JP2020148011A - Chemical liquid injection system, and chemical liquid injection method - Google Patents

Abstract

To provide a chemical liquid injection system and a chemical liquid injection method considering temperature characteristic of a chemical liquid.SOLUTION: A chemical liquid injection system (100) of this invention supplying two kinds of chemical liquids that solidify when mixed into an underground and mixing them comprises: a chemical liquid temperature measurement device (1A, 1B: a thermometer) measuring liquid temperature of the two kinds of chemical liquids; a temperature adjustment device (2A, 2B, 2-1: a cooling device or a heating device) adjusting liquid temperature of the two kinds of chemical liquids; and a control device (10: a control unit). The control device (10) includes a function of adjusting liquid temperature of the two kinds of chemical liquids by the temperature adjustment device (2A, 2B, 2-1) based on measurement results of the temperature measurement device (1A, 1B).SELECTED DRAWING: Figure 1

Description

The present invention relates to an injection system for injecting an injection chemical solution (for example, cement milk) into the ground using an injection device, and a chemical solution injection method using the same.

In the chemical injection method, two types of chemicals that do not solidify by themselves but solidify when mixed are prepared, and the chemicals are pressed into the ground and mixed to fill cracks, voids, etc. in the ground. Is filled and solidified.
Here, the time (or gel time) for solidification after mixing the two chemical solutions depends on the concentration, specific gravity, measurement ratio, and water temperature (liquid temperature) of the chemical solutions. In particular, it depends largely on the concentration and water temperature. The characteristics (relative relationship) between the ease of solidification of the chemical solution and the liquid temperature (water temperature) are shown in FIG.
Conventionally, chemicals are mixed indoors, the time (gel time) until solidification after mixing is measured, and construction is performed based on the data.

However, it is difficult to maintain the chemical solution (two solutions) at a predetermined temperature (for example, 20 ° C.) at the construction site of the chemical solution injection method. In particular, in the chemical injection method, a large amount of chemical (4000 to 5000 liters per boring machine per day) is often used, and it is difficult to adjust the temperature of such a large amount of chemical.
Therefore, in the prior art, no consideration is given to the temperature characteristics of the chemical solution when the chemical solution injection method is carried out.

As another conventional technique, a technique for preventing the chemical solution from flowing back when the high-pressure packer is removed has been proposed (see Patent Document 1), but no consideration is given to the temperature characteristics of the chemical solution described above.

Japanese Unexamined Patent Publication No. 2018-71097

The present invention has been proposed in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide a chemical solution injection system and a chemical solution injection method in consideration of the temperature characteristics of the chemical solution.

The chemical solution injection system (100) of the present invention is a chemical solution injection system that supplies and mixes two types of chemical solutions that solidify when mixed, and is a chemical solution temperature measuring device (100) that measures the liquid temperature of the two types of chemical solutions. 1A, 1B: thermometer), a temperature adjusting device (2A, 2B, 2-1: cooling device or heating device) for adjusting the temperature of the above two types of chemicals, and a control device (10: control unit). The control device (10) has a function of adjusting the liquid temperature of the two types of chemicals by the temperature adjusting device (2A, 2B) based on the measurement result of the temperature measuring device (1A, 1B). It is characterized by being.

In the present invention, the temperature control device (2A, 2B) is preferably interposed in each of the supply systems (3, 4) for supplying the two types of chemicals to the ground.
Alternatively, the temperature control device (2-1) is preferably provided in a storage facility (5) that stores water that dilutes at least one of the two types of chemical solutions.

Further, it is preferable that the chemical solution temperature measuring device (1A, 1B) is interposed in each of the supply systems (3, 4) for supplying the two types of chemical solutions to the ground.
Further, in the present invention, in addition to the chemical solution temperature measuring device (1A, 1B), a groundwater temperature measuring device (6) for measuring the groundwater temperature at the construction site is provided, and the control device (10) measures the chemical solution temperature. In addition to the measurement results of the devices (1A, 1B), the temperature adjusting devices (2A, 2B, 2-1) adjust the liquid temperatures of the two types of chemicals based on the measurement results of the groundwater temperature measuring device (6). It is preferable that it has a function.

The chemical injection method of the present invention is a chemical injection method in which two types of chemicals that solidify when mixed are supplied to the ground and mixed.
The process of measuring the liquid temperature of the above two types of chemicals with a chemical temperature measuring device (1A, 1B: thermometer), and
It has a step of adjusting (cooling or heating) the liquid temperature of the two types of chemicals by the temperature adjusting device (2A, 2B, 2-1) based on the measurement result of the temperature measuring device (1A, 1B). It is characterized by being.

In the present invention, the temperature control device (2A, 2B) is interposed in a supply system (3, 4) that supplies each of the two types of chemicals to the ground.
In the step of adjusting the liquid temperature, it is preferable to adjust the temperatures of the two types of chemicals.
Alternatively, the temperature control device (2-1) is provided in a storage facility (5) for storing water that dilutes at least one of the two types of chemical solutions.
In the step of adjusting the liquid temperature, it is preferable to adjust the temperature of the water stored in the storage facility (5).
Further, in the present invention, it is preferable that the chemical solution temperature measuring device (1A, 1B) is interposed in each of the supply systems for supplying the two types of chemical solutions to the ground.

