JP2018040619A - Moisture content measurement device, agitator truck, and method of measuring moisture content of fluid - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that fluid such as ready mixed concrete is degraded during measurement of its moisture content or there is variation in the measured values of moisture content, and that when a moisture content does not fit within a standard range, it is difficult to stop the pressure-feeding or use of the fluid in the middle.SOLUTION: Moisture content measurement devices 20-1, 20-2 are provided within a range, from the drum surface of an agitator truck, in which the moisture content of fluid 20 flowing in the drum is measurable or within a range that is a portion of a shooter 16 extending from the drum of the agitator truck, in which the moisture content of fluid flowing in the shooter is measurable. For the moisture content measurement devices 20-1 provided near the drum surface of the agitator truck, for example, it is possible to measure the whole of fluid 20 in a state of being stirred in the drum. Therefore, there is no degradation during measurement or variation in measured values, and it is possible to stop the pressure-feeding, etc., of the fluid in advance when the moisture content does not fit within a standard range.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a moisture content measuring device mainly mounted on an agitator track, an agitator track provided with the moisture content measuring device, and a moisture content measuring method for a fluid.

The fluid such as concrete placed at a construction site or the like is first manufactured at a factory that satisfies the standards of JIS standards and the like, and then injected and accommodated in a drum (agitator) of an agitator truck. And the ready-mixed concrete etc. are conveyed to the predetermined field by the agitator truck carrying a drum.
The drum constantly rotates to agitate the ready-mixed concrete to prevent the fluid (for example, ready-mixed concrete) contained therein from separating or hardening before reaching the construction site.

  For example, in order for concrete to be hardened while maintaining high durability and strength at a construction site or the like, an appropriate (small) amount of ready-mixed concrete is required in advance. That is, the amount of water contained in the ready-mixed concrete has a significant effect on the quality of the concrete after hardening, particularly the durability and strength.

As a moisture content measuring device for measuring the moisture content of ready-mixed concrete, for example, a neutron moisture content measuring device is widely known (for example, JP-A-7-052143).
Japanese Patent Application Laid-Open No. 7-052143 describes a neutron water content measuring device including a neutron beam irradiation device that irradiates neutron beams and an attenuation rate measurement device that measures the attenuation rate of neutron beams that have passed through ready-mixed concrete. . When a neutron beam is irradiated from a neutron beam irradiation device, neutrons collide with hydrogen atoms in the ready-mixed concrete, causing elastic scattering and changing to thermal neutrons. The moisture content in the ready-mixed concrete can be measured by detecting thermal neutrons with an attenuation rate measuring device and measuring the attenuation rate with a computer terminal.

  In addition, as a method for measuring the moisture content of the ready-mixed concrete, a method of collecting a part of the ready-mixed concrete as a sample and measuring the moisture content of the sample with a moisture measuring device (for example, JP-A-2005-030974), A method for measuring the moisture content of the ready-mixed concrete in the feed pipe (for example, Japanese Patent Application Laid-Open No. 2009-096040) and the like are attached to a pipe (push-up pipe) when the ready-mixed concrete is pumped from the agitator truck. .

  In Japanese Patent Laid-Open No. 2005-030974, a plurality of ready-mixed concretes whose mixing ratios are changed are prepared in advance as samples. The moisture content of each sample is measured by a neutron moisture measuring device or the like, and the properties of each sample are judged from the measurement result.

  In JP 2009-096040 A, a water content measuring device is attached to a part of a hydraulic mortar pumping tube, and the water content of the hydraulic mortar fed is measured. By replacing the hydraulic mortar with ready-mixed concrete, the moisture content of the ready-mixed concrete in the pressure feeding pipe can be measured.

Japanese Patent Laid-Open No. 7-052143 JP-A-2005-030974 JP 2009-096040 A

According to Japanese Patent Application Laid-Open No. 2005-030974, by preparing a plurality of ready-mixed concrete samples in advance and measuring the water content before producing ready-mixed concrete, selecting which sample is suitable as a construction material is selected. Can do.
However, a plurality of ready-mixed concrete samples must be prepared, which is complicated. In addition, when the ready-mixed concrete sample is transferred to the measurement container, the quality of the sample may change. And there exists a possibility that dispersion | variation may arise in the moisture content measured value of a ready-mixed concrete according to the sampling method (transfer method to a container) of a ready-mixed concrete sample, and a measurer's skill.

