JP2017145572A - Concrete pipe switching device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent concrete from being leaked from a pipe switching port other than a pipe switching port for pressure-feeding concrete when concrete is installed at a position higher than a concrete pipe switching device.SOLUTION: A concrete pipe switching device comprises: a pipe connection member 20 that can be slid in the parallel direction of a pipe switching port 60 and that connects a concrete pipe with any one of pipe switching ports 60; a pipe closing member 30 that is arranged on both sides of the parallel direction of the pipe switching port 60 with respect to the pipe connection member 20 and that slides with the pipe connection member 20 so as to close the pipe switching port 60 other than the pipe switching port 60 connected with a concrete pipe; a supporting member 40 that supports the pipe connection member 20 and the pipe closing member 30 so as to slide in the parallel direction of the pipe switching port 60; and a fixing member 50 that fixes the pipe closing member 30 to the pipe connection member 20 detachably.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a concrete pipe switching device, and more particularly to an apparatus for preventing concrete leakage from a pipe switching port when switching a plurality of pipes for performing concrete pressure feeding.

  To construct the tunnel lining, concrete is cast using a centle formwork. At this time, when the tunnel is seen in plan view, concrete pipes having four pipe switching ports for switching the concrete pipes corresponding to the respective pouring holes in order to place concrete from the four pouring holes at the front, rear, left and right. A switching device is used. In addition, when the tunnel is viewed in a longitudinal section, concrete is cast from the two placement openings on the side wall and the upper stage, and the concrete is placed from one placement opening near the top of the arch. In addition, there are a total of three placement openings. At the side wall, the placement pipe (suction hose) is replaced, and concrete is placed through the piping route. In addition, a concrete pipe switching device having two pipe switching ports is used in the arch portion. Conventionally, various such concrete pipe switching devices have been proposed (see, for example, Patent Document 1 and Patent Document 2).

  The technique described in Patent Document 1 is that the sliding surface is worn by fine aggregates (sand, gravel, crushed stone, etc. used as a material for mortar and concrete) and a gap is formed there. The present invention relates to a concrete pipe switching device for preventing mortar in concrete from leaking through the gap. This concrete pipe switching device is equipped on a base body having a fixed supply pipe for feeding ready-mixed concrete, a base body provided with two or more discharge ports, a communication path and being slidable in an arrangement direction of two or more discharge ports. A movable body, a switching drive body that switches the communication between the communication path and the discharge port by sliding the movable body, and two or more curved pipes that are rotatably connected between the supply pipe and the communication path ing.

  Then, one end of the connected curved pipe is rotatably connected to the supply pipe, the other end is rotatably connected to the communication path of the movable body, and is connected when the movable body is slid in the arrangement direction of the discharge ports. Further, two or more bent pipes rotate between the supply pipe and the communication path. Further, the movable body is provided with a movable body locking tool that can be locked and released to the base body, and the switching drive body is provided with a driving body locking tool that can be locked and released to the base body. . The movable body is slid in the arrangement direction of the discharge ports by the switching drive body which is locked and fixed to the base body in a state where the lock to the base body by the movable body locking tool is released. The stopper is released from the base, and the movable body is movable toward or away from the movable body in a state where the movable body is locked and fixed to the base body by the movable body locking tool.

  The technique described in Patent Document 2 relates to a concrete pipe switching device that can easily cope with the movement of a formwork. The concrete pipe switching device includes an inlet port to which a concrete supply pipe is connected, a plurality of outlet ports arranged on the same circumference and connected to a concrete distribution pipe, and the inlet port by rotating the inlet port. And a rotary drive device that selectively connects to the outlet port.

Japanese Patent Laid-Open No. 11-62490 JP 2007-23624 A

  In the conventional technology described above, since concrete is placed at a position lower than the concrete pipe switching device, including when placing concrete on the side wall and arch part, the amount of concrete leaking from the pipe switching port is a problem. Must not.

  However, when using a conventional concrete pipe switching device to place concrete at a position higher than the concrete pipe switching device, there is a problem that the concrete leaks from the pipe switching port.

