JP2012200880A - Air mortar placing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air mortar placing system for calculating an index capable of appropriately indicating quality of placed air mortar.SOLUTION: The air mortar placing system includes: a batcher plant for forming sludge-like mortar; a foaming unit for sending out foaming diluent and air from an air compressor; a foaming cylinder for mixing the foaming diluent and compressed air to generate foam; a mortar conveyance pump for mixing the mortar and the foam and sending out them; a mortar flow meter; an air mortar flow meter; an air mortar management unit for collecting the weight of the mortar, a mortar flow rate, a flow rate of the foaming diluent, a flow rate of the compressed air and a flow rate of the air mortar at a fixed time interval and storing them into a memory card; and a personal computer for editing measured values recorded in the memory card and preparing an air mortar placement result table. In the air mortar placement result table, a wet density which is the ratio of the weight of the air mortar to the volume of the air mortar is indicated.

Description

  The present invention relates to an air mortar placing system, and more particularly, to an air mortar placing system which is made by mixing mortar and foam and calculates an index of the quality of air mortar sent to the place of placement. .

  In the conventional air mortar placing system, as shown in FIG. 6, a mortar is first made in the batcher plant 1 and is sent out to the mixing cylinder 8 by the mortar transport pump 2. On the other hand, the foam dilution liquid is pumped out from the foam dilution liquid tank 27 by the pump 28, foamed together with the air sent from the air compressor 17, foamed by the foam cylinder 7, and sent to the mixing cylinder 8. The air mortar 25 made of the mixing cylinder 8 is filled in a gap of the structure at the placement site 30. The amount of mortar is measured by the mortar flow meter 3, and the amount of air mortar 25 is measured by the air mortar flow meter 4. Therefore, in the air mortar placing result table, for example, the amount of air mortar and the amount of mortar placed are shown, but the amount of air and the amount of foaming dilution liquid are not shown.

  The air mortar placing device of Patent Document 1 is also provided with a flow meter for foaming dilution and a flow meter for an air compressor. Therefore, it is possible to show the input amount of the diluted foaming solution and the input amount of air in the air mortar placing result table. Further, the value of each flow meter can be recorded on the time axis, and the amount of air supplied to the time axis can be indicated.

  However, even if, for example, a pump or a valve is controlled with respect to the mortar supply amount to keep the air supply amount constant, the quality of the air mortar may not be sufficient. Even if the amount of mortar supplied is constant, the weight of the mortar varies. Even if the air is in a predetermined ratio, the quality of the air mortar is not appropriate.

JP 2009-150193 A

  An object of the present invention is to provide an air mortar placing system that calculates an index value indicating the quality of air mortar.

  The air mortar placing system according to the present invention mixes the weights of cement, water, fine aggregate and admixture to create a mud mortar, mixes dilution water and foaming stock solution, and dilutes the foam. A foaming unit for producing compressed liquid and sending compressed air by an air compressor; a foaming cylinder for producing foam by mixing the foamed dilution liquid sent from the foaming unit and compressed air; the mortar from the batcher plant; A mortar transfer pump that mixes foam from the foam cylinder and sends it to the placement site, a mortar flow meter that measures the flow rate of the mortar to be placed, an air mortar flow meter that measures the flow rate of the air mortar to be placed, and a mortar The weight, mortar flow rate, dilution water flow rate, foaming stock flow rate, compressed air flow rate and air mortar flow rate are collected at regular time intervals and stored in memory. An air mortar management unit that records data on a hard disk and a personal computer that creates an air mortar placement result table from the measurement data recorded on the memory card. The wet density value, which is the ratio of the weight of the air mortar to the volume, is indicated.

  The air mortar management unit controls the flow rate of the mortar conveying pump or the foaming unit so that the wet density is constant when the air mortar is not at a predetermined wet density.

  The air mortar management unit displays the operational status of the foaming unit and the batcher plant at the installation site, and changes the set value of the mortar delivery amount, compressed air and dilution water to reduce the air mortar placement amount. A remote control panel that can be adjusted is provided.

