquid storage tank 103, and the recovery pump 102 connected to one end of the recovery hose 106 is arranged in the excavated liquid inside the pile hole 104. In this state, the recovery pump 102 is operated to send the excavated liquid inside the pile hole 104 to the liquid storage tank 103.

Japanese Unexamined Patent Publication No. 2004-308411

When constructing multiple piles in foundation work, the excavation liquid is filled in each pile hole, so a considerable amount of excavation liquid is used, and each pile hole and the excavation liquid are stored in the liquid storage tank. It is necessary to install a hose for injecting liquid between and.
Further, when placing concrete in the pile hole, it is necessary to install a hose for collecting liquid between the pile hole and the liquid storage tank. The above-mentioned liquid storage tank and each pile hole are not always close to each other, and the hose installed between them needs to have a considerable length.
That is, it is necessary to install a liquid injection hose, a liquid recovery hose, etc. of a considerable length in each pile hole, and the time required to remove these hoses, etc. becomes long, so that the labor cost The cost will be high.

This disclosure is made to solve the above problems, and provides a liquid transfer switching device that can easily install and remove equipment used for injecting liquid into a pile hole and collecting liquid from the pile hole. To do.

The liquid feed switching device according to the present disclosure includes a vessel-shaped main body having a bottom surface portion and a plurality of side wall portions, an upper lid portion that closes an opening located above the side wall portion, and switching arranged inside the main body. With a valve
The main body is connected to a tubular first hose penetrating the inside of the main body to the first side wall portion and the second side wall portion arranged to face each other among the plurality of side wall portions. A portion and a second hose connection portion are provided, the upper lid portion includes a tubular third hose connection portion penetrating the upper lid portion, and the switching valve is inside the liquid flow switching portion of the first hose connection portion. A flap plate portion that comes into contact with either the opening end portion arranged in the third hose connection portion or the opening end portion arranged inside the liquid flow switching portion of the third hose connection portion, and the flap plate portion are brought into contact with each other. The liquid flow switching portion of the first hose connection portion includes a support portion that swingably supports between the open end portion of the first hose connection portion and the open end portion of the third hose connection portion. The first hose is connected to the end portion arranged outside, the second hose is connected to the end portion arranged outside the liquid flow switching portion of the second hose connection portion, and the third hose connection portion is connected. When a third hose is connected to an end portion arranged outside the liquid flow switching portion and liquid flows from the first hose into the inside of the liquid flow switching portion via the first hose connecting portion, the said. The flap plate portion pushed by the flow of the liquid closes the open end portion of the third hose connection portion, and the liquid flowing from the first hose connection portion is passed through the second hose connection portion to the second hose. When the liquid flows into the inside of the liquid flow switching portion from the second hose through the second hose connecting portion, the flap plate portion pushed by the liquid flow is the first hose connecting portion. The liquid flowing from the second hose connection portion is sent to the third hose via the third hose connection portion, and the flap plate portion is shaken without using a drive mechanism or a power source. It is characterized by moving.

Further, the switching valve is characterized in that a sheet-shaped or thin plate-shaped packing member is provided on both plate surfaces of the flap plate portion, respectively.

Further, the liquid flow switching portion fixes the main body and the upper lid portion by a mounting fixing portion that makes the upper lid portion removable from the main body, and the switching valve is attached to the outside of the main body by the flap plate portion. It is characterized in that the support portion is configured to be removable from the main body so that the support portion can be taken out.

Further, in the first hose connection portion, the opening end portion arranged inside the liquid flow switching portion becomes vertical with respect to the bottom surface portion of the main body, and in the extending direction of the first hose connection portion. On the other hand, it is characterized in that it is formed so as to be vertical.

Further, the first hose connection portion is formed so that the opening end portion arranged inside the liquid flow switching portion is inclined upward from the bottom surface portion side of the main body toward the upper lid portion side. When the flap plate portion comes into contact with the open end portion of the first hose connection portion, the plate surface of the flap plate portion on the second hose connection portion side moves from the bottom surface portion side of the main body toward the upper lid portion side. It is characterized by an uphill slope.

Further, the first hose is a hose for injecting liquid from the liquid storage tank to the liquid flow switching portion, and the second hose is installed between the liquid flow switching portion and the pile hole. The liquid feeding hose, the third hose is a recovery hose that sends the liquid from the liquid flow switching unit to the liquid storage tank, and the liquid flow switching unit is installed in the vicinity of the liquid storage tank. The length of the first hose and the third hose is shorter than that of the second hose.

According to the present disclosure, it is possible to easily install or remove equipment used for injecting liquid and collecting liquid.