According to Japanese Patent Application Laid-Open No. 2009-096040, a neutron moisture measuring device is attached to a part of the pumping tube, and the moisture content of the ready-mixed concrete flowing in the pumping tube is continuously measured. And variations due to the skill of the measurer can be suppressed. Moreover, according to the neutron moisture content measuring apparatus, the moisture content of ready-mixed concrete can be measured without destroying the pressure feeding tube.
However, since the moisture content is measured in a state where the ready-mixed concrete continues to flow through the pressure-feed pipe, even if a measurement result indicating that it is not suitable as a construction material is obtained, the ready-made concrete has already been pumped to the construction site. For this reason, it is difficult to stop the pumping and use of ready-mixed concrete to the construction site.

The present invention does not cause the fluid such as ready-mixed concrete to deteriorate during the moisture measurement, cause variations in the measured amount of water, or interrupt the pumping or use of the fluid (for example, ready-mixed concrete). The purpose is to provide a moisture measuring device.
In addition, the present invention provides an agitator track with a moisture content measuring device that does not deteriorate the fluid during the moisture measurement, cause variations in the moisture content measurement value, or interrupt the fluid feeding or use in the middle. The other purpose is to provide.
Furthermore, the present invention provides a moisture content measurement method that does not cause deterioration of the fluid during the moisture measurement, variation in the moisture content measurement value, or suspension of fluid feeding or use. The purpose is.

In order to achieve the above object, in the present invention, the moisture content measuring device is mounted on or near the agitator track.
That is, according to the first and ninth aspects of the present invention, the moisture measuring device is provided within a range in which the moisture content of the fluid flowing in the drum can be measured from the drum surface of the agitator track.
According to the fifth and tenth aspects of the present invention, the moisture content measuring device is a part of the shooter extending from the drum of the agitator track, and is provided within a range in which the moisture content of the fluid flowing in the shooter can be measured. ing.

In the inventions according to claims 1 and 9, the moisture content measuring device is provided within a range in which the moisture content of the fluid (such as ready-mixed concrete) flowing in the drum can be measured from the drum surface of the agitator track. Since the amount of moisture can be measured in a state where the fluid is in the drum, the pressure feeding and use of the fluid can be stopped in advance based on the measurement result of the amount of moisture. Further, since the moisture content is measured while the fluid is stirred by rotating the drum, the fluid does not deteriorate during the measurement and the measured moisture content does not vary. Furthermore, the total amount of fluid in the rotating drum can be measured, and there is no need for sampling. In this respect as well, it is possible to prevent variations in the measured amount of water.
In the inventions according to claims 5 and 10 as well, the moisture measuring device is a part of the shooter extending from the drum of the agitator track, and is provided within a range in which the moisture content of the fluid flowing in the shooter can be measured. Therefore, similarly to the first and ninth aspects, it is possible to stop the feeding and use of the fluid in advance according to the measurement result of the moisture content. In addition, since the moisture of the fluid flowing through the shooter is measured immediately after stirring, the fluid does not deteriorate during the measurement and the measured amount of moisture does not vary. Furthermore, the total amount of fluid flowing through the shooter can be measured, and there is no need for sampling. Compared with the measurement method in which a part of the fluid is sampled and measured, it is possible to prevent variation in the water content measurement value.

The side view of the agitator track which provided the moisture content measuring device concerning one example of the present invention in the range which can measure the moisture content of the fluid which flows in the drum from the drum surface of an agitator track is shown. The rear view of the agitator truck provided with the moisture measuring device concerning one example of the present invention is shown.

The moisture measuring device is provided within a range in which the moisture content of the fluid flowing in the drum can be measured from the drum surface of the agitator track.
In addition, the moisture measuring device is a part of the shooter extending from the drum of the agitator track, and is provided within a range in which the moisture content of the fluid flowing in the shooter can be measured.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a side view of an agitator track provided in a range in which the moisture content of the fluid flowing in the drum can be measured from the drum surface of the agitator track. 2 shows a rear view of an agitator truck provided with a moisture content measuring apparatus according to an embodiment of the present invention.
As indicated by the arrows, the front-rear direction of the agitator track 10 is indicated by Fr, Rr, and the left-right direction is indicated by L, R.