In addition, it has a process of measuring the groundwater temperature at the construction site using the groundwater temperature measuring device (6).
In the step of adjusting the liquid temperature, in addition to the measurement results of the chemical liquid temperature measuring device (1A, 1B), the temperature adjusting device (2A, 2B,) is based on the measurement results of the groundwater temperature measuring device (6). It is preferable to adjust the temperature of the two types of chemicals according to 2-1).

According to the present invention having the above-described configuration, the liquid temperatures of the two types of chemicals that solidify when mixed are measured, and the liquid temperatures of the two types of chemicals are adjusted (cooled or heated) based on the measurement results. Therefore, it is possible to realize the optimum consolidation time (gel time) for the properties and specifications of the construction site.
At the same time, in the present invention, if the groundwater temperature at the construction site is measured and the liquid temperatures of the above two types of chemicals are adjusted, a consolidated type chemical solution or a medium-consolidated type chemical solution (in some cases, a loose type chemical solution) can be obtained. The liquid temperature when (including) is mixed in the ground can be adjusted so that the optimum consolidation time at the construction site is obtained in consideration of the influence of the groundwater temperature.

It is a block diagram which shows the 1st Embodiment of this invention. It is a control flowchart of 1st Embodiment. It is a block diagram which shows the 2nd Embodiment of this invention. It is a block diagram which shows the 3rd Embodiment of this invention. It is a control flowchart of 3rd Embodiment. It is the control of the 3rd Embodiment, and is the flowchart which shows the control different from FIG. It is a block diagram which shows the 4th Embodiment of this invention. It is a control flowchart of 4th Embodiment. It is a block diagram which shows the 5th Embodiment of this invention. It is a block diagram which shows the 6th Embodiment of this invention. It is a control flowchart of 6th Embodiment. It is a characteristic diagram which shows that the solidification of an injection drug liquid depends on a liquid temperature (water temperature).

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the illustrated embodiment, the same members are designated by the same reference numerals, and duplicate description will be omitted.
First, the first embodiment of the present invention will be described with reference to FIGS. 1 and 2.
In FIG. 1, the entire chemical injection system according to the first embodiment is indicated by reference numeral 100. The chemical solution injection system 100 is a system that supplies two types of chemical solutions (two-component mixed type chemical solutions) that solidify when mixed, and is a first chemical solution supply system 3 (first chemical solution line), first. It has 2 chemical solution supply systems 4 (second chemical solution line).
Here, the two-component mixed type injection drug solution is an instant consolidation type that consolidates in "seconds" units after mixing, a middle-consolidation type that consolidates in "minutes" units after mixing, and "hours (h)" units after mixing. There is a loose type that solidifies. Then, in the instant connection type and the intermediate connection type, the temperature of each of the two solutions is adjusted (heated or cooled) before the two solutions are mixed. On the other hand, in the loose-knot type, the temperature may be adjusted (heated or cooled) after mixing the two liquids, but like the instant-knot type and the intermediate-knot type, it can be heated or cooled before mixing.

In the illustrated embodiment, the two types of chemicals (first chemical, second chemical) are injected into the ground and mixed after the underground injection. In FIGS. 1, 3, 4, 4, 7, 9, and 10, the mixed region in the ground is indicated by reference numeral M. Then, in the illustrated embodiment, the two types of chemicals (first chemical, second chemical) are placed in the first and second chemical lines before mixing (before being injected into the ground). , Each temperature is adjusted to an appropriate temperature (for example, 20 ° C.).
In FIG. 1, the first chemical solution line 3 and the second chemical solution line 4 are arranged for underground excavation from the first chemical solution injection pump mixer 7 and the second chemical solution injection pump mixer 8 at the chemical solution injection site, respectively. It communicates with the underground side via the boring machine 9. The first chemical solution line 3 and the second chemical solution line 4 are arranged in parallel, for example.
The first chemical injection pump mixer 7 and the second chemical injection pump mixer 8 are connected to the first chemical supply source 11 and the second chemical liquid supply source 12 by pipes, respectively, and are connected by water supply pipes 15 and 16, respectively. It is connected to a water tank 5 (storage facility) for storing water. Although not shown, the water tank 5 can be connected by piping so as to dilute at least one of the two chemical solutions.

In the first chemical solution line 3 and the second chemical solution line 4, the upstream chemical solution temperature measuring device 1A (upstream thermometers 1A1, 1A2) for measuring the liquid temperature of each chemical solution and the downstream chemical solution temperature measurement Device 1B (downstream thermometers 1B1, 1B2) is interposed.
Temperature adjusting devices 2A and 2B (heating device or cooling device) for adjusting the temperature of the respective chemical solutions are interposed between the thermometers 1A and 1B on the upstream side and the downstream side. Flow meters 13 and 14 for measuring and adjusting the flow rate of the chemical solution are arranged between the upstream thermometers 1A1 and 1A2, the first chemical injection pump mixer 7 and the second chemical injection pump mixer 8, respectively. ..
In FIG. 1, the chemical injection system 100 has a control device 10 (control unit), and the control unit 10 is the first and first measured by the upstream thermometers 1A1 and 1A2 by the signal lines SL1 and SL2. Receive the temperature measurement result of the chemical solution of 2. Then, the signal lines SL3 and SL4 receive the temperature measurement results of the first and second chemical solutions measured by the downstream thermometers 1B1 and 1B2, and transmit the control signal to the temperature adjusting device 2A via the signal line SL5A. Then, a control signal is transmitted to the temperature control device 2B via the signal line SL5B.