It is sectional drawing which shows the structure of the liquid flow switching part of the liquid feeding switching apparatus by Embodiment 1 of this disclosure. It is explanatory drawing which shows the structure when the upper lid part provided with the liquid flow switching part of FIG. 1 is seen from above. It is explanatory drawing which shows the structure when the switching part main body of FIG. 1 is seen from above. It is explanatory drawing which shows the internal state of the liquid flow switching part of FIG. It is explanatory drawing which shows the internal structure and state of the liquid flow switching part of FIG. It is explanatory drawing which shows the other structure of the liquid flow switching part of the liquid-feeding switching device by Embodiment 1. FIG. It is explanatory drawing which shows the schematic structure in the case where the liquid feed switching device according to Embodiment 1 injects liquid into a pile hole. It is explanatory drawing which shows the schematic structure in the case where the liquid feed switching device according to Embodiment 1 collects liquid from a pile hole. It is sectional drawing which shows the structure of the liquid flow switching part of the liquid feed switching apparatus by Embodiment 2 of this disclosure. It is explanatory drawing which shows the schematic structure of the device which injects excavation liquid into a conventional pile hole. It is explanatory drawing which shows the schematic structure of the device which collects excavation liquid from a conventional pile hole.

Hereinafter, an embodiment of the present invention will be described.
(Embodiment 1)
FIG. 1 is a cross-sectional view showing a configuration of a liquid flow switching unit 1 of the liquid feed switching device according to the first embodiment of the present disclosure.
The liquid flow switching portion 1 is formed in a shape that can be placed on a flat ground or the like by using, for example, a steel material, and has a bottom surface portion and a plurality of side wall portions as described later, and at least one. It is composed of a switching portion main body 10 formed in a container shape in which paired side wall portions are arranged to face each other, and an upper lid portion 11 that closes an upper end opening of the switching portion main body 10.
The switching portion main body 10 is formed by, for example, a bottom surface portion 10f having a quadrilateral bottom surface and four side wall portions 10b, 10c, 10d, 10e erected along each edge portion of the bottom surface portion 10f. Note that FIG. 1 omits the illustration of the side wall portions 10d and 10e. In the switching portion main body 10 illustrated here, the side wall portion 10b and the side wall portion 10c are arranged to face each other, and the side wall portion 10d and the side wall portion 10e are arranged to face each other.
A liquid injection hose connection portion 12 (first hose connection portion) is installed on the side wall portion 10b, and a liquid supply hose connection portion 14 (second hose connection portion) is installed on the side wall portion 10c.

The liquid injection hose connection portion 12 and the liquid supply hose connection portion 14 are each formed in a tubular shape, the liquid injection hose connection portion 12 penetrates the side wall portion 10b, and the liquid supply hose connection portion 14 is formed. It penetrates the side wall portion 10c. Further, the liquid injection hose connection portion 12 and the liquid supply hose connection portion 14 are arranged so that the open ends (tube holes) of the hose connection portions face each other inside the switching portion main body 10.
The peripheral portion of the opening end of the liquid injection hose connection portion 12 is provided so as to be vertical to the extending direction of the liquid injection hose connection portion 12, and the bottom surface portion 10f and the liquid flow switching portion 1 are installed. It is formed so as to be vertical to the ground.
The peripheral portion of the opening end of the liquid feeding hose connecting portion 14 is formed substantially in the same manner as the liquid feeding hose connecting portion 12, and is vertical to the extending direction of the liquid feeding hose connecting portion 14. As described above, the bottom surface portion 10f and the liquid flow switching portion 1 are formed so as to be vertical to the ground or the like.
In the liquid injection hose connection part 12 and the liquid supply hose connection part 14, even if the earth and sand flowing in each hose accumulates inside the switching part main body 10, the liquid injection hose connection part 12 and the liquid supply hose connection part 12 The hose connection portion 14 is installed at a position having an appropriate height from the bottom surface portion 10f so as to prevent the hose connection portion 14 from being blocked.

The upper lid portion 11 includes a recovery hose connection portion 13 (third hose connection portion) that penetrates in the thickness direction of the upper lid portion 11 and connects and fixes the end portion of the recovery hose 5 (third hose) described later. There is.
The recovery hose connection portion 13 is formed in a tubular shape extending upward when the liquid flow switching portion 1 is placed on the ground or the like, and the extension direction of the recovery hose connection portion 13 is determined. The liquid injection hose connection portion 12 and the liquid supply hose connection portion 14 are provided so as to be orthogonal to the extending direction.
The peripheral portion of the opening end of the recovery hose connection portion 13 is formed so as to be vertical to the extending direction of the recovery hose connection portion 13.
A switching valve 15 is provided inside the switching unit main body 10. The switching valve 15 can come into contact with each opening end of the liquid injection hose connection portion 12 and the liquid feeding hose connection portion 14 arranged inside the switching portion main body 10, and can close the opening end portion. It is configured to include a flap plate portion 15a having a possible size and shape, and a switching support portion 15b that supports an end portion of the flap plate portion 15a.