  According to the air mortar placing system of the present invention, the air mortar placing unit includes an air mortar management unit that records weight and flow rate, and a personal computer that creates an air mortar placing result table from the recorded measurement values. Since the result table shows the value including the wet density, which is the ratio of the weight of the air mortar to the volume of the air mortar, it can be shown whether the weight of the mortar is not changing with respect to the volume of the air mortar. .

  The air mortar management unit controls the flow rate of the mortar transfer pump or foaming unit so that the wet density is constant when the air mortar is not at a predetermined wet density, so that the quality of the air mortar can be made uniform. .

  Since a remote control panel is provided at the site, the construction manager can directly monitor the operation status of the foaming unit and batcher plant at the site. Moreover, the amount of air mortar placement can be adjusted by changing the set value of mortar, compressed air and dilution water.

It is a block diagram of the air mortar placement system by this invention. It is explanatory drawing which shows the connection relation of the air mortar management unit of FIG. It is a control flowchart of the air mortar management unit of FIG. It is explanatory drawing of the wet density of air mortar. It is an example of an output of an air mortar placing result table. It is a block diagram of the conventional air mortar placement system.

  Hereinafter, an air mortar placing system according to the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram of an air mortar placing system according to the present invention. The air mortar placing system 100 includes a batcher plant 1, a foam unit 5, a foam cylinder 7, a mortar transfer pump 2, a mortar flow meter 3, an air mortar flow meter 4, an air mortar management unit 6, and a personal computer 21. The air mortar 25 is sent to the placement site 30 and filled in the interior (banking) surrounded by walls and structures or natural grounds, or in the gaps between pipes.

  The batcher plant 1 is an apparatus for making mortar. Although it is an apparatus that builds a predetermined amount in a batch type in advance, it may be a mixing plant that continuously makes a small amount in real time. The mortar is a mud in which the weights of cement, water, fine aggregate and admixture are mixed and stirred. When mixing, each weight is measured, but after mixing, the weight may be measured. The measured value related to the weight of the mud is sent to the air mortar management unit 6.

  The foaming unit 5 mixes the diluting water 10a of the diluting water tank 10 and the foaming stock solution 14a of the foaming stock solution tank 14 to form a foamed diluting solution and send it out by the foaming diluting solution pump 12, and send out compressed air by the air compressor 17. Includes two of the devices. The foaming stock solution 14 a is pumped out by the foaming stock solution pump 15. A filter 18 is provided downstream of the air compressor 17. The flow rate of the dilution water 10 a is measured by the dilution water flow meter 11, the flow rate of the foaming stock solution 14 a is measured by the foaming stock solution flow meter 16, and the flow rate of the compressed air is measured by the air flow meter 19. These measured values are sent to the air mortar management unit 6. Further, according to an instruction from the air mortar management unit 6, the flow rate of the compressed air can be increased or decreased by controlling the foaming stock solution pump 15 and the foamed dilution liquid pump 12, and the flow rate of the compressed air can be increased or decreased by controlling the regulator 13.

  The foaming cylinder 7 is a device that generates foam by mixing the foamed diluent sent from the foaming unit 5 and compressed air. The foam has a structure in which a film of a foamable aqueous solution surrounds the air.

  The mortar transport pump 2 mixes the mortar from the batcher plant 1 and the foam from the foam cylinder 7 and sends them to the placement site. The bubbles are merged by the mortar conveyance pump 2. Although it depends on the scale of placement, foam can be mixed in the mortar without the mixing cylinder 8 as shown in FIG. The mortar transport pump 2 is controlled by an instruction from the air mortar management unit 6 and can increase or decrease the discharge amount of mortar.

  The mortar flow meter 3 measures the flow rate of the mortar. The air mortar flow meter 4 measures the flow rate of the air mortar to be placed. These measured values are sent to the air mortar management unit 6.