In FIG. 1, the first chemical injection pump mixer 7 and the second chemical injection pump mixer 8 are the first and second chemical liquids supplied from the first chemical liquid supply source 11 and the second chemical liquid supply source 12, respectively. And the water supplied from the water tank 5 are mixed and discharged to the first chemical solution line 3 and the second chemical solution line 4. Although not shown in FIG. 1, the water supplied from the water tank 5 may be supplied to only one of the first chemical solution line 3 and the second chemical solution line 4.
The liquid temperatures of the first and second chemicals flowing through the first and second chemical lines 3 and 4 are measured by the upstream thermometers 1A1 and 1A2 and the downstream thermometers 1B1 and 1B2. The temperature regulators 2A and 2B are set to appropriate temperatures (for example, 20 ° C.) based on the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1 and 1A2 and the downstream thermometers 1B1 and 1B2, respectively. Therefore, it heats or cools according to the control signal from the control unit 10.
In FIG. 1, the temperature regulators 2A and 2B are the first and second based on the measurement results of the thermometers 1A1 and 1A2 upstream of the temperature regulators 2A and 2B and the thermometers 1B1 and 1B2 downstream, respectively. Accurately and efficiently adjust the temperature of the chemical solution to the proper temperature.

Here, the temperature of the chemical solution flowing through the chemical solution lines 3 and 4 depends on the chemical solution temperature of the supply sources 11 and 12 and the water temperature of the water tank 5.
Then, depending on the construction environment, the construction conditions such as the season (high temperature in summer, low temperature in winter), and other conditions, whether the temperature control devices 2A and 2B are used as heating devices or cooling devices is changed. .. For example, when the temperature of the first and second chemical solutions flowing through the chemical solution lines 3 and 4 is lower than the appropriate temperature to be adjusted (for example, 20 ° C.) due to the construction conditions, the heating device is used as the temperature adjusting devices 2A and 2B. use. On the other hand, when the temperature of the chemical solution discharged to the chemical solution lines 3 and 4 is higher than the appropriate temperature to be adjusted (for example, 20 ° C.), a cooling device is used as the temperature adjusting devices 2A and 2B.
When the temperature control devices 2A and 2B are used as a heating device, for example, the first and second chemical solutions mixed with water having a temperature lower than 20 ° C. are cooled to a lower temperature than 20 ° C., and then the first and second chemical solutions are used. Can be adjusted to about 20 ° C. by heating with the temperature adjusting devices 2A and 2B, respectively.
Further, when the temperature adjusting devices 2A and 2B are used as a cooling device, for example, after the first and second chemical solutions mixed with water having a temperature higher than 20 ° C. are made higher than 20 ° C., the first and second chemical solutions are used. Can be adjusted to about 20 ° C. by cooling with the temperature adjusting devices 2A and 2B, respectively.

As the heating device as the temperature control devices 2A and 2B, existing technology can also be used.
For example, when an in-line heater is used, it is necessary to consider the corrosion resistance in the heated part.
On the other hand, in the method of heating the first and second chemicals by induction heating, unlike the in-line heater, the pipe itself through which the first and second chemicals are flowing can be heated.
Further, as the cooling device as the temperature adjusting devices 2A and 2B, existing technology such as a cooling water circulation type device can be used.
In the illustrated embodiment, the temperature adjusting devices 2A and 2B are interposed in the first chemical solution line 3 and the second chemical solution line 4, respectively, but a single temperature adjusting device (not shown) is the first. It is also possible to configure the chemical solution line 3 and the second chemical solution line 4 to intervene.

In FIG. 1, upstream thermometers 1A1, 1A2 and downstream thermometers 1B1, 1B21A are arranged on the upstream side and the downstream side of the temperature adjusting devices 2A and 2B, respectively. On the other hand, although not shown, it is possible to arrange only one of the upstream thermometers 1A1, 1A2 or the downstream thermometers 1B1, 1B2. When only one of the upstream thermometers 1A1, 1A2 or the downstream thermometers 1B1, 1B2 is arranged, the temperatures of the first and second chemical solutions are measured only by the upstream thermometers 1A1, 1A2, and the measurement results are obtained. The temperature may be adjusted by the temperature adjusting devices 2A and 2B based on the above. Alternatively, the temperatures of the first and second chemical solutions may be measured only by the downstream thermometers 1B1 and 1B2, and the temperature may be adjusted by the temperature adjusting device 2 based on the measurement results.
The first and second chemicals that have flowed through the first and second chemical lines 3 and 4 and have been adjusted to an appropriate temperature (for example, 20 ° C.) are injected into the ground via the boring machine 9 and are in the underground area. Mixed in M.
In the first chemical solution line 3, an on-off valve VB is interposed on the downstream side (boring machine 9 side) of the downstream thermometer 1B1, and in the second chemical solution line 4, the downstream side (boring) of the downstream thermometer 1B2. An on-off valve VA is interposed on the machine 9 side). The on-off valves VA and VB receive control signals from the control unit 10 via the signal lines SLVA and SLVB, respectively, and the on-off valves VA and VB are opened when the temperatures of the first and second chemical solutions are appropriate. , The on-off valves VA and VB are configured to control closing when the temperatures of the first and second chemical solutions are not appropriate.