And if concrete leaks out from a piping switching port, it will not only take the effort for cleaning a hopper, but there will also be a problem that the concrete to be laid will be lost, and industrial waste processing costs will increase. Specifically, when placing the concrete three times when placing concrete at a higher position than the concrete pipe switching device, a loss of about 0.5 m ³ per placement depends on the length of the pipe. Has occurred. As an emergency measure against such a problem, the back operation of a concrete pump car can be considered, but it was difficult to manage because concrete overflowed and leaked in the hopper, and it could not be said that it was an appropriate response.

  The present invention has been proposed in view of the above-described circumstances, and provides a concrete pipe switching device in which concrete does not leak from a pipe switching port when placing concrete at a position higher than the concrete pipe switching device. For the purpose.

  The concrete pipe switching device of the present invention has the following features in order to achieve the above-described object. That is, the concrete pipe switching device of the present invention relates to a concrete pipe switching device for changing a concrete pressure feeding path by setting a concrete pipe to face one of a plurality of parallel pipe switching ports. Is. The concrete pipe switching device is slidable in the direction in which the pipe switching ports are juxtaposed, a pipe connecting member for connecting the concrete pipe to any one of the pipe switching ports, and a pipe switching port with respect to the pipe connecting member. A pipe closing member that is arranged on both sides of the juxtaposed direction and slides with the pipe connecting member to close the pipe switching port other than the pipe switching port to which the concrete pipe is connected, and the pipe connecting member and the pipe closing member are connected to the pipe switching port. And a fixing member that detachably fixes the pipe closing member to the pipe connecting member.

  Further, in the concrete pipe switching device, the pipe connection member includes a moving plate that slides in the direction in which the pipe switching port is arranged by the driving force of the driving device, and a connection opening that is provided on the moving plate and contacts the pipe switching port. The connection opening can be configured to communicate with the concrete pipe.

  In the concrete pipe switching device, the pipe closing member includes a closing plate that can be connected to and connected to the pipe connecting member, and the fixing member includes an insertion frame for inserting the closing plate, and a closing plate. It can be composed of a fixing pin that is fixed in the insertion frame.

  According to the concrete pipe switching device of the present invention, the pipe connecting member and the pipe closing member are integrated and slide in the juxtaposition direction of the pipe switching ports. Then, in a state where the pipe connection member is located at any one of the plurality of parallel pipe switching ports, the pipe closing member is located at the other pipe switching port.

  Therefore, a pipe connection member is positioned at the pipe switching port for feeding concrete, and the concrete can be fed into the concrete delivery pipe connected to the pipe switching port. Since the member is positioned and closes the pipe switching port, the concrete does not leak from any pipe switching port when the concrete pressure feeding path is changed.

  Moreover, since the pipe closing member can be detachably fixed to the pipe connecting member, the pipe closing member and the pipe switching port can be easily cleaned after the concrete placement is finished.

  In this way, when switching the concrete pumping route, the concrete does not leak out and is easy to clean after placing the concrete. This improves work efficiency and minimizes the loss of concrete. It becomes possible to reduce the construction cost. Furthermore, these effects can be combined to significantly improve the construction quality.

The front view of the concrete piping switching device concerning the embodiment of the present invention. The top view of the concrete piping switching device concerning the embodiment of the present invention. 1 is a schematic front view of a concrete pipe switching device according to an embodiment of the present invention. 1 is a schematic plan view of a concrete pipe switching device according to an embodiment of the present invention. The schematic longitudinal cross-sectional view of the fixing member which concerns on embodiment of this invention. The schematic cross-sectional view of the fixing member which concerns on embodiment of this invention. Explanatory drawing which shows the attachment procedure of a piping obstruction | occlusion member. Explanatory drawing which shows the removal procedure of a piping obstruction | occlusion member. The front view, side view, and top view of the piping obstruction | occlusion member which concern on embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 to 9 illustrate a concrete piping switching device according to an embodiment of the present invention. FIG. 1 is a front view of the concrete piping switching device, FIG. 2 is a plan view of the concrete piping switching device, and FIG. 3 is a concrete piping. FIG. 4 is a schematic plan view of the concrete pipe switching device, FIG. 5 is a schematic longitudinal sectional view of the fixing member, FIG. 6 is a schematic transverse sectional view of the fixing member, and FIG. FIG. 8 is an explanatory view showing a procedure for removing the pipe closing member, and FIG. 9 is a front view (a), a side view (b), and a plan view (c) of the pipe closing member.