  The agitator truck 10 includes a self-propelled vehicle body 12 and a drum 14 mounted on a loading platform of the vehicle body, and accommodates and transports a fluid 20 (for example, ready-mixed concrete) in the drum. When arriving at the construction site or the like of the transport destination, the fluid 20 in the drum is discharged from the shooter 16 that extends in the left-right direction from the rear surface of the drum 14 (extends in the right direction in FIG. 2).

The drum 14 has a rotating shaft 18 extending in the front-rear direction of the vehicle body 12, and a hydraulic motor (not shown) is built in a motor housing 19 at the center of the vehicle body. The rotary shaft 18 is rotatably supported by a bearing member (not shown) built in the motor housing 19 and is rotated in the forward and reverse directions by a hydraulic motor. The drum 14 is driven to rotate as the rotary shaft 18 rotates, and a bearing member 18-1 at the rear of the vehicle body rotatably supports the drum.
The drum 14 always rotates around the rotating shaft 18 to stir the fluid 20 inside the drum. The fluid 20 is, for example, ready-mixed concrete, but is not limited thereto, and may be any material that can be transported using an agitator truck. For example, the fluid 20 may include not only raw concrete but also mortar that does not include coarse aggregate.

  As can be seen from FIGS. 1 and 2, a discharge portion 16-1 for discharging the fluid 20 to the outside of the drum 14 is provided in a substantially V shape on the back surface of the drum, and the upper end of the shooter 16 is a discharge portion. It is located at the junction at the lower end of 16-1, and is rotatably attached to the rear surface of the drum. If the shooter is rotated with the lower end of the shooter 16 facing downward as shown in FIG. 2 and then a pressure feeding pipe (not shown) is connected to the lower end of the shooter, the fluid 20 discharged from the discharge portion 16-1 is obtained. Then, it flows through the shooter 16 and the pressure feed pipe and is sent to the construction site or the like.

As shown in FIGS. 1 and 2, a moisture content measuring device 20-1 is provided within a range in which the moisture content of the fluid 20 flowing in the drum can be measured from the surface of the drum 14 of the agitator track 10. In FIGS. 1 and 2, a moisture amount measuring device 20-1 is provided on the left side of the drum 14.
The moisture content measuring apparatus 20-1 is connected to a computer terminal (not shown) by wireless or wired communication, and performs a moisture content measurement operation, a measurement result display, recording, and the like on the computer terminal.

The moisture content measuring device 20-1 can measure the moisture content of the fluid 20 flowing in the drum 14, that is, the fluid flows in the drum without taking a sample or directly measuring the fluid in the drum. Any material that can continuously measure the water content of the fluid is sufficient. Although the moisture content measuring device 20-1 is a neutron moisture content measuring device, it is not limited to this.
However, if it is a neutron moisture content measuring apparatus, the fluid 20 can be directly measured, or the moisture content of the fluid in the drum can be measured without destroying the drum 14.
In the case of the neutron moisture content measuring apparatus, the distance at which the moisture content can be measured is, for example, 5 cm from the surface of the drum. If this distance is exceeded, the measurement limit value of the neutron moisture measuring device may be exceeded, and the moisture content of the fluid 20 in the drum may not be sufficiently measured, or the moisture content measurement results may vary. . Therefore, in the case of the neutron moisture measuring device, the moisture measuring device (neutron moisture measuring device) 20-1 is attached at a position separated from the surface of the drum by about 5 cm.