The flap plate portion 15a is formed, for example, in a flat plate shape, and packing members 16 made of a thin plate or a sheet-shaped hard rubber or the like are provided on both sides of the plate surface of the flap plate portion 15a.
When each plate surface provided with the packing member 16 comes into contact with the open end portion of either the liquid injection hose connection portion 12 or the recovery hose connection portion 13 arranged inside the switching portion main body 10. Preferably, it is formed smoothly so that the contact portions are in close contact with each other and water leakage or the like does not occur.
Each opening end of the liquid injection hose connection portion 12 and the recovery hose connection portion 13 arranged inside the switching portion main body 10 appropriately protrudes toward the inside of the switching portion main body 10, and the opening thereof. The flap plate portion 15a or the packing member 16 is provided at the end portion so as to abut without a gap.

The switching support portion 15b is, for example, a tubular portion through which the shaft 15c (shaft member) is inserted into the edge portion of one side of the flap plate portion 15a when the flap plate portion 15a is formed in a quadrilateral plate surface shape. The shaft 15c is inserted through the tubular portion so that the tubular portion and the like can rotate around the shaft 15c.
Each end of the shaft 15c is supported and fixed to two side wall portions 10d and 10e of the switching portion main body 10 which are arranged to face each other. A mechanism for supporting both ends of the shaft 15c (not shown) is configured so that the shaft 15c and the like can be removed from the side wall portions 10d and 10e (removably), and the flap plate portion 15a is appropriately switched. It may be configured so that maintenance work such as taking it out of the main body 10 and replacing the packing member 16 can be easily performed.

The switching support portion 15b is a corner portion (of the liquid flow switching portion 1) formed between the side wall portion 10b on which the liquid injection hose connection portion 12 is installed and the upper lid portion 11 on which the recovery hose connection portion 13 is installed. It is installed at the corner of the inside).
Further, in the switching support portion 15b, the shaft 15c (rotating shaft) is orthogonal to both the extension direction of the liquid injection hose connection portion 12 and the extension direction of the recovery hose connection portion 13. is set up.
In other words, in the switching support portion 15b, the flap plate portion 15a swings between the open end portion of the liquid injection hose connection portion 12 and the open end portion of the recovery hose connection portion 13 inside the switching portion main body 10. The flap plate portion 15a is supported so as to move.

FIG. 2 is an explanatory view showing a configuration when the upper lid portion 11 provided in the liquid flow switching portion 1 of FIG. 1 is viewed from above. Further, FIG. 3 is an explanatory view showing a configuration when the switching portion main body 10 of FIG. 1 is viewed from above, and shows a state in which the upper lid portion 11 is removed. In addition, in FIG. 2, the side wall portions 10b to 10e are shown by broken lines, and in FIG. 3, the opening end portion of the recovery hose connection portion 13 is added, and the arrangement position of the recovery hose connection portion 13 with respect to the flap plate portion 15a is added. Is shown.
The upper lid portion 11 is formed so that it can be mounted and fixed on the upper end portion of the switching portion main body 10. For example, the mounting and fixing portion 20 made of a clip, bolts, nuts, etc. that can be freely fastened and opened. A plurality of fixing holes 20a for fixing the upper lid portion 11 to the main body flange portion 10a, which will be described later, are provided along the edge of the upper lid portion 11.
The recovery hose connection portion 13 is installed at a position where it penetrates the upper lid portion 11 in the vertical direction (thickness direction) and can come into contact with the flap plate portion 15a when the flap plate portion 15a swings as described later. It is fixed.

The switching portion main body 10 formed in a container shape with an opening on the upper side has a bottom surface portion 10f serving as a lower lid, and the switching portion main body 10 illustrated here places the liquid flow switching portion 1 on the ground or the like. When this is done, the lower end surface that comes into contact with the ground or the like has a bottom surface portion 10f formed in a quadrilateral shape.
The bottom surface portion 10f is formed so as to project outward from the outer periphery of the side wall portions 10b to 10e, and the liquid flow switching portion 1 falls or moves due to the liquid flow generated inside the switching portion main body 10. It is configured so that it can maintain a stable posture.
The lower end portions of the side wall portions 10b to 10e are joined (fixed) to the bottom surface portion 10f, and the side end portions of the side wall portions 10b to 10e are also joined to each other. These joint portions are joined by, for example, welding so that liquid leakage or the like does not occur. That is, the switching unit main body 10 is configured so as not to cause liquid leakage from the inside except for each tube hole of the liquid injection hose connection portion 12 and the liquid supply hose connection portion 14.