The control of the first embodiment will be described mainly with reference to FIG.
In FIG. 2, in step S1, it is determined whether or not to carry out the chemical solution injection (whether to perform the chemical solution injection method).
In step S1, when the chemical solution injection is performed (step S1 is “Yes”), the process proceeds to step S2, and when the chemical solution injection is not performed (step S1 is “No”), the process returns to step S1.
In step S2, the temperatures of the first and second chemicals are measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 arranged in the chemical injection lines 3 and 4.

In step S3, the chemical solution temperature measured by the upstream thermometers 1A1 and 1A2 (the chemical solution temperature before the temperature is adjusted by the temperature adjusting devices 2A and 2B) and the chemical solution temperature measured by the downstream thermometers 1B1 and 1B2 ( It is determined whether or not the temperature of the chemical solution after the temperature is adjusted by the temperature adjusting devices 2A and 2B) is an appropriate temperature. As described above, the proper chemical temperature is, for example, 20 ° C. when injected into the ground, and the temperatures of the first and second chemicals measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2. If is about 20 ° C. (including a predetermined error range), it is judged that the temperature is appropriate. Here, it is considered that the measurement results of the downstream thermometers 1B1 and 1B2 are closer to the appropriate temperature than the measurement results of the upstream thermometers 1A1 and 1A2.
As a result of the determination in step S3, if the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are not appropriate temperatures (step S3 is "No"), the step The process proceeds to S4, and if the temperature is appropriate (step S3 is “Yes”), the process proceeds to step S5.

In step S4 (when the temperature is not appropriate), the heating amount or cooling amount of the temperature adjusting devices 2A and 2B is adjusted. When adjusting the heating amount or cooling amount of the temperature adjusting devices 2A and 2B, the control unit 10 adjusts the temperature adjusting device 2A based on the measurement results from the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2. , 2B is controlled to bring the temperatures of the first and second chemicals closer to the proper temperature. At the same time, in step S4 (when the temperature is not appropriate), the on-off valves VA and VB are closed. Then, the process returns to step S3.
In step S5 (when the temperature of the first and second chemicals is an appropriate temperature), the on-off valves VA and VB are opened to inject the first and second chemicals into the ground. Then, the process proceeds to step S6, and it is determined whether or not to end the chemical injection.
If the chemical solution injection is not completed in step S6 (step S6 is “No”), the process returns to step S2. When the chemical solution injection is terminated (step S6 is “Yes”), the control is terminated.
The control shown in FIG. 2 is automatic control by the control unit 10, but it can also be controlled by an operator.

According to the first embodiment of FIGS. 1 and 2, the liquid temperatures of the two types of chemicals (first chemicals and second chemicals) that solidify when mixed are measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers. Measured by 1B1 and 1B2, and based on the measurement result, the temperature of the first chemical solution and the second chemical solution is adjusted to a temperature suitable for underground injection (for example, 20 ° C.) by the temperature adjusting devices 2A and 2B (cooling). Because it is heated or heated), the optimum solidification time (gel time) can be realized according to the properties and specifications of the construction site.
Further, the temperature is adjusted based on the measurement results of the upstream thermometers 1A1 and 1A2 of the temperature regulators 2A and 2B and the downstream thermometers 1B1 and 1B2 of the temperature regulators 2A and 2B. The first and second chemicals can be accurately and efficiently adjusted to a temperature suitable for injection.

Next, a second embodiment of the present invention will be described with reference to FIG.
In FIG. 3, the chemical solution injection system of the second embodiment, which is entirely indicated by reference numeral 100-1, differs from the chemical solution injection system 100 of FIGS. 1 and 2 in that the temperature adjusting device 2-1 (heating device or cooling device) is used. It is arranged in a water tank 5 (storage facility: a water tank storing water for diluting at least one chemical solution) that stores water for diluting the chemical solution.
Further, in FIG. 3, only the upstream thermometers 1A1 and 1A2 are provided, and the downstream temperature diameters 1B1 and 1B2 are not provided.

In FIG. 3, the liquid temperature of the first chemical solution is measured by the thermometer 1A1, and the liquid temperature of the second chemical solution is measured by the thermometer 1A2.
The control unit 10 is connected to the thermometers 1A1 and 1A2 by the signal lines SL1 and SL2, and is connected to the temperature control device 2-1 (heating device or cooling device) in the water tank arranged in the water tank 5 via the signal line SL6. Has been done.
When adjusting the temperature of the chemical solution, the temperature adjusting device 2-1 in the water tank is based on the liquid temperatures of the first and second chemical solutions measured by the thermometers 1A1 and 1A2, and follows the control signal from the control unit 10. The amount of heating or cooling of the water in the water tank 5 is adjusted so that the temperatures of the first and second chemical solutions become appropriate temperatures (for example, 20 ° C.).

The control according to the second embodiment of FIG. 3 is generally the same as the control of the first embodiment described with reference to FIG. 2, except that the temperature adjusting device 2-1 in the water tank provided in the water tank 5 heats or cools the control. The same is true.
Other configurations and actions and effects in the second embodiment of FIG. 3 are the same as those of the first embodiment of FIGS. 1 and 2.

A third embodiment will be described with reference to FIG.
The entire chemical injection system according to the third embodiment is indicated by reference numeral 100-2 in FIG.
In the chemical solution injection system 100-2 according to the third embodiment, the temperature control devices 2A and 2B are interposed in the first and second chemical solution lines 3 and 4, and the water tank 5 in which water for diluting the chemical solution is stored. A temperature control device 2-1 is arranged in (storage facility).