For example, the installation table 22 is provided on the agitator truck 10, and the moisture amount measuring device 20-1 is installed on the installation table. In FIGS. 1 and 2, for example, the installation base 22 is provided on a fender (mudguard) 12-1 that covers the rear tire, but the present invention is not limited to this. The device 20-1 may be installed. However, the installation of the installation table 22 on the agitator truck 10 is easier than the installation on the ground.
Further, as shown in FIG. 2, a bearing 20-1a may be provided between the surface of the drum 14 and the moisture measuring device 20-1. If the bearing 20-1 a is provided, the moisture measuring device 20-1 does not hinder the rotation of the drum 14. The diameter of the bearing 20-1a is, for example, 5 cm. By providing a bearing on the upper surface of the moisture measuring device 20-1, the position of the moisture measuring device from the surface of the drum is kept constant, and the moisture content is accurately determined. It can be measured.
Alternatively, on the agitator track 10 or on the ground, a non-contact type distance measuring device that measures the distance between the surface of the drum 14 and the moisture measuring device 20-1 is installed, and according to the distance measured by the distance measuring device, You may correct | amend the moisture content (measured value) measured with the moisture content measuring apparatus. In particular, when there is a possibility that the surface of the drum 14 may be damaged by the bearing 20-1a, the distance between the drum surface and the water content measuring device 20-1 can be kept constant without using a bearing by providing a distance measuring device. The drum surface can be protected. Of course, both the bearing 20-1a and the distance measuring device may be provided on the agitator track 10 or on the ground.

Further, as can be seen from FIG. 2, the fluid 20 flowing in the shooter immediately after being fed from the drum is provided with a moisture measuring device 20-2 in a part of the shooter 16 extending from the drum 14 of the agitator track 12. The amount of water may be measured. In FIG. 2, the moisture content measuring device 20-2 is attached to the bottom surface of the shooter 16. Further, for example, in addition to providing the installation table 22 such as the moisture measuring device 20-1, the moisture measuring device 20-2 can be attached to a part of the shooter 16 using a magnet or a one-touch bracket.
The water content measuring device 20-2 provided on the installation base 22 may be provided at a distance allowing measurement of the water content, for example, 5 cm away from the bottom surface of the shooter. In addition, when the moisture content measuring device 20-2 is attached to a part of the shooter with a magnet or a one-touch type bracket, a magnet or bracket having a predetermined thickness (for example, a thickness within 5 cm) is used. Thus, the position of the moisture measuring device from the bottom of the shooter is secured.
Since the rotation position of the shooter 16 is generally determined, if the installation table 22 with the moisture amount measuring device 20-2 is provided at the general rotation position, the trouble of setting the moisture amount measuring device is reduced. Saves water content quickly. Moreover, if the moisture content measuring device 20-2 is directly attached to the surface of the shooter with a magnet, a one-touch type bracket, or the like, the moisture content can be measured at an arbitrary rotation position of the shooter.

Of course, the position where the moisture measuring device 20-2 is provided may be a part of the shooter 16, and is not limited to the bottom surface (lower surface) of the shooter shown in FIG. For example, as can be seen from FIG. 2, since the upper portion of the shooter 16 is open, the moisture measuring device 20-2 may be provided in the opening of the shooter. In this case, the water content measuring device 20-2 is provided 5 cm away from the fluid 20 flowing through the shooter 16, for example.
Needless to say, the water content measuring device 20-2 may be a neutron water content measuring device, and the water content measuring device is not limited to the neutron water content measuring device.

  As described above, the moisture amount measuring devices 20-1 and 20-2 are one of the shooters that extend from the surface of the drum 14 of the agitator track 10 within a range in which the moisture amount in the agitator track can be measured or from the drum of the agitator track. Is provided in a range in which the moisture content of the fluid flowing in the shooter 16 can be measured. Therefore, the amount of moisture can be measured in a state where the fluid (green concrete) 20 is in the drum 14 or the shooter 16, and if the amount of moisture does not satisfy the standard, the fluid is not pumped or used in advance. be able to.

In particular, in the case of the moisture content measuring device 20-1 attached within the range in which the moisture content in the agitator track can be measured from the surface of the drum 14 of the agitator track 10, the fluid 20 is agitated by rotating the drum. Moisture content can be measured. Therefore, it is not necessary to collect a sample of the fluid 20, and the fluid does not deteriorate during measurement. Furthermore, since the drum 14 rotates and the fluid 20 is agitated, there is no variation in the moisture content measurement value of the moisture content measuring device 20-1.
And if it is a moisture content measuring apparatus 20-1, since the whole quantity of the fluid 20 stirred in the rotating shooter 14 can be made into the measuring object of a moisture content, it is necessary to sample like the above. Absent. In this respect as well, variation in the measured amount of water can be prevented (measured values are averaged).