The switching portion main body 10 is provided with a main body flange portion 10a around the opening edge at the upper end, and by abutting (mounting) the upper lid portion 11 on the main body flange portion 10a, the inside including the switching valve 15 and the like is closed. It is formed to be. Specifically, the surface of the peripheral portion of the upper lid portion 11 and the main body flange portion 10a are smoothly finished, and when the upper lid portion 11 is overlapped with the main body flange portion 10a, these joint portions are formed. It is formed so as to be in close contact with each other so that liquid leakage or the like does not occur from the inside of the switching portion main body 10.
The main body flange portion 10a is provided with a plurality of fixing holes 20b along the peripheral edge of the main body flange portion 10a. The fixing hole 20b penetrates in the thickness direction of the main body flange portion 10a, and is installed at a position where it communicates with the fixing hole 20a when the upper lid portion 11 is superposed on the main body flange portion 10a.

The liquid flow switching portion 1 is switched by superimposing the upper lid portion 11 on the main body flange portion 10a, inserting the mounting fixing portion 20 into the communicating fixing holes 20a and the fixing holes 20b, and fastening the mounting fixing portion 20. The upper lid portion 11 is fixed to the main body 10, and the operation of injecting the excavated liquid into the pile hole or the like and the operation of collecting the liquid from the pile hole or the like can be switched. The mounting / fixing portion 20 is composed of, for example, the bolts / nuts described above, and can freely fix or remove the switching portion main body 10 and the upper lid portion 11.

In the liquid flow switching unit 1, a predetermined hose is connected to each hose connection unit, and for example, when excavated liquid is sent from the liquid injection hose 4 (first hose), the liquid injection hose connection unit 12 The excavated liquid that has flowed into the liquid flow switching unit 1 moves as shown by the arrow A in FIG.
When the excavated liquid does not flow into the liquid flow switching unit 1 from any hose connection portion, the flap plate portion 15a is connected to the liquid injection hose by the weight of the flap plate 15a or the like. It is in a state of being in contact with the open end portion of the portion 12 (generally, a state shown in FIG. 4 described later).

The excavated liquid that flows into the inside of the liquid flow switching portion 1 from the opening end of the liquid injection hose connection portion 12 is a plate surface of one of the flap plate portions 15a (in FIG. 4 described later, the liquid injection hose connection portion 12 side). It hits the board surface).
The flap plate portion 15a is pushed away from the opening end of the liquid injection hose connection portion 12 by the hydraulic pressure of the excavated liquid flowing from the liquid injection hose connection portion 12 into the inside of the liquid flow switching portion 1, and is used for recovery. It moves toward the open end of the hose connection portion 13, and the other plate surface of the flap plate portion 15a (the plate surface on the liquid feeding hose connection portion 14 side in FIG. 4) is the open end of the recovery hose connection portion 13. It abuts on the portion and closes this open end.
The excavated liquid that has flowed from the liquid injection hose connection portion 12 into the liquid flow switching portion 1 is closed by the flap plate portion 15a at the opening end of the recovery hose connection portion 13, so that the liquid supply hose It flows into the open end of the connecting portion 14 and flows out to the outside of the liquid flow switching portion 1. That is, it flows into the hose hole of the liquid feeding hose 6 (second hose) described later through the liquid feeding hose connecting portion 14.

FIG. 4 is an explanatory diagram showing an internal state of the liquid flow switching unit 1 of FIG. This figure is a cross-sectional view of the liquid flow switching portion 1 as in FIG. 1, and shows the state of each portion when the excavated liquid flows from the liquid feeding hose connecting portion 14.
A predetermined hose is connected to each hose connection portion of the liquid flow switching portion 1, and for example, when excavated liquid is sent from the liquid feeding hose 6, the liquid flow switching portion 1 is connected to the liquid feeding hose connecting portion 14. The excavated liquid flowing into the inside moves as indicated by the arrow B in FIG.

The excavated liquid flowing out from the open end of the liquid feeding hose connecting portion 14 hits another plate surface of the flap plate portion 15a (the plate surface on the liquid feeding hose connecting portion 14 side).
The flap plate portion 15a has one plate surface (liquid injection hose connection portion) of the flap plate portion 15a due to the hydraulic pressure of the excavated liquid flowing from the opening end portion of the liquid feeding hose connection portion 14 into the inside of the liquid flow switching portion 1. The plate surface on the 12 side) is pressed against the open end of the liquid injection hose connection portion 12 to close the open end.
Since the excavated liquid that has flowed from the liquid feeding hose connection portion 14 into the liquid flow switching portion 1 is blocked by the flap plate portion 15a at the opening end of the liquid injection hose connection portion 12, the flap plate portion By hitting 15a, the direction of the flow is changed (turned 90 degrees), the flow flows into the open end of the recovery hose connection portion 13, and flows out to the outside of the liquid flow switching portion 1 (to the hose hole of the recovery hose 5). Flow in).

