KR101143549B1 - Apparatus for taking blocking measures upon moving concrete pumping - Google Patents

Abstract

PURPOSE: A device for treating stoppage when concrete is pumped and transferred is provided to prevent the stoppage of a pipe using microwaves which are the same as the resonance frequency of water molecules in concrete. CONSTITUTION: A device(1) for treating stoppage when concrete is pumped and transferred comprises a pipe unit(10) and a control unit(20). The pipe unit checks the inner pressure of a pipe for conveying concrete and wirelessly transmits the checked inner pressure. The pipe unit irradiates the inside the pipe with microwaves depending on the transmitted inner pressure. When the transmitted inner pressure exceeds reference pressure, the control unit controls the pipe unit to stop the operation of a pump and irradiate the inside the pipe with microwaves.

Description

Blocking measures device for conveying concrete pumping {APPARATUS FOR TAKING BLOCKING MEASURES UPON MOVING CONCRETE PUMPING}

The present invention relates to an occlusion measure device for transporting concrete pumping, and in particular, an electrode is inserted into a pressure feeding pipe, and a pressure sensor is installed around the electrode inserted into the pressure feeding pipe to wirelessly transmit the pipe pressure through the pressure sensor in real time. When the pressure of the pump pipe exceeds the standard pressure, the microwaves are irradiated with microwaves with the same resonant frequency of the water molecules in the concrete inside the pump pipe. Regarding the blockage countermeasure device for the pumping of concrete pumps to increase the partial pressure of water molecules and to relocate the aggregate due to the internal partial pressure and to reduce the pressure for generating the aggregate flow in the pressurized pipe so that the flow pressure of the pump car can be applied. will be.

In order to pour concrete in a high-rise building, concrete is pumped by pumping the concrete in the hopper up to a high floor using a concrete pumping device equipped with a pump. In this case, several concrete booms are connected from the discharge pipe of the hopper to the casting site. It will be pumped to the required height.

However, when the concrete is poured by high pressure pump pressure, a considerable pressure is applied to the pipeline as it goes up to a higher floor. Accordingly, the internal characteristics of the concrete that are pushed along the pipeline also change greatly due to internal pressure.

In particular, when material separation occurs during the change of physical properties, aggregates may be aggregated to hinder flow and increase frictional pressure with pipes, thereby increasing the pressure of a pump necessary for flow, and thus preventing pressure feeding.

As a result of this, when the gradual blockage occurs, the pressure in the pump equipment increases and the pressure in the pipe also increases. In this case, a considerable load is applied to the pump car to push out the concrete that is hardening. The pressure required, which can not be solved by the existing pump car, it takes a considerable amount of time to take action, the pipe is clogged, resulting in a cost, and the disadvantages such as prolonged construction period have.

The present invention is to solve the above problems, the electrode is inserted into the pressure feed pipe, the pressure sensor is installed around the electrode inserted into the pressure feed pipe to transmit the pipe pressure wirelessly through the pressure sensor to monitor in real time When the pipe pressure exceeds the reference pressure, the partial pressure of water molecules between the aggregate and aggregate due to the evaporation of water molecules is investigated by irradiating microwave waves equal to the resonant frequency of water molecules in the concrete inside the pumping pipe in the state of stopping the pump car. To provide a blockage action device for the pumping of concrete to increase the pressure of the pump car so that the pressure for generating the flow of aggregate in the pressure feed pipe can be reduced by relocating the aggregate by increasing the internal partial pressure. There is this.

Features of the present invention for achieving the above object,

A pipe part connected to a pump of a pump car and wirelessly checking the pressure inside the pressure feeding pipe for pumping concrete, and irradiating microwaves into the pressure feeding pipe under an external wireless control; And a control unit for controlling the piping unit to irradiate microwaves of a predetermined frequency into the pressure feeding pipe in a state where the pump operation of the pump car is stopped when the pressure inside the pressure feeding pipe transmitted from the pipe part exceeds a reference pressure. It is characterized by.