  The air mortar management unit 6 is connected to the batcher plant 1, the foaming unit 5, the mortar transport pump 2, the mortar flow meter 3, and the air mortar flow meter 4, and the mortar weight, mortar flow rate, dilution water flow rate, foaming stock solution Flow rate, compressed air flow rate and air mortar flow rate are collected at regular time intervals. The measured data is recorded on a memory card.

  When the memory card is removed from the air mortar management unit 6 and set in the personal computer 21, the personal computer 21 reads the measured value recorded on the memory card and creates an air mortar placing result table. The personal computer 21 and the air mortar management unit 6 may be connected via a LAN, and the memory card may be read out via the LAN.

  As shown in FIG. 1, the installation site 30 is provided with a remote control panel 9 (including a 5-inch liquid crystal display) from the air mortar management unit 6. From the remote control panel 9, the operating status of the foaming unit 5 and the batcher plant 1 can be monitored. Moreover, the setting amount of the air mortar can be changed by changing the set value of the mortar, the compressed air, and the dilution water. According to this, the construction manager can grasp the status of the entire system while checking the construction status at the placement site. Moreover, it can always set to the optimal state and can maintain high construction efficiency.

  Table 1 shows the functions of the remote control panel 9. As shown in Table 1, the remote control panel 9 displays the monitoring item a1 of the air mortar management unit 6 and can operate the operation item b1. Here, the monitoring item a1 includes air mortar data and operation status. The air mortar data includes the mortar flow rate and pressure, the flow rate and pressure of dilution water, the flow rate and pressure of compressed air, the flow rate of foaming stock solution, and the wetness. There is density. The operation status includes the operation status of the device, the control amount of the device, and the alarm item display when the alarm is issued. According to the operation item b1, switching between manual operation and automatic operation, switching of construction setting for each construction method, switching of a placement amount for every hour, and setting of a device control amount at the time of manual operation can be performed. The remote control panel 9 further displays the monitoring item a2 of the batcher plant 1 and can operate the operation item b2. The monitoring item a2 includes an indication of whether automatic operation is in progress or a stop, an alarm item display when an alarm is issued, and a measured value of the grout kneaded immediately before. According to the operation item b2, the start and end of automatic driving can be operated.

  FIG. 2 is an explanatory diagram showing the connection relationship of the air mortar management unit 6 of FIG. The connection destination (the mortar transfer pump 2, the mortar flow meter 3, the air mortar flow meter 4, and the foaming unit 5) communicates with a serial interface or an analog signal with a small number of signal lines. Since an analog signal is handled, the air mortar management unit 6 includes an A / D converter and a D / A converter. The measurement data is recorded on an SD memory card (registered trademark) 20. An air mortar placing result table 22 is created by referring to the measurement data from the personal computer 21.

  FIG. 3 shows a control flowchart of the air mortar management unit 6 of FIG. The batcher plant 1 creates a mud-like mortar, and when weighing (in this case, weight) is completed, the weighing data is transmitted to the air mortar management unit 6. The air mortar management unit 6 stores the received data. Also, the operation starts when the mortar flow rate set value is set. Adjust the wet density to an appropriate value from the mortar flow rate. As an example, here, the measurement values of each flow meter are collected and recorded in a memory card at intervals of 1 minute.

FIG. 4 is an explanatory diagram of the wet density of the air mortar. The volume V _T of the air mortar, the volume of the mortar, the volume of dilution water, the volume of the foam stock solution, composed of the volume of air. Here, the weight Wa of the mortar, weight Wb of the dilution water, taking the sum of the weight Wc of the foam stock solution, divided by the volume V _T is the wet density of the air mortar. Since air has zero weight, the value added to the molecule is zero.