In FIG. 4, the control unit 10 is connected to the temperature control device 2-1 (heating device or cooling device) in the water tank arranged in the water tank 5 via the signal line SL6, and the control signal from the control unit 10 is transmitted. It is transmitted to the temperature control device 2-1 in the water tank. At the same time, the control signal from the control unit 10 is transmitted to the temperature control devices 2A and 2B interposed in the first and second chemical solution lines 3 and 4 via the signal lines SL5A and SL5B.
In the third embodiment of FIG. 4, the temperature adjusting devices 2A, 2B and the inside of the water tank are based on the liquid temperature measurement results of the first and second chemical solutions by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2. The temperature control device 2-1 is controlled, and the control is roughly classified into the following three patterns.
In the first pattern, the heating amount or cooling amount of the water tank temperature adjusting device 2-1 is adjusted based on the liquid temperature measurement results of the first and second chemical solutions by the upstream thermometers 1A1 and 1A2, and the downstream temperature is adjusted. Based on the liquid temperature measurement results of the first and second chemical solutions by a total of 1B1 and 1B2, the heating amount or cooling amount of the temperature adjusting devices 2A and 2B interposed in the chemical solution line is adjusted. In other words, in the case of the first pattern, the water temperature in the water tank 5 is adjusted by the water tank temperature adjusting device 2-1. For example, the water temperature is adjusted higher in winter and lower in summer. Then, the temperature adjusting devices 2A and 2B interposed in the chemical liquid lines 3 and 4 adjust the liquid temperature of the first and second chemical liquids to a temperature suitable for underground injection (for example, 20 ° C.).

In the second pattern, the heating amount or cooling amount of the temperature adjusting devices 2A and 2B arranged in the chemical liquid lines 3 and 4 is based on the liquid temperature measurement results of the first and second chemical liquids by the upstream thermometers 1A1 and 1A2. Is controlled. On the other hand, the heating amount or cooling amount of the water tank temperature adjusting device 2-1 is adjusted based on the liquid temperature measurement results of the first and second chemical solutions by the downstream thermometers 1B1 and 1B2.
In the third pattern, the temperature adjusting device interposed in the chemical liquid lines 3 and 4 is based on the liquid temperature measurement results of the first and second chemical liquids by the upstream side thermometers 1A1, 1A2 and the downstream side thermometers 1B1, 1B2. The heating amount or cooling amount of 2A and 2B is adjusted, and the heating amount or cooling amount of the temperature adjusting device 2-1 in the water tank is adjusted.

Next, control by the first control pattern will be described mainly with reference to FIG.
In FIG. 5, in step S11, it is determined whether or not to carry out the chemical solution injection (whether to perform the chemical solution injection method).
When the chemical solution injection is performed in step S11 (step S11 is “Yes”), the process proceeds to step S12, and when the chemical solution injection is not performed (step S11 is “No”), the process returns to step S11.
In step S12, the temperatures of the first and second chemicals are measured by the upstream thermometers 1A1 and 1A2 arranged in the chemical injection lines 3 and 4. Then, the process proceeds to step S13.

In step S13, it is determined whether or not the chemical solution temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1 and 1A2 are appropriate temperatures. The proper chemical temperature is, for example, 20 ° C. at the time of underground injection. Therefore, it is determined whether or not the temperature measured by the upstream thermometers 1A1 and 1A2 is appropriate in consideration of the temperature change of the chemical solution from the upstream thermometers 1A1 and 1A2 to the injection into the ground.
As a result of the determination in step S13, if the temperatures of the first and second chemical solutions measured by the upstream thermometer 1A are appropriate temperatures (step S13 is “Yes”), the process proceeds to step S15, and if the temperatures are not appropriate (step S13). S13 is “No”), and the process proceeds to step S14.

In step S14 (when the measurement results of the upstream thermometers 1A1 and 1A2 are not appropriate temperatures), the heating amount or the cooling amount of the water tank temperature adjusting device 2-1 (heating device or cooling device) is adjusted in the water tank 5. The adjustment of the heating amount or the cooling amount of the water tank temperature adjusting device 2-1 is executed based on the control signal of the water tank temperature adjusting device 2-1 transmitted from the control unit 10, and the temperature of the water in the water tank 5 is adjusted. To the proper temperature.

In step S15 (when the measurement results of the upstream thermometers 1A1 and 1A2 are appropriate temperatures), the temperatures of the first and second chemicals are measured by the downstream thermometers 1B (1B1, 1B2) arranged in the chemical injection lines 3 and 4. The measurement is performed, and the process proceeds to step S16.
In step S16, it is determined whether or not the chemical solution temperatures of the first and second chemical solutions measured by the downstream thermometers 1B1 and 1B2 are appropriate temperatures.
In step S16, if the chemical temperature of the first and second chemicals measured by the downstream thermometers 1B1 and 1B2 is not the proper temperature (step S16 is “No”), the process proceeds to step S17, and the temperature should be the proper temperature. If (step S16 is "Yes"), the process proceeds to step S18.