FIG. 5 is an explanatory diagram showing the internal configuration and state of the liquid flow switching unit 1 of FIG. This figure is a cross-sectional view of the liquid flow switching unit 1 as in FIGS. 1 and 4, and shows the state of the flap plate portion 15a that swings inside the liquid flow switching unit 1.
The flap plate portion 15a is formed in a size that does not come into contact with the side wall portions 10c (and the side wall portions 10d and 10e (not shown)) when swinging, and the inside of the liquid flow switching portion 1 It is formed using a material having rigidity (strength) that does not cause deformation or strain even when it comes into contact with the liquid flowing into.
The switching support portion 15b is configured such that the flap plate portion 15a swings due to the shaft rotation about the shaft 15c. Specifically, for example, from the position where one plate surface of the flap plate portion 15a abuts on the opening end of the liquid injection hose connection portion 12, the other plate surface of the flap plate portion 15a is the opening of the recovery hose connection portion 13. The flap plate portion 15a is configured to be able to swing within a range up to the position where it abuts on the end portion.

The liquid flow switching unit 1 is not provided with a drive mechanism, a power source, or the like for swinging the flap plate portion 15a.
As described above, the flap plate portion 15a is pushed by the liquid flowing into the switching portion main body 10 from the liquid injection hose connection portion 12 or the liquid supply hose connection 14 and swings. That is, the flap plate portion 15a has a weight (lightness) that swings due to the flow of the liquid flowing into the switching portion main body 10. Further, the switching support portion 15b is configured so that the flap plate portion 15a can swing (smoothly rotate) due to the above-mentioned flow of the liquid.

FIG. 6 is an explanatory diagram showing another configuration of the liquid flow switching unit 1 of the liquid feed switching device according to the first embodiment. The liquid flow switching portion 1 includes a fixing clip portion 20c as a mounting fixing portion 20 for fixing the upper lid portion 11 to the switching portion main body 10.
The fixing clip portion 20c is provided between the surface (upper surface) end portion of the upper lid portion 11 and, for example, the upper surface of the side wall portion 10b, and for example, an annular member is hung on a hook member fixed to the upper lid portion 11. The lever mechanism member fixed to the side wall portion 10b is configured to pull the annular member downward of the upper lid portion 11.

A plurality of fixing clip portions 20c are installed between the upper lid portion 11 and the side wall portion 10c, between the upper lid portion 11 and the side wall portion 10d (not shown), and between the upper lid portion 11 and the side wall portion 10e (not shown). Further, in each of the side wall portions 10b to 10e, the fixing clip portions 20c are installed at a plurality of locations at appropriate intervals, and the upper lid portion 11 is fixed to each upper end portion of the side wall portions 10b to 10e. You may.
The fixed clip portion 20c is installed so that the upper lid portion 11 can be removed from the switching portion main body 10 by operating the lever mechanism member to release the tension of the annular member.

The liquid flow switching unit 1 shown in FIG. 6 does not have a main body flange portion 10a (and a fixing hole 10a) in the switching portion main body 10 and does not have a fixing hole 20b in the upper lid portion 11.
That is, when the upper lid portion 11 of FIG. 6 is placed on the switching portion main body 10, it is not necessary to project outward from each surface (outer wall surface) of the side wall portions 10b to 10e.
When the fixing clip portion 20c is provided as the mounting fixing portion 20, the upper lid portion 11 can be made smaller than the configuration in which the main body flange portion 10a is provided and the bolts and nuts are used. Further, the upper lid portion 11 can be attached to and detached from the switching portion main body 10 without using a tool such as a wrench.
The liquid flow switching portion 1 of FIG. 6 has the same configuration as that shown in FIG. 1 and the like except for the portions described above (the mounting fixing portion 20, the upper lid portion 11, and the upper portion of the switching portion main body 10).

FIG. 7 is an explanatory diagram showing a schematic configuration when the liquid feed switching device according to the first embodiment injects liquid into the pile hole 8.
One end of the liquid injection hose 4 is connected to the liquid injection hose connection portion 12 (the end portion arranged on the outer side of the liquid flow switching portion 1) of the liquid flow switching unit 1. The other end of the liquid injection hose 4 is arranged inside the liquid storage tank 7, and for example, the excavated liquid (not shown) stored in the liquid storage tank 7 is sent out to the outside of the liquid storage tank 7. It is connected to the installed liquid injection pump 2.

One end of the liquid feeding hose 6 is connected to the liquid feeding hose connecting portion 14 (the end portion arranged on the outer side of the liquid flow switching portion 1) of the liquid flow switching portion 1. The other end of the liquid feeding hose 6 is arranged inside the hole of the pile hole 8 for injecting liquid.
As described above, when the liquid is injected into the pile hole 8, as shown by the broken line in the figure, the recovery hose connection portion 13 of the liquid flow switching portion 1 (on the outer side of the liquid flow switching portion 1). One end of the recovery hose 5 may be connected to the arranged end), and the other end of the recovery hose 5 may be arranged inside the liquid storage tank 7.
When the liquid feed switching device of the present disclosure is installed at a pile driving site, the liquid flow switching unit 1 is arranged, for example, in the vicinity of the liquid storage tank 7.
The liquid feeding hose 6 connected to the liquid flow switching unit 1 is configured to be longer than the lengths of the liquid injection hose 4 and the recovery hose 5, and the liquid flow switching installed in the vicinity of the water storage tank 7. It has a length that reaches each pile hole 8 provided at the pile driving site from the part 1. In other words, the liquid injection hose 4 and the recovery hose 5 are shorter than the liquid feeding hose 6.

