KR101360290B1 - Concrete bleeding measurement device - Google Patents

Abstract

The present invention relates to a concrete bleeding measurement device, measuring the amount of bleeding occurring after concrete placement, comprising: a container for porous material such as concrete; a floating probe to float on bleeding water from the surface of concrete disposed on the surface of concrete; an anchored probe to be settled on the surface of concrete by own weight under the bleeding water disposed on the upside of floating probe; a first displacement measurement sensor to measure the distance to the floating probe by detecting the vertical displacement of the floating probe disposed on the upside of the anchored probe; a second displacement measurement sensor to measure the distance to the surface of concrete by detecting the vertical displacement of the anchored probe.

Description

Concrete bleeding measuring device {CONCRETE BLEEDING MEASUREMENT DEVICE}

The present invention relates to an apparatus for measuring concrete bleeding, and more particularly, to accurately and automatically measure the height of bleeding water leaking from the surface of concrete in a non-contact manner to easily and accurately measure the amount of bleeding concrete. It relates to a concrete bleeding measuring device.

In general, the bleeding phenomenon is one of the characteristics of a porous material such as unconsolidated concrete (hereinafter described with concrete as an example), and is a kind of mixed water that rises upward due to the precipitation of cement particles and aggregates. It is a material separation phenomenon.

The bleeding phenomenon generated after pouring concrete not only causes settlement and cracking, but also causes sand roads or water bodies to form on the mold surface. In addition, in the interior of the concrete to create a water gap in the bottom of the aggregate or reinforcing bar to reduce the adhesion of the reinforcing bar and concrete, or to reduce the strength, and may also cause the durability.

Therefore, it is very important to know how much the phenomena of the phenomena occur due to the basic properties of concrete, so the bleeding of the concrete is measured to indicate the quantitative value of the bleeding.

Korean Industrial Standard KS F 2414 proposes a concrete bleeding test method for concrete bleeding test. According to this, the sample is put in the concrete and then placed on a horizontal or floor to cover the appropriate cover.

Then, 60 minutes at the first time sucks out the water that has leaked into the concrete surface every 10 minutes (hereinafter referred to as "bleeding water"), and thereafter, every 30 minutes sucks out the bleeding water that has leaked onto the concrete surface. Tilt the container approximately 5cm before bleeding out the bleeding water that has soaked through the bleeding, and quickly return to horizontal after bleeding out. In addition, the mass of a container and a sample is measured at the time when bleeding does not occur. At this time, a pipette or dropper is used to suck out the bleeding water.

The amount of bleeding is represented by the amount of bleeding per concrete surface area, and the bleeding rate is represented by the amount of bleeding with respect to the mass of water in the sample.

However, conventionally, in order to suck out the bleeding water that has leaked into the surface of the concrete, the worker collects the bleeding water periodically by using a pipette or dropper and measures the bleeding water quantity, for example, 10 minutes. Not only this is quite difficult, there is a problem that the accurate measurement of the bleeding amount is not made.

The present invention is to provide a concrete bleeding measurement device to be able to measure the bleeding amount of concrete easily and accurately by automatically measuring the height of the bleeding water leaked from the surface of the concrete in a non-contact manner.

According to an embodiment of the present invention, in the concrete bleeding measurement device for measuring the amount of bleeding generated after concrete pouring,

A container in which a porous material such as concrete is stored;

A floating probe disposed on the surface of the concrete and floating in the bleeding water exuded from the surface of the concrete;

An anchor probe disposed on the surface of the concrete, and when the bleeding water is exuded from the surface of the concrete, the anchor probe is settled by the weight into the bleeding water and fixed to the surface of the concrete;

A first displacement measuring sensor disposed on the floating pro part and configured to measure a distance to the floating probe by detecting a vertical movement displacement of the floating probe; And

The concrete bleeding measuring device may be provided on the anchor pro part and includes a second displacement measuring sensor for detecting a vertical displacement of the anchor probe and measuring a distance to the surface of the concrete.

The floating probe may have a buoyancy of a certain size to maintain a floating state on the surface of the bleeding water.

The upper portion of the floating probe may include a reflector to be measured by the displacement sensor.

A first cover member may be installed on an outer surface of the floating probe to cover the floating probe so as to protect the floating probe.

The anchor probe comprises a lower portion, the anchor portion for sinking by the weight into the bleeding water to settle on the surface of the concrete;

A reflection plate coupled to an upper portion of the anchor part and positioned above a surface of the bleeding water to be a measurement object of a displacement sensor; And

It may include a support portion for connecting between the anchor portion and the reflecting plate, and to support the reflecting plate to the anchor portion.