In step S17 (when the chemical liquid temperatures of the first and second chemical liquids measured by the downstream thermometers 1B1 and 1B2 are not appropriate temperatures), the heating amount or cooling of the temperature adjusting devices 2A and 2B arranged in the chemical liquid line. The amount is controlled based on the control signal from the control unit 10 to bring the temperatures of the first and second chemicals in the chemical line closer to the appropriate temperature. At the same time, the on-off valves VA and VB are closed. Then, the process returns to step S16.
In step S18 (when the chemical liquid temperatures of the first and second chemical liquids measured by the downstream thermometers 1B1 and 1B2 are appropriate), the on-off valves VA and VB are opened and the first and second chemical liquids are grounded. Supply inside. Then, the process proceeds to step S19.
In step S19, it is determined whether or not to end the control.
As a result of the determination in step S19, if the control in the drug solution injection is not completed (step S19 is “No”), the process returns to step S12. When the chemical solution injection is terminated (step S19 is “Yes”), the control is terminated.
Here, the control shown in FIG. 5 is performed by automatic control, but it can also be executed by an operator.
In the control according to the second control pattern described above, the heating amount or cooling amount of the temperature adjusting devices 2A and 2B arranged in the chemical liquid lines 3 and 4 is controlled based on the measurement results of the upstream thermometers 1A1 and 1A2. It is the same as described above with reference to FIG. 5, except that the heating amount or the cooling amount of the water tank temperature adjusting device 2-1 is controlled based on the measurement results of the downstream thermometers 1B1 and 1B2.

Next, control by the above-mentioned third control pattern will be described mainly with reference to FIG.
In FIG. 6, in step S21, it is determined whether or not to carry out the chemical solution injection (whether to perform the chemical solution injection method).
In step S21, when the chemical solution injection is performed (step S21 is “Yes”), the process proceeds to step S22, and when the chemical solution injection is not performed (step S21 is “No”), the process returns to step S21.
In step S22, the temperatures of the first and second chemicals are measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 arranged in the chemical injection lines 3 and 4. Then, the process proceeds to step S23.

In step S23, whether or not the chemical solution temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are appropriate temperatures (for example, 20 ° C. at the time of underground injection). Whether or not the temperature is high) is judged.
As a result of the determination in step S23, when the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are not appropriate temperatures (step S23 is "No"). Proceeds to step S24, and if the temperature is appropriate (step S23 is “Yes”), the process proceeds to step S25.

In step S24 (when the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are not appropriate temperatures), the temperature is determined by the control signal from the control unit 10. Adjust the heating amount or cooling amount of the adjusting devices 2A and 2B and the temperature adjusting device 2-1 in the water tank to bring the temperature of the first and second chemicals in the chemical solution line and the temperature of the water in the water tank 5 to an appropriate temperature. adjust. At the same time, the on-off valves VA and VB are closed. Then, the process returns to step S23.
On the other hand, in step S25 (when the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are appropriate temperatures), the on-off valves VA and VB are opened. Supply the first and second chemicals to the ground. Then, the process proceeds to step S26.
In step S26, it is determined whether or not to end the control of the chemical solution injection.
As a result of the determination in step S26, if the control of the drug solution injection is not completed (step S26 is “No”), the process returns to step S22. When the chemical solution injection is terminated (step S26 is “Yes”), the control is terminated and the chemical solution injection is also terminated.
The control shown in FIG. 6 is also automatic control, but it can also be controlled by an operator.

In the third embodiment of FIGS. 4 to 6, the chemical solution line is based on the measurement results of the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 arranged in the first and second chemical solution lines 3 and 4. The first and second chemicals are injected into the ground by adjusting the heating amount or cooling amount of the temperature adjusting devices 2A and 2B arranged in 3 and 4 and the temperature adjusting device 2-1 in the water tank arranged in the water tank 5. It is sometimes adjusted to a suitable temperature (for example, 20 ° C.).
Other configurations and action effects in the second embodiment of FIGS. 4 to 6 are the same as those of the first embodiment and the second embodiment of FIGS. 1 to 3.

Next, a fourth embodiment of the present invention will be described with reference to FIG. 7.
In FIG. 7, the drug solution injection system according to the fourth embodiment is indicated by reference numeral 100-3 as a whole. Hereinafter, a configuration different from the configuration of the first embodiment of FIG. 1 will be mainly described.
In FIG. 7, the chemical injection system 100-3 includes an upstream thermometer 1A1, 1A2, a downstream thermometer 1B1, 1B2, and a groundwater thermometer 6 (groundwater temperature measuring device) for measuring the groundwater temperature at the construction site. I have.

In FIG. 7, the control unit 10 is connected to the groundwater thermometer 6 by a signal line SL7, and the measurement signal from the groundwater thermometer 6 is transmitted to the control unit 10. Then, the control unit 10 adjusts the temperature based on the measurement results of the groundwater thermometer 6 in addition to the measurement results of the first and second chemical liquid temperatures by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2. The heating amount or cooling amount of the devices 2A and 2B is adjusted to set the liquid temperature of the first and second chemical solutions to an appropriate temperature.
Here, the first and second chemicals are injected underground at the construction site, and when they are mixed, they are also mixed with groundwater at the same time. If the groundwater temperature is different from the liquid temperature of the first and second chemicals, the temperature may change due to the mixing of the first and second chemicals with the groundwater, and the gel time may differ from the design value. ..
In the fourth embodiment of FIG. 7, in the temperature adjustment control described above, the temperature of the first and second chemical solutions is adjusted by reflecting the measurement result of the groundwater thermometer 6 in the heating or cooling by the temperature adjusting devices 2A and 2B. are doing. For example, as a result of measurement by the groundwater thermometer 6, if the groundwater temperature is low, the temperatures of the first and second chemical solutions are adjusted higher by the temperature regulators 2A and 2B, and if the groundwater temperature is high, the first and second chemical solutions are adjusted. Adjust the temperature of the chemical solution to a lower level.
That is, in the fourth embodiment of FIG. 7, when the first and second chemical solutions are mixed and further mixed with groundwater, the temperature of the mixed chemical solutions is controlled to be an appropriate temperature (for example, 20 ° C.). It is.

