JP2020153074A - High head concrete placement device, and placement method - Google Patents

Abstract

To provide a concrete placement device and a placement method for preventing outflow of residual concrete in piping for pressure feeding and improving construction efficiency.SOLUTION: A high head concrete placement device is provided with a pump 20 for pressure feeding concrete 50, a piping 30 for pressure feeding connected to the pump for pressure feeding and extended to a concrete placing place T, and an opening/closing valve 40 provided in the piping for pressure feeding and capable of opening/closing a flow passage of the piping for pressure feeding. The opening/closing valve is constituted to be opened/closed interlocked with an operation state of the pump for pressure feeding.SELECTED DRAWING: Figure 1

Description

The present invention relates to a high-head concrete placing device and a placing method.

Conventionally, in underground construction work, as a method of supplying concrete to an underground concrete casting location, a pump for pumping installed on the ground and a pumping pipe extending from the pump for pumping to the casting location are used. Means for pumping concrete are used.

Patent Document 1 describes a method of recovering concrete remaining in a pumping pipe after supplying concrete underground using a pump for pumping and a pipe for pumping.

Japanese Unexamined Patent Publication No. 07-06948

When concrete is supplied to an underground concrete casting site using a pump for pumping and a pipe for pumping, the supply may become unnecessary once, and the operation of the pump for pumping may be stopped to interrupt the pumping. In the construction of a deep structure such as an underground tank, the vertical part of the pumping pipe becomes long, and when the operation of the pumping pump is stopped, the concrete remaining in the pipe flows out due to its own weight. As a result, a gap is formed between the upper part and the lower part in the pumping pipe.

When the supply of concrete is restarted in this state, the concrete freely falls in the gap portion due to the formation of the gap. Concrete is a mixture of a plurality of liquid materials and solid materials, and when falling through a void, the falling speed of each material is different. Since the falling speed of each material is different, the materials are separated, and the distribution of the materials is biased, so that a specific mass of the material is formed, and there is a possibility that the pipe is blocked at the elbow portion of the pipe. As a result, there is a problem that the construction efficiency is lowered.

Based on the above circumstances, the present invention provides a high-head concrete placing device and a placing method for the purpose of preventing the outflow of residual concrete in the pumping pipe and improving the construction efficiency.

The high-head concrete placing device of the present invention is provided in a pressure-feeding pump for pumping concrete, a pressure-feeding pipe connected to the pressure-feeding pump and extended to a concrete casting location, and the pressure-feeding pipe. An on-off valve capable of opening and closing the flow path of the pumping pipe is provided, and the on-off valve is configured to be openable and closable in conjunction with the operating state of the pump for pumping.

According to the present invention, when the operation of the pump for pumping is stopped, a signal for transmitting the stop of operation of the pump for pumping is sent to an on-off valve provided in the pumping pipe via a signal line. The on-off valve that receives the signal closes to prevent the concrete from flowing out in the pumping pipe.

In the high-head concrete placing device of the present invention, the starting circuit of the pump for pumping may include a delay timer.

According to the present invention, it is possible to prevent popping out due to excessive pressure applied to the on-off valve to hinder the opening operation and sudden formation of a flow path in the pressurized concrete.

The high-head concrete placing method of the present invention includes a concrete pumping step of pumping concrete from the upper part to the lower part, and a concrete flow path closing step of blocking the concrete flow path when the concrete pumping is stopped. It is characterized by having a concrete flow path opening step of opening the flow path of the concrete when the pumping of the concrete is restarted.

According to the present invention, it is possible to prevent the outflow of concrete from the flow path by blocking the flow path when the pumping is stopped.

In the method for placing high-head concrete of the present invention, in the concrete flow path opening step, the pumping of the concrete may be restarted after a lapse of a predetermined time after opening the concrete flow path.

According to the present invention, it is possible to prevent the operation of opening the flow path due to excessive pressure applied to the blocked portion of the flow path and to prevent the flow path from popping out due to the sudden formation of the flow path in the pressurized concrete. it can.

The high-head concrete placing device and the placing method of the present invention can prevent the residual concrete from flowing out in the pumping pipe and improve the construction efficiency.

It is a block diagram of the high head concrete placing apparatus 10 which concerns on embodiment of this invention, and is the drawing at the time of concrete supply. It is a block diagram of the high head concrete placing apparatus 10 which concerns on embodiment of this invention, and is the drawing at the time of stopping concrete supply. It is a figure which shows the flowchart when the pump 30 for pumping is rotated forward.