Here, the pipe portion is inserted into the inside of the pressure feed pipe, respectively, a plurality of electrodes for irradiating a microwave of a predetermined frequency into the pressure feed pipe; A microwave generator installed outside the pressure feed pipe and configured to generate a microwave and provide the microwave to the electrode; A pressure sensor which is inserted into each of the pressure feeding pipes around each of the electrodes and checks the pressure inside the pressure feeding pipes; And a first wireless transceiver for wirelessly transmitting a pressure signal from the pressure sensor and receiving an external wireless control signal.

Here, the constant frequency is the same frequency as the resonance frequency of the water molecules in the concrete to evaporate the water molecules in the concrete to expand the volume.

Here, the control unit includes a second wireless transceiver for receiving a wireless signal from the first wireless transceiver, and transmits a control signal generated from the controller to the first wireless transceiver; A monitor configured to display basic information necessary for operation and a sensing value of the pressure sensor in real time; And a controller configured to monitor the pressure supply pipe pressure in real time, and transmit a control signal to the pipe part while the pump car operation is stopped when the pressure pipe pressure exceeds the reference pressure to irradiate microwaves through the electrodes of the pipe part. Is made of.

Here, the controller controls the pipe unit to transmit a control signal to the pipe unit when the pressure pipe pressure drops below the reference pressure to stop the microwave irradiation, and operate the pump car.

According to the present invention, when the concrete pumping transfer blockage arrangement device configured as described above, the electrode is inserted into the pressure feed pipe, the pressure sensor is installed around the electrode inserted in the pressure feed pipe to transmit the pipe pressure wirelessly through the pressure sensor in real time When the pressure of the pump pipe exceeds the standard pressure, the microwaves are irradiated with microwaves with the same resonant frequency of the water molecules in the concrete inside the pump pipe. Increase the partial pressure of water molecules, and relocate the aggregates due to the increase in the internal partial pressure so that the pressure to generate the flow of aggregates in the pressure feeding pipe is reduced so that the flow pressure of the pump car can be applied, thereby urging against the blockage generated during the concrete feeding. Take measures to prevent blockage of residual concrete in the pipeline. Prevent it, recover it, maintain the pipe, and continue construction.

1 is a block diagram showing the configuration of the blockage measures device during the concrete pumping transfer according to the present invention.
2 and 3 are operation explanatory diagrams for explaining the operation of the blockage measures device when transporting concrete pumping according to the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration of the blockage measures device for concrete pumping transfer according to the present invention in detail as follows.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

Figure 1 is a block diagram showing the configuration of the blockage measures device during the concrete pumping transfer according to the present invention, Figure 2 and Figure 3 is an operation explanatory view for explaining the operation of the blockage measures device during the concrete pumping transfer according to the present invention.

1 to 3, the blockage measurer 1 during the concrete pumping transfer according to the present invention includes a pipe 10 and a controller 20.

First, the pipe part 10 is comprised of the electrode 11, the microwave generator 13, the pressure sensor 15, and the first wireless transceiver 17.

Electrode 11 is connected to the pump (not shown) of the pump car, respectively inserted into the inside of the pressure feed pipe (P) for pumping concrete, and irradiates microwaves of a predetermined frequency into the pressure feed pipe (P). Here, it is preferable that the electrode 11 minimize the protrusion in the pressure feeding pipe P to minimize the influence on the pressure feeding of the concrete. Here, it is preferable that the electrodes 11 are each provided at least one or more in the unit feed pipe made of a predetermined length.

The microwave generator 13 is installed on the outside of the pressure feed pipe P, and generates a microwave according to a control signal of the controller 25 of the controller 20 to be described below, and provides the microwave to each electrode 11. Here, it is preferable that the microwave generator 13 is electrically connected to each electrode 11, and a plurality of microwave generators 13 may be installed when the length of the pressure feeding pipe P is long. Here, the constant frequency is the same frequency as the resonance frequency of the water molecules in the concrete to evaporate the water molecules in the concrete to expand the volume.

The pressure sensor 15 is inserted in the inside of the pressure feed pipe P around each electrode 11, respectively, and checks the pressure inside the pressure feed pipe P. As shown in FIG.

The first wireless transceiver 17 wirelessly transmits a pressure signal from the pressure sensor 15 and receives a radio control signal of the control unit 20. Here, a converter (not shown) for converting the analog signal of the pressure sensor 15 into the digital signal may be provided.