The control of the fourth embodiment will be described mainly with reference to FIG.
Steps S31 to S36 in FIG. 8 correspond to steps S1 to S6 in FIG. 2, respectively. However, as described above, since the groundwater temperature is also included in the control parameters in the fourth embodiment, the control also has a different point from the first embodiment.
That is, in step S32 of FIG. 8, the temperatures of the first and second chemical solutions are measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 arranged in the chemical injection lines 3 and 4, and the groundwater temperature is measured. The temperature of the groundwater at the construction site is also measured by a total of 6.

Then, in step S33 of determining whether or not the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are appropriate, the appropriate chemical solution temperature is determined. , The temperature of the first and second chemicals is set as, for example, 20 ° C. when mixed with groundwater after being injected into the ground.
Further, in step S34 in which the temperatures of the first and second chemicals are adjusted by the temperature regulators 2A and 2B (located in the chemical line), after the temperatures of the first and second chemicals are injected into the ground. , The amount of heating or cooling is controlled so that the temperature becomes appropriate when mixed with groundwater (for example, 20 ° C.).
The other controls in FIG. 8 are the same as the controls described in FIG.
Although the control shown in FIG. 8 is also automatic control, it can also be controlled by an operator.

According to the fourth embodiment, in addition to the temperature measurement results of the first and second chemical solutions by the upstream side thermometer 1A and the downstream side thermometer 1B, based on the measurement results of the groundwater temperature at the construction site by the groundwater thermometer 6. , Adjust the temperature of the first and second chemicals. Therefore, the temperatures of the first and second chemicals are set in consideration of mixing with groundwater when the chemicals are mixed in the ground, so that an appropriate gel time is realized according to the actual construction. Can be done.
Other configurations and action effects in the fourth embodiment of FIGS. 7 and 8 are the same as those of the first embodiment of FIGS. 1 to 2.

Next, a fifth embodiment of the present invention will be described with reference to FIG. Hereinafter, a configuration different from the second embodiment shown in FIG. 3 will be mainly described.
In FIG. 9, the chemical solution injection system 100-4 of the fifth embodiment has a configuration in which the groundwater temperature measuring device 6 is added to the chemical solution injection system 100-1 of the second embodiment shown in FIG. Groundwater temperature is included in the heating or cooling control parameters.
Then, in FIG. 9, the control unit 10 is connected to the groundwater thermometer 6 by the signal line SL7, and the measurement signal from the groundwater thermometer 6 is transmitted to the control unit 10. Further, the control unit 10 is connected to the temperature adjusting device 2-1 (heating device or cooling device) in the water tank arranged in the water tank 5 by the signal line SL6, and the control signal of the control unit 10 is the temperature adjusting device in the water tank. It is transmitted to 2-1.
In the fifth embodiment, the liquid temperatures of the first and second chemical solutions are the same as in the fourth embodiment of FIGS. 7 and 8, when the first and second chemical solutions are mixed and further mixed with groundwater. The temperature of the chemical solution is adjusted to an appropriate temperature (for example, 20 ° C.). The heating amount or cooling amount is controlled by the temperature adjusting device 2-1 in the water tank so that the liquid temperature becomes such a liquid temperature.

In the fifth embodiment, in addition to the temperature measurement results of the first and second chemical solutions by the upstream thermometer 1A and the downstream thermometer 1B, the water tank is based on the measurement results of the groundwater temperature at the construction site by the groundwater thermometer 6. The amount of heating or cooling of the internal temperature adjusting device 2-1 is adjusted. Therefore, the temperature of the first and second chemicals is adjusted so that when the chemicals are mixed in the ground and mixed with groundwater, the temperature is adjusted to an appropriate temperature, which matches the actual construction and realizes an appropriate gel time. Can be done.
Other configurations and actions and effects in the fifth embodiment of FIG. 9 are the same as those of the second embodiment of FIG.

A sixth embodiment of the present invention will be described with reference to FIGS. 10 and 11.
In FIG. 10, the entire chemical injection system according to the sixth embodiment is indicated by reference numeral 100-5. The chemical injection system 100-5 has a configuration in which the groundwater temperature measuring device 6 is added to the chemical injection system 100-2 of FIG. 4, and includes the groundwater temperature as a determination parameter for heating or cooling.
In the sixth embodiment of FIG. 10, the control unit 10 is connected to the groundwater thermometer 6 by the signal line SL7, and the measurement signal from the groundwater thermometer 6 is transmitted to the control unit 10.

Similar to the third embodiment shown in FIG. 4, the temperature adjustment control of the sixth embodiment also has the first pattern to the third pattern.
Here, the same control as that of the first pattern (FIG. 5) in the control of the third embodiment will be described with reference to FIG.
Steps S41 to S49 in FIG. 11 correspond to steps S11 to S19 in FIG. 5, respectively. However, as described above, in the sixth embodiment, the groundwater temperature is also included in the control parameters, so that the control is also different from the third embodiment.
That is, in step S42 of FIG. 11, the temperatures of the first and second chemical solutions are measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 arranged in the chemical injection lines 3 and 4, and the groundwater temperature is measured. The temperature of the groundwater at the construction site is also measured by a total of 6.