The anchor part may be coupled to the lower end of the support part, and may include a cylindrical core part having a predetermined size and wound in a coil shape about the lower end part of the support part.

An outer surface of the core part may cover the core part and include a second cover member for firmly fixing to the surface of the concrete while sinking the surface of the core part in accordance with the precipitation of the concrete surface in the bleeding water. have.

The second cover member may include an extension member extending to both sides of the core part and having a predetermined width and length.

The anchor portion may have a specific gravity greater than the specific gravity of the bleeding water and smaller than the specific gravity of the concrete.

The first and second displacement measuring sensors are installed at regular intervals on the metal plate installed on the upper portion of the container,

The first and second displacement measuring sensors may be attached with first and second magnet members for easily attaching and detaching to any position of the metal plate.

The first displacement measuring sensor may include a laser sensor that emits a laser beam to the floating probe and measures a distance to the floating probe by using a laser beam reflected by the floating probe.

The second displacement measuring sensor may be a laser sensor that emits a laser beam to the anchor probe and measures the distance to the anchor portion of the anchor probe by using a laser beam reflected by the anchor probe.

According to this embodiment, it is possible to measure the bleeding amount of the concrete bleeding from the surface of the concrete in a non-contact manner precisely and automatically to easily and accurately measure the amount of bleeding of the concrete, thereby automatically and easily bleeding the concrete It can be measured.

1 is a view for explaining a method of measuring concrete bleeding according to an embodiment of the present invention.
Figure 2 is a schematic diagram of a concrete bleeding measurement apparatus according to an embodiment of the present invention.
Figure 3 is a schematic configuration diagram showing a measurement state of the concrete bleeding measuring device according to an embodiment of the present invention.
Figure 4 is a schematic perspective view showing an anchor probe of the concrete bleeding measuring device according to an embodiment of the present invention.
5 is a partial perspective view of the anchor probe of the concrete bleeding measuring device according to an embodiment of the present invention.
6 is a schematic configuration diagram for explaining a measurement state of the concrete bleeding measuring device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Wherever possible, the same or similar parts are denoted using the same reference numerals in the drawings.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified, and that other specific features, regions, integers, steps, operations, elements, components, and / And the like.

All terms including technical and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs. Predefined terms are further interpreted as having a meaning consistent with the relevant technical literature and the present disclosure, and are not to be construed as ideal or very formal meanings unless defined otherwise.

1 is a schematic configuration for explaining the measurement principle of concrete bleeding according to an embodiment of the present invention.

Referring to Figure 1, the concrete bleeding measuring device according to the present invention, as shown in Figure 1 (b) at a time t = 0 when the measurement of the concrete bleeding starts, as shown in Figure 1 (a) The amount of bleeding is measured by measuring the distance difference between the surface of the concrete and the surface of the bleeding water, that is, the height h2 of the bleeding water, from the first and second displacement sensors after a predetermined time t has elapsed. Therefore, the bleeding amount V is expressed as a value obtained by multiplying the surface area of the bleeding number by the height h2 of the bleeding number.

When the measurement of the concrete bleeding starts as shown in FIG. 1 (a) (t = 0), the interior of the container 100 contains a porous material, for example, concrete 110, by a certain height h. After a certain time t has elapsed, the amount of evaporation is generated inside the vessel by a certain height w (t), the height of concrete decreases by s (t), and the height of concrete h1 and the height of the bleeding water. The combined height (h2) is reduced by w (t) than the original concrete height h, and the bleeding number is generated by the height h2 = s (t) -w (t).

Figure 2 is a schematic configuration diagram of a concrete bleeding measurement apparatus according to an embodiment of the present invention, Figure 3 is a schematic configuration diagram showing a measurement state of the concrete bleeding measurement apparatus according to an embodiment of the present invention, 4 is a schematic perspective view of the anchor probe of the concrete bleeding measuring apparatus according to an embodiment of the present invention, Figure 5 is a partial perspective view of the anchor probe of the concrete bleeding measuring apparatus according to an embodiment of the present invention, Figure 6 Is a schematic configuration diagram for explaining a measurement state of the concrete bleeding measuring device according to an embodiment of the present invention.

