KR101291712B1 - The portable slump test and flow test apparatus - Google Patents

Abstract

PURPOSE: A portable device for testing a slump and a flow is provided to obtain an accurate slump value and flow value by using a laser sensor pointer. CONSTITUTION: A portable device for testing a slump and a flow includes a support unit (200) and a body unit (100). The support unit includes two travelling units (210) in which wheels (212) are attached to the underside and a supporting unit body (220) connecting the two travelling units. The body unit includes a measuring unit (110) and a body unit body (120). A monitor (130), a display unit (140), and an operation button (150) are installed above the measuring unit, and a laser pointer is installed under the measuring unit. The body unit body connects the measuring unit and the supporting unit body.

Description

The portable slump test and flow test apparatus

The present invention is to accurately and easily perform the slump test and the flow test that is essential before the concrete pouring, can be easily moved directly to the site by the small size and low weight, and the slump value and the flow value accurately with the laser sensor pointer The present invention relates to a mobile slump test and flow test apparatus capable of measuring and transmitting the mobile device to a mobile device in real time.

In modern architecture, concrete work represented by ready-mixed concrete is almost essential.

In particular, in the case of the Raycon, the slump test and the flow test must be performed during the import and export process at the factory or the site for quality control.

Conventional slump tests and flow tests are performed by a human measuring instrument.

When a person measures as in the prior art, not only the measured value differs from person to person, but also the problem of unreliable test results such as judging rejected products may occur, and there is a problem in that real-time computerized management of the test results is difficult.

Therefore, even inexperienced workers can easily and quickly measure accurate slump and flow values, and it is urgent to develop a method that enables real-time data management of the obtained slump and flow values.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is intended to provide a mobile slump test and flow test device that can be easily used in laboratories and construction sites because of its easy movement.

Second, the present invention provides a mobile slump test and flow test apparatus capable of obtaining accurate slump and flow values because it is measured using a laser sensor pointer.

Third, it is to provide a mobile slump test and flow test device that can be directly connected to the mobile device in real time to check the measurement results and computerized management.

In order to solve the above technical problem, the present invention is to perform any one or more of a slump test and a flow test,

A supporting part 200 including two parallel running parts 210 having a wheel 212 attached to the lower part thereof, and a supporting part body 220 connecting the two running parts 210 to each other; And a measuring unit 110 having a monitor 130, a display unit 140, and an operation button 150 installed at an upper portion thereof, and a laser sensor pointer LS disposed at a lower portion thereof, the measuring unit 110, and the support body. Consists of including; main body portion 100 is configured to include a body portion 120 to connect 220,

The laser sensor pointer LS adjusts the height (slump value) and the length (flow value) of the slump cone SC when the operation button 150 is moved to the upper part of the slump cone SC placed on the panel P. Scan and display the scanned value on the display unit 140,

Next to the laser sensor pointer LS is provided a mobile slump test and flow test device, characterized in that the camera (not shown) is installed and scanned to the monitor 130, the inspection method using the same.

According to the present invention, the following effects are expected.

First, it provides a mobile slump test and flow test device that can be easily used in laboratories and construction sites because of its easy movement.

Second, it provides a mobile slump test and flow test apparatus that can be measured by using a laser sensor pointer to obtain an accurate slump value and flow value.

Third, it provides a mobile slump test and flow test device that can be directly connected to the mobile device in real time to check the measurement results and computerized management.

1 is a perspective view of a mobile slump test and flow test apparatus of the present invention.
Figure 2 is a perspective view showing a coupling relationship between the support body and the body portion in the present invention.
Figure 3 shows a state in which the laser sensor is moved in the lower measuring unit in the present invention.
Figure 4 is a photograph actually produced and taken the mobile slump test and flow test apparatus of the present invention.
5 is a scene of checking a screen captured by the camera through a monitor.
FIG. 6 is a photograph of a state in which the laser sensor pointer LS scans the height (slump value) and the length (flow value) of the slump cone SC and displays the scanned value on the display unit 140.
7 is a perspective view of a slump cone commonly used.
8 to 10 are embodiments of the present invention.
FIG. 11 is a photograph of a scene in which a software is developed and actually implemented in a smart phone using Bluetooth.
12 is another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. removable slump test and Flow test  Device

1 is a perspective view of a mobile slump test and flow test apparatus of the present invention.