Hereinafter, embodiments will be described in detail with reference to the drawings.
FIG. 1 is a configuration diagram of a high-head concrete placing device 10 according to an embodiment of the present invention when concrete is supplied. The high-head concrete placing device 10 includes a pump for pumping 20, a pipe for pumping 30, an automatic on-off valve 40, and a signal line 60. FIG. 2 is a configuration diagram of the high-head concrete placing device 10 according to the embodiment of the present invention when the concrete supply is stopped. In this embodiment, a device for placing concrete in a predetermined place underground and a method for placing concrete will be described.

The pump for pumping 20 is a pump for pumping concrete and is installed on the ground. The pressure feed pump 20 discharge port 20b is connected to one end of the device connection portion 30a of the pressure feed pipe 30. The other end of the device connection portion 30a is connected to one end of the vertical portion 30b of the pumping pipe 30. The other end of the vertical portion 30b is connected to one end of the elbow portion 30c of the pumping pipe 30. The elbow portion 30c is installed at a height substantially the same as the height of the place where the concrete is placed. The other end of the elbow portion 30c is connected to one end of the main body portion 40c of the automatic on-off valve 40. The other end of the main body portion 40c is connected to one end of the horizontal portion 30d of the pumping pipe 30. The automatic on-off valve 40 uses a known hydraulically operated system, and by supplying hydraulic oil to a drive mechanism (not shown), the valve body 40b is hydraulically pushed up to open and operate the automatic on-off valve 40 to drive the valve. By collecting the hydraulic oil from the mechanism, the hydraulic pressure is lost and the valve body 40b drops, so that the automatic on-off valve 40 can be closed. When the solenoid part of the solenoid valve of the flow path for supplying or collecting hydraulic oil (not shown) is excited, the solenoid valve opens and the hydraulic oil is supplied, and the automatic on-off valve 40 opens and demagnetizes. The valve closes and the hydraulic oil is collected, and the automatic on-off valve 40 closes.

The pump 20 for pumping and the automatic on-off valve 40 are connected by a signal line 60. Specifically, the signal line 60 includes a signal power supply (not shown) inside the pump 20 and an automatic on-off valve via a contact (not shown) linked with a forward / stop / reverse changeover switch 20a of the pump 20. It is connected between the solenoid part of the solenoid valve inside 40 and the solenoid part.

When the concrete is supplied, the pump 20 for pumping is operating to apply the discharge pressure to the concrete. Further, the automatic on-off valve 40 is in an open state, and concrete is supplied to the concrete casting location T through the pumping pipe 30 (concrete pumping process).

When the user of the high-head concrete placing device 10 operates the forward / stop / reverse rotation changeover switch 20a of the pump 20 to stop the operation of the pump 20, the contacts inside the pump 20 are interlocked. , The electrical connection between the signal power supply and the solenoid part of the solenoid valve inside the automatic on-off valve 40 is cut off. Then, when the solenoid portion of the solenoid valve is degaussed, the solenoid valve is closed and the hydraulic oil is collected, and the automatic on-off valve 40 is closed. Then, by closing the automatic on-off valve 40, the concrete in the pumping pipe 30 stays without flowing out (concrete flow path closing step).

When the pressure feeding pump 20 is restarted, the contacts inside the pressure feeding pump 20 are interlocked, and the signal power supply and the solenoid portion of the solenoid valve inside the automatic on-off valve 40 are electrically connected. Then, when the solenoid portion of the solenoid valve is excited, the solenoid valve is opened and the hydraulic oil is supplied, the automatic on-off valve 40 is opened and the concrete flow path is formed (concrete flow path opening). Process).

In this embodiment, which is operated with the above configuration, the outflow of concrete can be prevented by closing the automatic on-off valve 40 when the operation of the pump 20 is stopped. Then, by preventing the outflow of concrete, it is possible to prevent the formation of voids in the pumping pipe 30. Therefore, it is possible to prevent pipe blockage due to material separation due to free fall of concrete in the pumping pipe 30 when the operation of the pumping pump 20 is restarted. As a result, the construction efficiency can be improved.
In addition, switching between the operating state and the stopped state of the pump 20 for pumping may be performed several tens of times a day, and using the automatic on-off valve 40 is a possible forgetting to operate when a manual valve is used instead. The fear can also be resolved.