2 to 6, the concrete bleeding measuring device according to an embodiment of the present invention includes a container 100 in which a porous material such as concrete 110 is stored;

A floating probe disposed on a surface of the concrete 110 and floating on the bleeding water 120 that has leaked out from the surface of the concrete 110;

The surface of the concrete 110 is disposed on the surface of the concrete 110, and when the bleeding water 120 seeps out from the surface of the concrete 110, the surface of the concrete 110 while sinking by its own weight into the bleeding water 120 An anchor probe 300 for anchoring to the anchor probe 300;

A first displacement measuring sensor (400) disposed on the floating probe (200) and configured to measure a distance to the floating probe (200) by sensing a vertical displacement of the floating probe (200); And

The concrete is disposed on the anchor probe 300 and the vertical displacement of the anchor probe 300 is sensed so as to measure the amount of precipitation of the concrete 110 deposited into the bleeding water 120. A second displacement measuring sensor 500 for measuring the distance to the surface of the 110 may be included.

The floating probe 200 has a buoyancy of a certain size to maintain a floating state on the surface of the bleeding water (120).

A first cover member 220 may be installed on an outer surface of the floating probe 200 to cover the floating probe 200 to protect the floating probe 200. The first cover member 220 may be made of a material such as vinyl that does not interfere with the buoyancy of the floating probe 220.

In addition, the anchor probe 300 constitutes a lower portion thereof, and when the bleeding water 120 leaks out from the surface of the concrete 110, the surface of the concrete is submerged by the weight thereof into the bleeding water 120. Anchor portion 310 for fixing to;

A reflection plate 320 coupled to an upper portion of the anchor part and positioned above the surface of the bleeding water to be a measurement object of the displacement sensor; And

The support part 330 may be connected between the anchor part and the floating part to support the reflective plate.

The anchor portion 310 may have a weight of a certain size so that it can be easily fixed to the surface of the concrete.

The anchor part 310 may include a cylindrical core part 311 coupled to a lower end of the support part and having a weight having a predetermined size and wound in a coil shape around the lower part of the support part.

The outer surface of the core portion 311 covers the core portion 311, while sinking the surface of the core portion 311 in accordance with the precipitation of the surface of the concrete 110 in the bleeding water 120 It may include a second cover member 312 to be firmly fixed to the surface of the concrete (110).

The second cover member 312 may include an extension member 313 extending to both sides of the core portion 311 with a predetermined width and length.

The anchor portion 310 is larger than the specific gravity of the bleeding water 120 so that the anchor portion 310 easily sinks in the bleeding water 120 and is easily fixed to the surface of the concrete 110. It may have a specific gravity smaller than that of the concrete 110.

The first and second displacement measuring sensors 400 and 500 may be installed at regular intervals on the plate 101 installed on the container 100.

First and second magnet members 410 and 510 may be attached to the first and second displacement measuring sensors 400 and 500 to easily attach and detach the arbitrary positions on the front surface of the plate 101.

The plate 101 may be made of metal or the like such that the first and second magnet members 410 and 510 may be easily attached by magnetic force.

In addition, the first displacement measuring sensor 400 emits a laser beam to the floating probe 200 and measures the distance to the floating probe 200 using the laser beam reflected by the floating probe 200. It may be made of a laser sensor.

The second displacement measuring sensor 500 emits a laser beam to the anchor probe 300 and measures the distance to the anchor portion of the anchor probe 300 using the laser beam reflected by the anchor probe 300. It can be made of a laser sensor to measure.

The first and second displacement measuring sensors 400 and 500 have a data logger 600 for receiving a signal measured by the first and second displacement measuring sensors and converting the signal into a voltage and recording the same. Can be connected.

In addition, an upper end of the support 330 may be coupled to a lower end of the floating part 320.

Hereinafter, referring to FIGS. 1 to 6, a measurement process of a measuring device for concrete bleeding according to an embodiment of the present invention will be described.

First, it is assumed that the first measurement displacement sensor 400 and the second displacement measurement sensor 500 are installed at a predetermined height h5 on the plate 100 installed on the upper portion of the container 100. .

In addition, when a predetermined time (t) has elapsed after the concrete 110 is contained in the container 100, the surface of the concrete 110 is precipitated by a predetermined height h2 from the initial height h. The bleeding water 120 is generated by a constant height h2.

In this case, the first displacement measuring sensor 400 emits a laser beam to the floating probe 200 and uses the laser beam reflected from the floating probe 200 from the first displacement measuring sensor 400. The vertical distance h3 to the floating probe 200 is measured.