Then, in step S43 for determining whether or not the temperatures of the first and second chemical solutions measured by the upstream thermometers 1A1, 1A2 and the downstream thermometers 1B1, 1B2 are appropriate, the appropriate chemical solution temperature is determined. , The temperature of the first and second chemicals is set to be, for example, 20 ° C. when mixed with groundwater after being injected into the ground.
In step S45, the temperature of groundwater at the construction site is also measured by the groundwater thermometer 6 in the same manner as in step S42. Then, also in step S46, the appropriate temperature is set to be, for example, 20 ° C. when the temperatures of the first and second chemical solutions are injected into the ground and then mixed with groundwater.
Further, when controlling the heating amount or cooling amount of the water tank temperature adjusting device 2-1 in step S44 and controlling the heating amount or cooling amount by the temperature adjusting devices 2A and 2B interposed in the chemical liquid lines 3 and 4. , The temperature of the first and second chemicals is controlled to be an appropriate temperature (for example, 20 ° C.) when mixed with groundwater after being injected into the ground.
Other controls in FIG. 11 are the same as those described in FIG.
Although the control shown in FIG. 11 is also automatic control, it can also be controlled by an operator.

In the sixth embodiment, in addition to the temperature measurement results of the first and second chemical solutions by the upstream thermometer 1A and the downstream thermometer 1B, based on the measurement results of the groundwater temperature at the construction site by the groundwater thermometer 6. It controls the heating amount and cooling amount of the temperature adjusting devices 2A and 2B (intersent in the chemical liquid lines 3 and 4) and the temperature adjusting device 2-1 in the water tank. As a result, the temperatures of the first and second chemicals can be set in consideration of mixing with groundwater when the chemicals are mixed in the ground, and the appropriate gel time matches the actual construction. Can be realized.
Other configurations and actions and effects in the sixth embodiment of FIGS. 10 and 11 are the same as those of the embodiments of FIGS. 1 to 6, especially the third embodiment of FIGS. 4 to 6.

It should be added that the illustrated embodiment is merely an example and is not a description intended to limit the technical scope of the present invention.

1A, 1B ... Thermometer (chemical solution temperature measuring device)
2A, 2B, 2-1 ... Temperature control device (cooling device or heating device)
3,4 ・ ・ ・ Chemical supply system 5 ・ ・ ・ Water tank (storage facility)
6 ... Groundwater thermometer (groundwater temperature measuring device)
10 ... Control unit (control device)
100, 100-1, 100-2, 100-3, 100-4, 100-5 ... Chemical injection system VA, VB ... On-off valve

Claims (10)

In a chemical injection system that supplies and mixes two types of chemicals that solidify when mixed, the chemical temperature measuring device that measures the temperature of the two types of chemicals and the liquid temperature of the two types of chemicals are adjusted. It is equipped with a temperature control device and a control device.
The control device is a chemical injection system characterized in that it has a function of adjusting the liquid temperature of the two types of chemicals by a temperature adjusting device based on the measurement result of the temperature measuring device. The chemical solution injection system according to claim 1, wherein the temperature control device is interposed in each of the supply systems for supplying the two types of chemical solutions to the ground. The chemical solution injection system according to claim 1, wherein the temperature control device is provided in a storage facility for storing water that dilutes at least one of the two types of chemical solutions. The chemical solution injection system according to any one of claims 1 to 4, wherein the chemical solution temperature measuring device is interposed in each of the supply systems for supplying the two types of chemical solutions to the ground. In addition to the chemical temperature measuring device, a groundwater temperature measuring device that measures the groundwater temperature at the construction site is provided.
The control device has a function of adjusting the liquid temperatures of the two types of chemicals by a temperature adjusting device based on the measurement results of the groundwater temperature measuring device in addition to the measurement results of the chemical temperature measuring device. The drug solution injection system according to any one of Items 1 to 5. In the chemical injection method in which two types of chemicals that solidify when mixed are supplied to the ground and mixed.
The process of measuring the liquid temperature of the above two types of chemicals with a chemical temperature measuring device, and
A chemical injection method comprising a step of adjusting the liquid temperature of the two types of chemicals by a temperature adjusting device based on the measurement result of the temperature measuring device. The temperature control device is interposed in a supply system that supplies each of the two types of chemicals to the ground.
The chemical solution injection method according to claim 6, wherein in the step of adjusting the liquid temperature, the temperatures of the two types of chemical solutions are adjusted. The temperature control device is provided in a storage facility for storing water that dilutes at least one of the two types of chemicals.
The chemical injection method according to claim 6, wherein in the step of adjusting the liquid temperature, the temperature of the water stored in the storage facility is adjusted. The chemical solution injection method according to any one of claims 6 to 8, wherein the chemical solution temperature measuring device is interposed in each of the supply systems for supplying the two types of chemical solutions to the ground. It has a process to measure the groundwater temperature at the construction site with a groundwater temperature measuring device.
In the step of adjusting the liquid temperature, in addition to the measurement result of the chemical liquid temperature measuring device, the liquid temperature of the two types of chemical liquid is adjusted by the temperature adjusting device based on the measurement result of the groundwater temperature measuring device. The chemical injection method according to any one of 9 to 9.

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