Next, the operation of injecting liquid into the pile hole 8 will be described.
As shown in FIG. 7, each hose and the liquid flow switching unit 1 are arranged and connected to operate the liquid injection pump 2. The excavated liquid sent out to the inside of the liquid injection hose 4 by the operation of the liquid injection pump 2 flows into the inside of the liquid flow switching part 1 from the opening end portion of the above-mentioned liquid injection hose connection portion 12, and this opening The excavation liquid flowing out from the end portion hits the flap plate portion 15a, and the flap plate portion 15a closes the open end portion of the recovery hose connection portion 13 as described above.
At this time, the excavated liquid that has flowed into the liquid flow switching portion 1 flows into the liquid feeding hose connecting portion 14 because the opening end of the collecting hose connecting portion 13 is blocked, and the liquid feeding hose is concerned. It moves in the hose hole of the liquid feeding hose 6 via the connecting portion 14 and is injected into the hole of the pile hole 8.

FIG. 8 is an explanatory diagram showing a schematic configuration when the liquid feed switching device according to the first embodiment recovers the liquid from the pile hole 8. When the liquid feed switching device collects the excavated liquid from the pile hole 8, the recovery hose is connected to the recovery hose connection portion 13 (the end portion arranged on the outer side of the liquid flow switching portion 1) of the liquid flow switching portion 1. One end of 5 is connected, and the other end of the recovery hose 5 is arranged inside the liquid storage tank 7. Further, the recovery pump 3 is connected to the other end of the liquid feeding hose 6 arranged inside the hole of the pile hole 8. The arrangement and configuration of the other parts are the same as those shown in FIG.
When collecting the excavated liquid from the pile hole 8, as shown by the broken line in the figure, the liquid injection hose connecting portion 12 of the liquid flow switching portion 1 (the end arranged on the outer side of the liquid flow switching portion 1). The liquid injection hose 4 may be connected to the portion), and the other end of the liquid injection hose 4 may be arranged inside the liquid storage tank 7.

Next, the operation of collecting the liquid from the pile hole 8 will be described.
As shown in FIG. 8, each hose and the liquid flow switching unit 1 are arranged and connected, and the recovery pump 3 is operated. The excavated liquid sent out to the inside of the liquid feeding hose 6 by the operation of the recovery pump 3 flows into the inside of the liquid flow switching portion 1 from the liquid feeding hose connecting portion 14 described above, and the excavated liquid that has flowed into the flap plate portion. Upon hitting 15a, the flap plate portion 15a closes the open end of the liquid injection hose connection portion 12 as described above.
At this time, the excavated liquid that has flowed into the liquid flow switching portion 1 flows into the recovery hose connection portion 13 because the opening end of the liquid injection hose connection portion 12 is blocked, and the recovery hose connection is made. It moves in the hose hole of the recovery hose 5 via the portion 13 and flows into the inside of the liquid storage tank 7.

(Embodiment 2)
FIG. 9 is a cross-sectional view showing the configuration of the liquid flow switching unit 1a of the liquid feed switching device according to the second embodiment of the present disclosure.
The liquid flow switching unit 1a according to the second embodiment replaces the liquid injection hose connection portion 12 and the switching valve 15 of the liquid flow switching unit 1 according to the first embodiment with the liquid injection hose connection portion 12a and the switching valve 25. The other parts are provided in substantially the same manner as the flow-liquid switching unit 1.
The switching valve 25 includes a flap plate portion 25a formed in a flat plate shape in the same manner as the flap plate portion 15a described above.
Further, the switching valve 25 includes a switching support portion 25b configured by a shaft or the like (not shown), similarly to the switching support portion 15b described above, and the flap plate portion 25a is supported by the switching support portion 25b.

The liquid flow switching unit 1a does not include a drive mechanism, a power source, or the like that swings the flap plate portion 25a like the liquid flow switching unit 1.
The flap plate portion 25a includes packing members 26 made of the same material as the packing member 16 described above on both sides of the plate surface.
The liquid injection hose connection portion 12a is formed in a tubular shape like the above-mentioned liquid injection hose connection portion 12, and the opening end portion (tube hole) arranged inside the liquid flow switching portion 1a is generally recovered. The hose connection portion 13 is formed so as to face the side where the open end portion is arranged.
In other words, the open end of the liquid injection hose connection portion 12a is formed so as to be inclined obliquely with respect to the extending direction of the liquid injection hose connection portion 12a, and specifically, the bottom surface of the switching portion main body 10. It is formed so as to be inclined upward from the portion 10f side toward the upper lid portion 11 side.