<Outline of concrete pipe switching device>
A concrete pipe switching device according to an embodiment of the present invention is a concrete pipe switching unit for changing a concrete pressure feeding path by setting a concrete pipe to face one of a plurality of parallel pipe switching ports. The present invention relates to an apparatus, for example, an apparatus used when a tunnel lining is constructed using a centle formwork. Generally used concrete piping switching device has 2 to 4 piping switching ports, but the concrete piping switching device of the present invention has a larger number of piping switching ports. Can also be applied. In the embodiment described below, a concrete pipe switching device having two pipe switching ports will be described as an example, but in a concrete pipe switching device having three or four or more pipe switching ports. Even if it exists, it can respond with the substantially similar structure.

<Detailed configuration of concrete pipe switching device>
The concrete pipe switching device 10 according to the embodiment of the present invention includes, as main constituent members, a pipe connecting member 20, a pipe closing member 30, a support member 40, and a fixing member 50, as shown in FIGS. And. The concrete pipe switching device 10 configured as described above is a concrete pipe that is connected to the pipe switching port 60 by placing the pipe connecting member 20 in any one of a plurality of pipe switching ports 60 that perform concrete pressure feeding. Concrete is placed from a predetermined placement opening (not shown) through 70 and the concrete delivery pipe 80. At this time, the pipe switching port 60 that does not perform concrete pumping is closed by the pipe closing member 30, and the concrete does not leak out from the pipe switching port 60.

  The pipe connecting member 20 and the pipe closing member 30 are configured to slide together in the direction in which the pipe switching ports 60 are arranged. In the present embodiment, the hydraulic cylinder 90 is used as a driving device for sliding the pipe connecting member 20 and the pipe closing member 30, but the driving device is not limited to the hydraulic cylinder 90 and may be an air cylinder or an electric motor. The pipe connection member 20 and the pipe closing member 30 may be manually slid depending on the device configuration and operating conditions.

<Piping connection member>
As shown in FIGS. 1 to 4, the pipe connecting member 20 is a member that is slidable in the direction in which the pipe switching ports 60 are arranged, and that connects the concrete pipe 70 to any one of the pipe switching ports 60. . This pipe connecting member 20 is provided with a moving plate 21 that slides in the direction in which the pipe switching port 60 is juxtaposed by the driving force of the hydraulic cylinder 90 that is a driving device, and a connection that is provided on the moving plate 21 and that contacts the pipe switching port 60. And an opening 22.

<Piping closure member>
As shown in FIGS. 1 to 4, the pipe closing member 30 is disposed on both sides of the pipe connection member 20 in the juxtaposition direction of the plurality of pipe switching ports 60, and slides together with the pipe connection member 20 to provide concrete piping. This is a member for closing the pipe switching port 60 other than the pipe switching port 60 connected to the line 70. As shown in FIG. 9, the piping closing member 30 includes a blocking plate 31 having a substantially L-shaped cross-section that can be continuously connected to the pipe connecting member 20, and an outer surface of the blocking plate 31 (opposite to the pipe switching port 60. And a detachable handle 32 that protrudes upward. The closing plate 31 projects the closing portion 31a covering the pipe switching port 60 and one end of the closing portion 31a (the connection side to the pipe connecting member 20) to the outer surface (the surface opposite to the pipe switching port 60). The support piece 31b is provided.