A forward / stop / reverse changeover switch for the pump 20 so that the pump 20 starts after a certain period of time has passed since the automatic on-off valve 40 opens when the concrete supply is restarted. A known delay timer may be provided between 20a and a start circuit (not shown) of the pump 20 for pumping. By providing the delay timer, it is possible to prevent the automatic on-off valve 40 from being excessively pressured to hinder the opening operation and to prevent popping out due to the sudden formation of a flow path in the pressurized concrete. FIG. 3 shows the pump 20 in the stopped state or when a delay timer having a time delay of 2.5 seconds is provided between the forward / stop / reverse changeover switch 20a and the start circuit of the pump 30. It is a figure which shows the flowchart at the time of making a normal rotation from a reverse state.

In this flow, the start time point is the time point when the pump 30 for pumping is in the stopped state or the reverse state as shown in step S1.

Step S2 is a conditional branch of whether or not the forward rotation / stop / reverse rotation changeover switch 20a is set to the normal rotation position. If not, step S2 is repeated.

When the forward rotation / stop / reverse rotation changeover switch 20a is set to the normal rotation position, the process proceeds to steps S3 and S4, but in steps S3 and S4, two processes are performed in parallel. In step S3, as the forward / stop / reverse changeover switch 20a is set to the normal rotation position, the contacts inside the pump 20 for pumping are interlocked with the power supply for the signal and the solenoid part of the solenoid valve inside the automatic on-off valve 40. Is electrically connected. Then, when the solenoid portion of the solenoid valve is excited, the solenoid valve is opened and the hydraulic oil is supplied, and the valve body 40b of the automatic on-off valve 40 is opened. In step S4, as the forward / stop / reverse changeover switch 20a is set to the forward rotation position, the contacts inside the pump 20 for pumping are interlocked with the signal power supply and the delay timer having a time delay of 2.5 seconds. Is electrically connected and the delay time count starts.

Step S5 is a conditional branch as to whether or not 2.5 seconds have elapsed. If 2.5 seconds have elapsed, the process proceeds to the next lower step S6, and if not, repeated step S5 is performed.

After 2.5 seconds, the process proceeds to step S6. In step S6, the delay timer establishes the start circuit of the pump 30 for pumping, and the pump 30 for pumping starts normal rotation.

Then, when the pump 30 for pumping starts to rotate in the normal direction, the process proceeds to step S7, and pumping of concrete is started.

Although one embodiment of the high-head concrete placing device according to the present invention has been described above, the present invention is not limited to the above-mentioned one embodiment, and can be appropriately changed without departing from the spirit of the present invention.

For example, in the present embodiment, the hydraulic operation method is used as the operation method of the automatic on-off valve 40, but the operation method does not have to be limited, and the air operation method may be used.

Further, in the present embodiment, the automatic on-off valve 40 is opened by supplying a working fluid such as hydraulic oil, but on the contrary, the automatic on-off valve 40 is closed by supplying a working fluid. It may be. Further, in accordance with this, the operation of supplying or recovering the hydraulic oil by opening or closing the solenoid valve may be the reverse operation of the present embodiment, and the solenoid valve may be opened or demagnetized by exciting or degaussing the solenoid portion. The closing operation may also be the reverse operation of the present embodiment.

Further, in the present embodiment, the time delay of the delay timer is set to 2.5 seconds, but it may be between 1.0 second and 4.0 seconds, and the pipe length of the pumping pipe 30 and the pumping pump 20 Other than this may be used according to the characteristics.

10 High head concrete placing device 20 Pump for pumping 30 Piping for pumping 40 Automatic on-off valve (on-off valve)

Claims (4)

A pump for pumping concrete and
A pumping pipe connected to the pumping pump and extended to the concrete placement location,
The pumping pipe is provided with an on-off valve that can open and close the flow path of the pumping pipe.
The on-off valve is configured to be openable and closable in conjunction with the operating state of the pump for pumping.
High head concrete placing device. The high-head concrete placing device according to claim 1, wherein the starting circuit of the pump for pumping includes a delay timer. The concrete pumping process, which pumps concrete from the top to the bottom,
When the pumping of the concrete is stopped, the concrete flow path closing step of closing the flow path of the concrete and the concrete flow path closing step
A method for placing high-head concrete, which comprises a concrete flow path opening step of opening the concrete flow path when restarting the pumping of the concrete. In the concrete flow path opening step, the pumping of the concrete is restarted after a lapse of a predetermined time after opening the concrete flow path.
The method for placing high-head concrete according to claim 3.

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