For example, when the liquid flow switching portion 1a uses the liquid injection hose connection portion 12a having the same pipe diameter as the liquid injection hose connection portion 12, the switching valve 25 has the length of the flap plate portion 25a ( The length from the swinging tip portion to the switching support portion 15b) is formed longer than the flap plate portion 15a, and the flap plate portion 25a is provided.

When the excavated liquid flows from the liquid injection hose connection portion 12a into the liquid flow switching portion 1a, the flap plate portion 25a is separated from the opening end portion of the liquid injection hose connection portion 12a by the hydraulic pressure of the flowing excavation liquid. Pushed in the direction, it moves toward the open end of the recovery hose connection portion 13 and abuts on the open end to close it.
The excavated liquid that has flowed from the liquid injection hose connection portion 12a into the liquid flow switching portion 1a is a liquid feeding hose because the open end of the recovery hose connection portion 13 is blocked by the flap plate portion 25a. It flows into the open end of the connecting portion 14 and flows out to the outside of the liquid flow switching portion 1a (flows into the hose hole of the liquid feeding hose 6 via the liquid feeding hose connection 14).

When the excavated liquid flows from the liquid feeding hose connecting portion 14 into the liquid flow switching portion 1a, the excavated liquid moves as shown by the arrow C in FIG.
When the excavated liquid does not flow into the liquid flow switching portion 1a, the flap plate portion 25a is in contact with the opening end of the liquid injection hose connection portion 12a due to the weight of the flap plate portion 25a or the like.
When the excavated liquid flows from the liquid feeding hose connecting portion 14 into the liquid flow switching portion 1a, the excavated liquid flowing from the opening end portion of the liquid feeding hose connecting portion 14 flows into the opening end of the liquid injection hose connecting portion 12a. It hits the flap plate portion 25a that is in contact with the portion, and the flap plate portion 25a is strongly pressed against the opening end portion of the liquid injection hose connection portion 12a to close the opening end portion.

In the flap plate portion 25a that is in contact with the open end of the liquid injection hose connection portion 12a, the back side of the surface that is in contact with the open end, that is, the plate surface on the liquid feeding hose connection portion 14 side is the liquid. The flow switching portion 1a is inclined so as to be an uphill from the bottom surface portion 10f side toward the upper lid portion 11 side.
In other words, the plate surface of the flap plate portion 25a that closes the liquid injection hose connection portion 12a on the liquid supply hose connection portion 14 side is from the bottom surface portion 10f directly below the recovery hose connection portion 13 to the upper lid portion. The surface is inclined upward toward the corner portion (installation position of the switching support portion 25b) between the side wall portion 10b and the side wall portion 10.

When the excavated liquid that has flowed into the inside of the liquid flow switching portion 1a from the liquid feeding hose connecting portion 14 goes straight from the opening end of the liquid feeding connecting hose 14 toward the liquid injection hose connecting portion 12a arranged to face each other. , It hits the inclined surface of the flap plate portion 25a inclined as described above.
The excavated liquid that hits the inclined surface of the flap plate portion 25a changes its flow direction as it travels along the inclined surface, and proceeds toward the upper lid portion 11 or the opening end portion of the recovery hose connection portion 13. It is discharged to the outside of the recovery hose connection portion 13 (flows into the hose hole of the recovery hose 6 via the recovery hose connection portion 13).

As described above, according to the liquid feed switching device of the present disclosure, the liquid flow switching portions 1 and 1a are installed in the vicinity of the liquid storage tank 7, and the liquid injection and the liquid recovery into the pile hole 8 are performed by the liquid feed hose 6. Since this is done, the amount (number and length) of hoses used for injecting the excavated liquid and collecting the liquid can be suppressed, and the cost required for installing the piles can be suppressed.
Specifically, conventionally, it has been necessary to install two long hoses, a hose for injecting liquid and a hose for collecting liquid, between the liquid storage tank 7 and the pile hole 8. In the liquid tank device, by installing the liquid flow switching portions 1 and 1a in the vicinity of the liquid storage tank 7, one long liquid feeding hose 6 is generally provided between the liquid storage tank 7 and the pile hole 8. All you have to do is install it.
Further, since the open end portion of the liquid injection hose connection portion 12a is inclined, the plate surface of the flap plate portion 25a that closes the open end portion is inclined, and the direction of the liquid flow inside the liquid flow switching portion 1 is made efficient. It can be changed often and sent to the outside of the liquid flow switching unit 1 or to, for example, a recovery hose 5 connected to the liquid flow switching unit 1.