  The pipe closing member 30 can be attached to and detached from the pipe connecting member 20 by the fixing member 50. In a state where the pipe closing member 30 is attached to the pipe connecting member 20 (moving plate 21), the pipe connecting member 20 and the pipe closing member 30 are integrated and slide in the direction in which the pipe switching ports 60 are arranged. On the other hand, in the state where the pipe closing member 30 is removed, the pipe switching port 60 and its peripheral part can be cleaned.

<Supporting member>
As shown in FIG. 1, the support member 40 is a member for supporting the pipe connecting member 20 and the pipe closing member 30 so as to be slidable in the direction in which the pipe switching ports 60 are arranged. The support member 40 is, for example, a guide rail 41 provided in the direction in which the pipe switching ports 60 are arranged, and a latch for slidably latching the pipe connecting member 20 (moving plate 21) with respect to the guide rail 41. Member 42. In this embodiment, a pair of upper and lower guide rails 41 and locking members 42 are provided. The support member 40 is not limited to the above-described configuration, and may have any configuration as long as the pipe connection member 20 and the pipe closing member 30 can be slidably supported in the direction in which the pipe switching ports 60 are arranged. . Further, a connecting member 23 is attached to one side surface of the pipe connecting member 20 (moving plate 21), and a rod 91 of a hydraulic cylinder 90 is connected to the connecting member 23.

<Fixing member>
As shown in FIGS. 5 and 6, the fixing member 50 includes an insertion frame 52 for inserting the support piece 31 b of the closing plate 31 and a fixing pin 51 for fixing the support piece 31 b of the closing plate 31 in the insertion frame 52. It consists of. The insertion frame 52 is made of a frame member having a U-shaped cross section attached (for example, welded) to the side surface on the distal end side in the moving direction of the pipe connecting member 20. The side wall of the insertion frame 52 is shorter on the extending side to the closing part 31a than on the attachment side to the pipe connecting member 20, and the closing part 31a is fixed in the insertion frame 52 to the closing part 31a. On the extended side, a gap about the depth of the fixing pin 51 is formed. The width of the insertion frame 52 is set to be slightly wider than the width of the support piece 31b, and the depth of the insertion frame 52 is fixed to the fixing pin 51 on the distal end side of the support piece 31b with the support piece 31b inserted. Is set to be insertable.

  A pin handle 53 is attached to the upper end portion of the fixed pin 51, and the fixed pin 51 can be easily inserted into and removed from the insertion frame 52 by gripping the pin handle 53. The fixing member 50 is not limited to the above-described configuration, and may have any structure as long as the pipe closing member 30 can be detachably fixed to the pipe connecting member 20.

<Removal / attachment of piping closing member to piping connecting member>
In order to attach the pipe closing member 30 to the pipe connecting member 20, as shown in FIG. 7, the tip of the support piece 31 b is positioned on the back side of the insertion frame 52, and the support piece 31 b is inserted into the insertion frame 52. After the insertion (a), the support piece 31b is pushed out toward the pipe switching port 60 (b), and the fixing pin 51 is inserted from above into the gap formed on the back side of the insertion frame 52, thereby connecting the pipe connecting member. 20 and the pipe closing member 30 (blocking plate 31) can be integrally connected, and the closing plate 31 (blocking part 31a) can be pressed toward the pipe switching port 60 (c).

  On the other hand, in order to remove the pipe closing member 30 from the pipe connecting member 20, as shown in FIG. 8, the pipe closing member 30 is fixed to the pipe connecting member 20 (a) and fixed from within the insertion frame 52. By pulling out the pin 51 and moving the distal end portion of the support piece 31b to the back side of the insertion frame 52 (b), the pressure of the blocking plate 31 (blocking portion 31a) against the piping switching port 60 is released, and the piping A gap is generated between the switching port 60 and the closed portion rate (closed portion 31a), and the closed plate 31 can be removed from the insertion frame 52 (c). The attachment / detachment handle 32 provided on the closure plate 31 may be operated to attach / detach the closure plate 31.