The second displacement measuring sensor 500 emits a laser beam to the anchor probe 300 and uses the laser beam reflected from the anchor probe 300 to release the anchor from the second displacement measuring sensor 500. The vertical distance h4 to the anchor portion 310 of the probe 300 is measured.

Therefore, the height h2 of the bleeding water is equal to the height difference h5 between the first displacement measuring sensor 400 and the second displacement measuring sensor 500 and the second displacement, as shown in Equation (1) below. The sum (h4 + h5) of the vertical height (h4) measured by the measuring sensor 500 is obtained by subtracting the vertical height (h3) measured by the first displacement measuring sensor (400).

h2 = (h4 + h5)-h3 --------- (1)

Accordingly, the amount of bleeding (volume) is obtained by multiplying the height h2 of the bleeding number by the surface area A of the bleeding number, as shown in Equation (2) below.

V (bleeding quantity) = h2 Ⅹ A ------- (2)

In this way, by measuring the vertical distance between the floating probe and the anchor probe by the first and second displacement measuring sensors, the amount of bleeding can be measured simply and accurately.

In addition, since the first and second displacement measuring sensors are detachably attached to an arbitrary position on the front surface of the plate, the height or the left and right intervals can be finely adjusted from the surface of the concrete.

100: container 110: concrete
120: bleeding number 200: floating probe
300: anchor probe 400: first displacement measuring sensor
500: second displacement measuring sensor

Claims (11)

In the concrete bleeding measuring device for measuring the amount of bleeding generated after concrete pouring,
A container in which a porous material such as concrete is stored;
A floating probe disposed on the surface of the concrete and floating in the bleeding water exuded from the surface of the concrete;
An anchor probe disposed on the surface of the concrete and anchored to the surface of the concrete while sinking by the weight thereof into the bleeding water when the bleeding water seeps out from the surface of the concrete;
A first displacement measuring sensor disposed on the floating pro part and configured to measure a distance to the floating probe by detecting a vertical movement displacement of the floating probe; And
A second displacement measuring sensor disposed on an upper portion of the anchor pro part and configured to measure a distance to the surface of the concrete by detecting a vertical displacement of the anchor probe;
Concrete bleeding measuring device comprising a. The method of claim 1,
The floating probe is a concrete bleeding measurement device having a buoyancy of a certain size to maintain a floating state on the surface of the bleeding water. 3. The method of claim 2,
Concrete bleeding measurement device is provided on the outer surface of the floating probe is provided with a first cover member for covering the floating probe to protect the floating probe. The method of claim 1,
The anchor probe comprises a lower portion, anchor portion for fixing to the surface of the concrete while sinking by its own weight into the bleeding water;
A reflection plate coupled to an upper portion of the anchor part and positioned above a surface of the bleeding water to be a measurement object of a displacement sensor; And
Concrete bleeding measuring device for connecting between the anchor portion and the reflecting plate, and including a support for supporting the reflecting plate to the anchor portion. 5. The method of claim 4,
The anchor part is coupled to the lower end of the support portion, the concrete bleeding measuring apparatus comprising a cylindrical core portion having a constant size and wound in a coil shape around the lower end of the support portion. 6. The method of claim 5,
A second cover member covering the core part on an outer side surface of the core part and fixed to the surface of the concrete while sinking the surface of the core part in accordance with the precipitation of the concrete surface in the bleeding water; Bleeding measuring device. The method according to claim 6,
The second cover member is a concrete bleeding measurement device including an extension member extending with a constant width and length on both sides of the core portion around the core. 5. The method of claim 4,
The anchor portion concrete bleeding measurement device having a specific gravity greater than the specific gravity of the bleeding water and less than the specific gravity of the concrete. The method of claim 1,
The first and second displacement measuring sensors are installed at regular intervals on the metal plate installed on the upper portion of the container,
Concrete bleeding measuring device is attached to the first and second displacement measuring sensor is attached to the first and second magnet member to easily detachable to any position of the metal plate. 10. The method of claim 9,
And the first displacement measuring sensor comprises a laser sensor which emits a laser beam to the floating probe and measures a distance to the floating probe by using a laser beam reflected by the floating probe. 11. The method according to claim 9 or 10,
The second displacement measuring sensor is a concrete bleeding measurement device comprising a laser sensor for firing a laser beam to the anchor probe and measuring the distance to the anchor portion of the anchor probe using a laser beam reflected by the anchor probe.

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