The mobile slump test and flow test apparatus of the present invention is for performing any one or more of a slump test and a flow test,

A supporting part 200 including two parallel running parts 210 having a wheel 212 attached to the lower part thereof, and a supporting part body 220 connecting the two running parts 210 to each other; And a measuring unit 110 having a monitor 130, a display unit 140, and an operation button 150 disposed at an upper portion thereof, and a laser sensor pointer LS disposed at a lower portion thereof. Consists of including; main body portion 100 is configured to include a body portion 120 to connect 220,

The laser sensor pointer LS adjusts the height (slump value) and the length (flow value) of the slump cone SC when the operation button 150 is moved to the upper part of the slump cone SC placed on the panel P. Scan and display the scanned value on the display unit 140,

Next to the laser sensor pointer LS, a camera (not shown) is installed on the monitor 130.

The present invention can be connected to an outlet to drive by wire or wirelessly by using a rechargeable battery or a battery.

The present invention, as shown in Figure 1, the support body 220, the interruption is separated and the separated portion is coupled to the lower end of the main body body 120 through the hinge device 222, usually the running portion ( 210 is folded and in close contact with the side of the measuring unit 110. Therefore, the person can easily fold and move.

Figure 4 is a photograph actually produced and taken the mobile slump test and flow test apparatus of the present invention.

The red dot next to the slump cone SC of FIG. 4 is a pointer light of the laser sensor pointer LS.

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5 is a scene of checking a screen captured by the camera through a monitor.

FIG. 6 is a view of the laser sensor pointer LS scanning the height (slump value) and the length (flow value) of the slump cone SC and displaying the scanned value on the display unit 140.

And as shown in Figure 6 the operation button 150 may be configured to include up, down, left, right, start, stop button.

Figure 2 is a perspective view showing a coupling relationship between the support body and the body portion in the present invention.

As shown in FIG. 2, the present invention has a slot 224 formed at the upper portion of the support body 220, and a lower end of the body body 120 is coupled to the slot 224 through a coupler 240. It may be characterized in that, in this case it is possible to freely select the position of the body portion body 120 in accordance with the field situation.

Figure 3 shows a state in which the laser sensor is moved in the lower measuring unit in the present invention.

As shown in FIG. 3, the laser sensor pointer LS continuously moves back and forth through the rail 112 formed at the lower portion of the measuring unit 110, thereby continuously scanning the laser sensor pointer LS. It is characterized by.

7 is a perspective view of a slump cone commonly used.

The present invention can perform a continuous scan and at the same time obtain a numerical value at regular intervals as shown above. Accordingly, the laser sensor pointer may be operated by dividing the point section into 20 sections by viewing 1 cm as one section.

In the DEFAULT method shown in the left figure of FIG. 8, when the first start button is pressed, the whole display is divided into 20 sections. As shown in the right figure of FIG. 8, after selecting a desired point (11 points in the figure), the start button (start) Press to move and stop the laser sensor point at the desired point, then press the stop button (end) to return.

Specifically, it is the same as FIGS. 9 and 10.

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The slump value and the flow value scanned by the laser sensor pointer LS are transmitted to and displayed on the inspector's mobile device or PC through a wireless transmission means such as Bluetooth or Wi-Fi. Of course, by installing a USB port in the body portion 100 can be moved to the USB storage means.

FIG. 11 is a photograph of a scene in which a software is developed and actually implemented in a smart phone using Bluetooth.

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The picture on the far right of the pictures in FIG. 11 actually measures the height of one cross section of the slump cone SC only in one direction.

In addition, 3D modeling is possible by fusing data by performing the operation in multiple directions, and 3D modeling is possible by using a 3D scanner instead of the laser sensor pointer LS or the laser sensor pointer LS.

12 is another embodiment of the present invention.