In each embodiment of the above description, a liquid feed switching device that injects and recovers liquid into a pile hole when driving a pile is illustrated, but the liquid feed switching device of the present disclosure is a pile. It is not limited to those used for construction such as hammering, but can also be used for other purposes by appropriately setting the size of each part of the device, the liquid feeding speed, the resistance to the liquid feeding amount, etc. ..

1,1a Liquid flow switching part 2 Liquid injection pump 3 Recovery pump 4 Liquid injection hose 5 Recovery hose 6 Liquid supply hose 7 Liquid storage tank 8 Pile hole 10 Switching part main body 10a Main body flange part 10b to 10e Side wall part 10f Bottom part 11 Top lid part 12, 12a Liquid injection hose connection part 13 Recovery hose connection part 14 Liquid feed hose connection part 15, 25 Switching valve 15a, 25a Flap plate part 15b, 25b Switching support part 15c Shaft 16,26 Packing member 20 Mounting fixing part 20a, 20b Fixing hole 20c Fixing clip part 101 Lubrication pump 102 Recovery pump 103 Liquid storage tank 104 Pile hole 105 Lubrication hose 106 Recovery hose

Claims (6)

A vessel-shaped body having a bottom surface and a plurality of side walls,
An upper lid portion that closes the opening located above the side wall portion and
A switching valve arranged inside the main body and
Equipped with a liquid flow switching unit
The main body
Of the plurality of side wall portions, the first side wall portion and the second side wall portion arranged to face each other are provided with a tubular first hose connection portion and a second hose connection portion penetrating inside the main body, respectively.
The upper lid is
A tubular third hose connection that penetrates the top lid is provided.
The switching valve is
Either the opening end portion arranged inside the liquid flow switching portion of the first hose connection portion or the opening end portion arranged inside the liquid flow switching portion of the third hose connection portion. The flap plate part to be in contact with
A support portion that swingably supports the flap plate portion between the open end portion of the first hose connection portion and the open end portion of the third hose connection portion, and
With
The first hose is connected to an end of the first hose connection portion arranged outside the liquid flow switching portion.
The second hose is connected to the end of the second hose connection portion arranged outside the liquid flow switching portion.
A third hose is connected to an end of the third hose connection portion arranged outside the liquid flow switching portion.
When the liquid flows from the first hose to the inside of the liquid flow switching portion via the first hose connecting portion, the flap plate portion pushed by the liquid flow is the open end of the third hose connecting portion. The portion is closed, and the liquid flowing from the first hose connection portion is sent to the second hose via the second hose connection portion.
When the liquid flows from the second hose to the inside of the liquid flow switching portion via the second hose connecting portion, the flap plate portion pushed by the liquid flow is the open end of the first hose connecting portion. The portion is closed, and the liquid flowing from the second hose connection portion is sent to the third hose via the third hose connection portion.
The flap plate portion is swung without using a drive mechanism or a power source.
A liquid transfer switching device characterized by this. The switching valve is
Sheet-shaped or thin-plate-shaped packing members are provided on both plate surfaces of the flap plate portion, respectively.
The liquid feed switching device according to claim 1. The liquid flow switching unit is
The main body and the upper lid portion are fixed by a mounting fixing portion that makes the upper lid portion removable from the main body.
The switching valve is
The support portion is configured to be removable from the main body so that the flap plate portion can be taken out to the outside of the main body.
The liquid transfer switching device according to claim 1 or 2, wherein the liquid feeding switching device is characterized in that. The first hose connection portion
The open end portion arranged inside the liquid flow switching portion is formed so as to be vertical with respect to the bottom surface portion of the main body and vertically with respect to the extending direction of the first hose connecting portion. Yes,
The liquid feeding switching device according to any one of claims 1 to 3, wherein the liquid feeding switching device is characterized. The first hose connection portion
The opening end portion arranged inside the liquid flow switching portion is formed so as to be inclined upward from the bottom surface portion side of the main body toward the upper lid portion side.
When the flap plate portion comes into contact with the open end portion of the first hose connection portion, the plate surface of the flap plate portion on the second hose connection portion side faces from the bottom surface portion side of the main body to the upper lid portion side. It becomes an uphill slope,
The liquid feeding switching device according to any one of claims 1 to 3, wherein the liquid feeding switching device is characterized. The first hose is a liquid injection hose that sends liquid from the liquid storage tank to the liquid flow switching unit.
The second hose is a liquid feeding hose installed between the liquid flow switching portion and the pile hole.
The third hose is a recovery hose that sends the liquid from the liquid flow switching unit to the liquid storage tank.
The liquid flow switching unit is installed in the vicinity of the liquid storage tank, and the lengths of the first hose and the third hose are shorter than those of the second hose.
The liquid feeding switching device according to any one of claims 1 to 5, wherein the liquid feeding switching device is characterized.

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