FIG. 5 is an output example of the air mortar placing result table 22. The total amount of air mortar placement (upper right of the table) is 297 m ³ . The amount of mortar is 105.7 m ³ . The measurement was performed every minute and recorded, but the vertical column of the placement time is shown about every 12 minutes. For example, the flow rate (L / min) of the air mortar at time 10:32 indicates 831 (L / min). This corresponds to the sum of mortar flow rate 297 (L / min) + dilution water flow rate 26.2 (L / min) + foaming stock solution flow rate 0.45 (L / min) + air flow rate 507 (L / min). . When the flow rate of the air mortar is 831 (L / min), after 12 minutes, the placement amount is 10 m ³ (= 831 (L / min) × 12 minutes × (1/1000)). The placement amount at time 10:42 12 minutes after time 10:32 is 20 m ³ . Note that air is obtained by converting compressed air to atmospheric pressure.

  The mortar density (kg / L) is notified from the batcher plant 1 as time, and the value at time 10:32 is 1.67 (kg / L). The wet density at time 10:32 is calculated as 0.63 (kg / L). It is calculated that the molecular value of the wet density is 1.67 (kg / L) × 297 (L / min) +1 (kg / L) × (26.2 + 0.45) (L / min) = 522 kg, This is because the value of the denominator of the wet density is 831 (L / min). The wet density index is shown in the upper right of the table.

  According to the wet density, the mortar flow rate is constant at 297 (L / min) from time 10:44 to time 16:14, so there is no problem unless attention is paid to the weight of the mortar. The density of the mortar is reduced to 1.65 (kg / L) at time 12:21. This change can be grasped by calculating the wet density. Therefore, it is suitable as an index representing the quality of air mortar. When the air mortar management unit 6 detects that the air mortar is not at a predetermined wet density, the air mortar management unit 6 controls the flow rate of the mortar transport pump 2 or the foaming unit to control the air density so that the wet density is constant. Improve mortar quality.

  According to the present invention, the quality of the air mortar is expressed by the wet density, and the wet density is controlled to be constant, which is suitable for a high quality air mortar placing system.

DESCRIPTION OF SYMBOLS 1 Batcher plant 2 Mortar conveyance pump 3 Mortar flow meter 4 Air mortar flow meter 5 Foaming unit 6 Air mortar management unit 7 Foaming tube 8 Mixing tube 9 Remote operation panel 10 Dilution water tank 11 Dilution water flow meter 12 Foam dilution liquid pump 13 Adjuster 14 Foam concentrate tank 15 Foam concentrate pump 16 Foam concentrate flow meter 17 Air compressor 18 Filter 19 Air flow meter 20 Memory card 21 Personal computer 22 Air mortar placing result table 25 Air mortar 27 Foam diluent tank 28 Pump 30 Placing Site 100 Air mortar placement system

Claims (3)

A batcher plant that mixes the weight of cement, water, fine aggregate and admixture to create a mud mortar,
A foaming unit that mixes dilution water and foaming stock solution to create a foamed dilution solution, and sends compressed air with an air compressor;
A foaming cylinder for producing foam by mixing the foaming diluent sent from the foaming unit and compressed air;
A mortar conveying pump that mixes the mortar from the batcher plant and the foam from the foaming cylinder and feeds it to the setting site;
A mortar flow meter that measures the flow rate of the mortar to be placed;
An air mortar flow meter for measuring the flow rate of the air mortar to be placed;
An air mortar management unit that collects mortar weight, mortar flow rate, dilution water flow rate, foaming stock solution flow rate, compressed air flow rate and air mortar flow rate at regular time intervals and records them in a memory card;
A personal computer for creating an air mortar placement result table from the measurement data recorded in the memory card,
The air mortar placing system, wherein the air mortar placing result table shows a wet density which is a ratio of the weight of the air mortar to the volume of the air mortar.
The air mortar management unit controls the flow rate of the mortar conveying pump or the foaming unit so that the wet density is constant when the air mortar is not at a predetermined wet density. The air mortar placing system according to 1.
The air mortar management unit displays the operational status of the foaming unit and the batcher plant at the installation site, and changes the set value of the mortar delivery amount, compressed air and dilution water to reduce the air mortar placement amount. The air mortar placing system according to claim 1, further comprising an adjustable remote control panel.

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