  If it is a part of the shooter extending from the drum of the agitator track and the moisture amount measuring device 20-2 is attached within a range in which the moisture amount of the fluid flowing in the drum can be measured, it is immediately after being stirred by the drum 14. Since the moisture of the fluid 20 is measured, the fluid does not deteriorate during the measurement or the measured moisture value does not vary in the same manner as the moisture content measuring apparatus 20-1. Furthermore, since the entire amount of the fluid 20 flowing through the shooter 16 can be the target of moisture content measurement, it is not necessary to collect a sample as in the moisture content measuring device 20-1. In this respect as well, it is possible to prevent variations in the measured amount of water.

  According to the water content measuring devices 20-1 and 20-2, since it is not necessary to collect a sample, variation of the water content measurement value can be prevented by the skill of the water content measurer, and the measurement work can be simplified. Needless to say. Moreover, since the water content measuring devices 20-1 and 20-2 can perform measurement without directly contacting the fluid 20, the cleaning operation of the water content measuring device is not necessary. Furthermore, both of the moisture content measuring devices 20-1 and 20-2 may be provided, or only one of them may be provided.

As described above, according to the present invention, the moisture content measuring device is provided within a range in which the moisture content of the fluid flowing in the drum can be measured from the drum surface of the agitator track. Since the moisture content can be measured in a state where the ready-mixed concrete is in the drum, it is possible to stop the feeding and use of the ready-mixed concrete in advance according to the measurement result of the moisture content. In addition, since the moisture content is measured while rotating the drum and stirring the ready-mixed concrete, the ready-mixed concrete does not deteriorate during measurement and the measured moisture content does not vary. Furthermore, the total amount of ready-mixed concrete in the drum can be measured, and there is no need for sampling. In this respect as well, it is possible to prevent variations in the measured amount of water.
Further, according to the present invention, a part of the shooter extending from the drum of the agitator track is provided in a range in which the moisture content of the fluid flowing in the shooter can be measured. Therefore, similarly to the above, the pumping and use of ready-mixed concrete can be stopped in advance according to the moisture content measurement result. Moreover, since the moisture of the ready-mixed concrete immediately after stirring is measured, the ready-mixed concrete is not deteriorated during the measurement and the measured water content does not vary. Furthermore, the total amount of ready-mixed concrete flowing through the shooter can be measured, and there is no need for sampling. In this respect as well, it is possible to prevent variations in the measured amount of water.

  The above-described embodiments are for explaining the present invention, and are not intended to limit the present invention in any way, and all modifications and alterations made within the technical scope of the present invention are included in the present invention. Needless to say.

  The present invention is applied to a moisture amount measuring device attached to an agitator track, the agitator track, and a moisture measuring method.

DESCRIPTION OF SYMBOLS 10 Agitator track 14 Drum 16 Shooter 20 Fluid 20-1, 20-2 Moisture content measuring device 20-1a Bearing 22 Installation stand

Claims (10)

  A moisture content measuring device provided within a range in which the moisture content of the fluid flowing in the drum can be measured from the drum surface of the agitator track.   The moisture content measuring apparatus according to claim 1, wherein a bearing is provided between the drum surface and the drum surface.   The moisture content measuring device according to claim 1 or 2, wherein a non-contact type distance measuring device for measuring the distance between the drum surface and the moisture content measuring device is provided on the agitator track or on the ground.   The water content measuring device according to any one of claims 1 to 3, wherein an installation table is provided on the agitator truck or on the ground.   A part of the shooter extending from the drum of the agitator track, a moisture amount measuring device provided within a range in which the moisture content of the fluid flowing in the shooter can be measured.   The water content measuring apparatus according to claim 1, wherein the fluid is ready-mixed concrete.   It is a neutron moisture content measuring apparatus, The moisture content measuring apparatus in any one of Claims 1-6 characterized by the above-mentioned.   An agitator truck comprising the moisture content measuring device according to claim 1.   A fluid moisture measurement method for measuring a moisture content of a fluid in a drum by providing a moisture content measuring device within a range in which the moisture content of the fluid flowing in the drum can be measured from a drum surface of an agitator track.   A fluid moisture content measuring method for measuring the moisture content of a fluid in a shooter within a range in which the moisture content of the fluid flowing in the shooter can be measured by a part of a shooter extending from a drum of an agitator track.

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