The control unit 20 includes a second wireless transceiver 21, a monitor 23, and a controller 25.

The second wireless transceiver 21 receives a radio signal from the first wireless transceiver 17 and transmits a control signal generated from the controller 25 to be described below to the first wireless transceiver 17.

The monitor 23 displays basic information necessary for operation and a sensing value of the pressure sensor 15 in real time. Here, the monitor 23 may notify the manager of the occlusion using flashing, color conversion, alarm, or the like when the pressure of the pressure feed pipe P exceeds the reference pressure under the control of the controller 25.

The controller 25 monitors the pressure supply pipe pressure in real time and transmits a control signal to the microwave generator 13 of the pipe section 10 in a state in which the pump car is stopped when the pressure supply pipe P pressure exceeds the reference pressure. It transmits and irradiates a microwave through the electrode 11 of the piping part 10. Here, the controller 25 transmits a control signal to the microwave generator 13 to stop the irradiation of the microwave by operating the pump of the pump car when the pressure feeding pipe pressure of the pipe 10 drops below the reference pressure.

Hereinafter, with reference to the accompanying drawings, the operation of the blockage measures device when transporting concrete according to the present invention will be described in detail.

First, in a state in which concrete is pumped through the pressure feed pipe P, the controller 25 checks the pressure inside the pressure feed pipe P through the pressure sensor 15 and displays it in real time on the monitor 23.

In this state, the controller 25 stops the pump car operation when the pressure supply pipe P exceeds the reference pressure, and transmits a control signal to the microwave generator through the second wireless transceiver 21 and the first wireless transceiver 17. Transfer to (13).

Then, as shown in FIG. 2, the microwave generator 13 generates the microwave, and irradiates the inside of the pressure feeding pipe P through the electrode 11 of the pipe part 10.

Thus, by irradiating microwave waves equal to the resonant frequency of the water molecules in the concrete inside the pressure feed pipe (P) to increase the partial pressure of the water molecules between the aggregate and aggregate caused by the evaporation of the water molecules.

Then, as shown in FIG. 3, the aggregate is rearranged due to the increase in the internal partial pressure, that is, the interval of the aggregate is widened, so that the blockage is eliminated, thereby reducing the pressure for generating the flow of the aggregate in the pressure feeding pipe P, and as the pressure decreases. Due to this, the flow pressure of the pump car can be applied to pressurize the concrete.

On the other hand, the controller 25 transmits a control signal to the microwave generator 13 to stop the irradiation of the microwave, and operates the pump of the pump car when the pressure pipe pressure of the pipe 10 drops below the reference pressure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. Should be.

10: pipe portion 11: electrode
13: microwave generator 15: pressure sensor
17: first wireless transceiver 20: control unit
21: second wireless transceiver 23: monitor
25): controller

Claims (5)

A plurality of electrodes connected to the pump of the pump car and inserted into the pumping pipe for pumping concrete, respectively, for irradiating microwaves of a predetermined frequency into the pumping pipe, and installed outside the pumping pipe, A microwave generator for generating and providing the electrode to the electrode, a pressure sensor inserted into each of the pressure pipes around each of the electrodes, for checking a pressure inside the pressure pipes, and a pressure signal from the pressure sensor. A pipe unit configured to be a first wireless transceiver configured to transmit a wireless control signal and receive an external radio control signal;
A second wireless transceiver for receiving a wireless signal from the first wireless transceiver of the pipe and transmitting a control signal generated from a controller to the first wireless transceiver, basic information necessary for operation, and a sensing value of the pressure sensor in real time; A monitor to display in real time, and monitors the pressure of the pressure feed pipe in real time, and if the pressure pipe pressure exceeds the reference pressure, the control signal is transmitted to the pipe part in a state where the pump car is stopped, the concrete through the electrode of the pipe part When microwaves of the same frequency as the resonance frequency of the water molecules therein is irradiated to evaporate the water molecules in the concrete inside the pressure pipe to expand the volume, and control the pipe portion when the pressure pipe pressure drops below the reference pressure Microphone by sending control signal to pipe Stopping the low-wave irradiation, the control unit consisting of a microcontroller for operating the pump car, characterized in that the control device consisting of a pump for transporting concrete characterized in that the transfer. delete delete delete delete

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