When rotating the laser sensor pointer LS from side to side as shown in FIG. 12, the height of the slump cone SC is calculated by calculating the rotation angle α, the pointer reaching length L and the mounting height of the laser sensor pointer LS. (H) can be obtained in several directions. Therefore, the shape and dimensions of the slump cone (SC) can be accurately obtained as 3D data.

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2. removable slump test and Flow test  Inspection method using the device

The inspection method using the mobile slump test and flow test apparatus of the present invention uses the above-described mobile slump test and flow test apparatus,

(1) preparing a slump cone SC on the panel P;

(2) moving the mobile slump test and flow test apparatus of the present invention to the upper part of the slump cone (SC), but moving the apparatus so that the main body part 100 is located above the slump cone (SC);

(3) a scan step of turning on a power and scanning a height (slump value) and a length (flow value) of the operation slump cone (SC); And

(4) a mobile transmission step of transmitting and displaying the slump value and the flow value to an inspector's mobile device through Bluetooth or Wi-Fi;

Characterized in that comprises a.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

P: Panel
SC: Slump cone
LS: Laser Sensor Pointer
100:
110:
120: main body
130: monitor
140:
150: operation button
200: support
210: driving part
212: wheels
220: support body
222 hinge device
224: slot
240: coupler

Claims (7)

To perform one or more of the slump test and the flow test,
A supporting part 200 including two parallel running parts 210 having a wheel 212 attached to the lower part thereof, and a supporting part body 220 connecting the two running parts 210 to each other; And
The monitor 110 and the display unit 140 and the operation button 150 is installed on the upper portion of the measuring unit 110, the laser sensor pointer (LS) is installed on the lower portion, the measuring unit 110 and the support body 220 Body portion 100 is configured to include a main body body 120 for connecting;
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The laser sensor pointer LS adjusts the height (slump value) and the length (flow value) of the slump cone SC when the operation button 150 is moved to the upper part of the slump cone SC placed on the panel P. Scan and display the scanned value on the display unit 140,
A camera (not shown) is installed next to the laser sensor pointer LS to indicate the area to be scanned on the monitor 130.
Since the laser sensor pointer LS moves back and forth through the rail 112 formed at the bottom of the measuring unit 110, the laser sensor pointer LS continuously scans.
The scanning area is divided into sections at predetermined intervals and the entire scanned values are sequentially displayed on the display unit 140. When a desired section is selected, the laser sensor pointer LS is moved to a desired section. A mobile slump test and flow test device, characterized in that scanning and returning.
In claim 1,
Since the laser sensor pointer LS rotates left and right,
The height H of the slump cone SC can be obtained in various directions by calculating the rotation angle α of the laser sensor pointer LS, the pointer reaching length L and the installation height of the laser sensor pointer LS. There is,
A mobile slump test and flow test apparatus, wherein the shape and the dimensions of the slump cone (SC) are obtained as 3D data with the height (H) of the slump cone (SC) obtained in various directions.
3. The method according to claim 1 or 2,
The slump value and the flow value scanned by the laser sensor pointer (LS) is a mobile slump test and flow test apparatus, characterized in that the transmission and display via the Bluetooth or Wi-Fi to the mobile device of the examiner.
3. The method according to claim 1 or 2,
Since the support body 220 is suspended, the separated and separated portion is coupled to the bottom of the main body body 120 through the hinge device 222,
Mobile slump test and flow test apparatus, characterized in that the driving unit 210 is folded in close contact with the side of the measuring unit (110).
4. The method of claim 3,
Since the support body 220 is suspended, the separated and separated portion is coupled to the bottom of the main body body 120 through the hinge device 222,
Mobile slump test and flow test apparatus, characterized in that the driving unit 210 is folded in close contact with the side of the measuring unit (110).
3. The method according to claim 1 or 2,
A movable slump test and a flow test, characterized in that the upper portion of the support body 220 is formed with a slot 224 and the lower end of the main body 120 is coupled to the slot 224 through the coupling hole 240 Device.
4. The method of claim 3,
A movable slump test and a flow test, characterized in that the upper portion of the support body 220 is formed with a slot 224 and the lower end of the main body 120 is coupled to the slot 224 through the coupling hole 240 Device.

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