<Piping switching>
In order to switch the pipe for feeding concrete, the pipe connecting member 20 is slid to the position of the pipe switching port 60 for feeding concrete as shown in FIGS. At this time, the other pipe switching port 60 that does not pump concrete is closed by the pipe closing member 30 that slides integrally with the pipe connecting member 20.

  Then, a concrete pump (not shown) is driven to feed the concrete into the concrete pipe 70, and the concrete is sent to the concrete delivery pipe 80 through the pipe switching port 60 with which the pipe connecting member 20 is in contact. Concrete can be cast from a casting port (not shown). Moreover, since the pipe switching port 60 that does not pump concrete is blocked by the blocking portion 31a, the concrete does not leak from the pipe switching port 60.

  By repeating the above-described operation, it is possible to switch between the piping switching port 60 that pumps concrete and the piping switching port 60 that does not pump concrete, and the concrete does not leak from any piping switching port 60. The pumping route can be switched.

<Cleaning the piping switching port>
When the concrete placing work is completed, the pipe switching port 60 is cleaned. In order to clean the pipe switching port 60, the fixing member 50 may be operated to remove the pipe closing member 30 from the pipe connecting member 20. When the piping closing member 30 is removed, the piping switching port 60 is exposed, and the piping switching port 60 and its peripheral portion can be easily cleaned.

<Number of piping switching ports>
As described above, the concrete pipe switching device 10 of the present invention is not limited in the number of pipes to be switched, and can be two, three, four, or more. That is, the concrete pipe switching device 10 according to the present invention changes the concrete pressure feeding path by setting the concrete pipe 70 to be opposed to any one of the plurality of parallel pipe switching ports 60. The pipe closing member 30 is positioned at the pipe switching port 60 to suppress the leakage of concrete.

  In the above-described embodiment, the plurality of pipe switching ports 60 are arranged in parallel in the horizontal direction. However, the parallel direction of the pipe switching ports 60 is not limited to the horizontal direction, and may be a vertical direction or an oblique direction. That is, by sliding the pipe connecting member 20 and the pipe closing member 30, any one of the plurality of pipe switching ports 60 can be used as a concrete pumping port and the other pipe switching ports 60 can be closed. The parallel direction of the mouth 60 is not limited.

DESCRIPTION OF SYMBOLS 10 Concrete piping switching device 20 Piping connection member 21 Moving plate 22 Connection opening 23 Moving member 30 Piping block member 31 Blocking plate 31a Blocking part 31b Support piece 32 Detaching handle 40 Support member 41 Guide rail 42 Locking member 50 Fixing member 51 Fixing pin 52 Insertion frame 53 Pin handle 60 Pipe switching port 70 Concrete pipe 80 Concrete delivery pipe 90 Hydraulic cylinder 91 Rod

Claims (3)

A concrete pipe switching device for changing a concrete pressure feeding path by making a concrete pipe face one of a plurality of parallel pipe switching ports,
A pipe connecting member that is slidable in the direction in which the pipe switching ports are arranged, and that connects the concrete pipe to any one of the pipe switching ports;
A pipe closing member that is disposed on both sides of the pipe connecting member in the juxtaposed direction and slides together with the pipe connecting member and closes a pipe switching port other than the pipe switching port to which the concrete pipe is connected; ,
A support member that slidably supports the pipe connection member and the pipe closing member in a direction in which the pipe switching ports are arranged;
A fixing member that removably fixes the pipe closing member to the pipe connecting member;
A concrete pipe switching device characterized by comprising: The pipe connecting member includes a moving plate that slides in the juxtaposed direction of the pipe switching port by a driving force of a driving device, and a connection opening that is provided in the moving plate and contacts the pipe switching port.
The connection opening communicates with the concrete pipe.
The concrete pipe switching device according to claim 1, wherein: The pipe closing member includes a closing plate that can be connected to and connected to the pipe connecting member,
The fixing member includes an insertion frame for inserting the closing plate, and a fixing pin for fixing the closing plate in the insertion frame.
The concrete pipe switching device according to claim 1 or 2, characterized in that.

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