KR101491511B1 - Structural pressurization measurement device can measure load and rateral force - Google Patents

Abstract

The present invention relates to a structural pressurization measurement device capable of measuring a load and lateral force. The present invention comprises: a first pressure plate; a second pressure plate; a pressure plate driving unit which moves the first pressure plate or the second pressure plate to apply the load to the structure placed between the first and second pressure plates; a load measuring unit installed in at least one of the first and second pressure plates, measuring the load applied to the structure between the first and second pressure plates; a lateral force measuring unit equipped with a first rib pressurizing the center of the structure and a plurality of second ribs pressurizing both ends of the structure, and measures the lateral force of the structure pressurized by the first and second ribs; and a display unit which indicates information about the load or the lateral force provided from the load and lateral force measuring units.

Description

TECHNICAL FIELD [0001] The present invention relates to a structural pressure measuring apparatus capable of measuring a load and a lateral pressure,

The present invention relates to a structure pressing force measuring device capable of measuring a load and a lateral pressure, and more particularly, to a structure pressing force measuring device capable of measuring a load of a structure as well as a load and a lateral pressure capable of measuring a lateral pressure of the structure .

Generally, a passive structure tester device is used as a device for testing the vertical load on a model structure in a school laboratory.

The structure of the manual structure tester is placed in the center and a tester crusher board is placed on the structure.

Then, the barbell is put on the rods and starts to build on the top of the structure tester. There are three types of barbells: 5kg, 10kg and 20kg. When the barbell is put on the structure and the hands of the deceased hold it for more than 3 seconds, it is recognized. After 3 seconds, additional barbell can be raised.

Alternatively, a digital precision load meter can be used. Conventional digital precision load measuring machines have difficulty in producing accurate data to perform an experiment to accumulate more than 300kg of 20kg barbell more than 5 times a day.

Not only can the hand force be kept constant until the end of the experiment, but the deviation of the unit of measurement is not precise because the minimum barb is 5 kg.

In addition, the conventional manual structure tester device and digital precision load measuring device can measure the load of the structure, but there is no way to measure the lateral pressure of the structure.

Conventionally, since the concrete load measuring machine is mainly used for the measurement of the existing concrete load, it holds a lot of weight and the height of the structure is high.

Thus, in the case of the conventional concrete load measuring machine, there is a difference in the measurement range from the structure measured in a laboratory such as a school, since it is measured with respect to actual concrete.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a structure pressing force measuring device capable of measuring a load and a lateral pressure that can measure both a load and a lateral pressure of a structure, .

In order to achieve the above object, the present invention provides a structure pressing force measuring device capable of measuring a load and a lateral pressure, comprising: a first pressure plate; A second platen on which the structure is placed; A pressure plate driving unit for moving the first pressure plate or the second pressure plate to apply a load to the structure placed between the first pressure plate and the second pressure plate; A load measuring unit provided on one of the first pressure plate and the second pressure plate for measuring a load applied to the structure between the first pressure plate and the second pressure plate; A lateral pressure measuring unit having a first rib for pressing a center portion of the structure and a plurality of second ribs for pressing both ends of the structure to measure a lateral pressure of the structure pressed through the first rib and the second rib; And a display unit for displaying load or lateral pressure information provided from the load measuring unit and the lateral pressure measuring unit.

It is preferable that the lateral pressure measuring unit detects a vertical deflection length from a moment when a load is applied to a structure abutting the first rib and the second rib to a time when a structure is broken due to a load applied to the structure.

Preferably, the first rib and the second rib are attached to / detached from the first pressure plate and the second pressure plate, respectively.

In addition, protrusions are formed at the ends of the first ribs and the second ribs so as to be inserted into the first or second pressure plate, and screw grooves are formed in the protrusions, respectively, And is screwed to the second pressure plate.

It is preferable that the first pressure plate and the second pressure plate have a distance measuring unit for measuring the distance from the center.

On the other hand, it is preferable that the load measuring unit can be replaced with a load cell having a different measurement unit.

The structure pressing force measuring device capable of measuring the load and the lateral pressure according to the present invention having the above-described structure has the effect of measuring both the load measurement and the lateral pressure of a general structure for educational purposes.

1 is a perspective view showing a structure pressing force measuring apparatus capable of measuring a load and a lateral pressure according to an embodiment of the present invention;
FIG. 2 is an exploded perspective view of a structure pressing force measuring device capable of measuring load and lateral pressure according to FIG. 1; FIG.
FIGs. 3A and 3B are explanatory views showing a state in which a load of a structure is measured using a structure pressing force measuring device capable of measuring a load and a lateral pressure according to FIG. 1. FIG.
4A to 4C are explanatory diagrams showing a state in which the lateral pressure of the structure is measured by using the structure pressing force measuring apparatus capable of measuring the load and the lateral pressure according to FIG.
Fig. 5 is a functional block diagram of a structure pressing force measuring apparatus capable of measuring load and lateral pressure according to Fig. 1. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a structure pressing force measuring apparatus capable of measuring a load and a lateral pressure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a structure pressing force measuring apparatus capable of measuring a load and a lateral pressure according to an embodiment of the present invention; FIG. 2 is an exploded perspective view of a structure pressing force measuring device capable of measuring a load and a lateral pressure according to FIG. 1, and FIG. 5 is a functional block diagram of a pressing force measuring device capable of measuring a load and a lateral pressure according to FIG.

1 and 2, a structure pressing force measuring apparatus capable of measuring load and lateral pressure according to an embodiment of the present invention includes a first pressure plate 110, a second pressure plate 120, a pressure plate driving unit 200, A load measuring unit 300, a lateral pressure measuring unit 400, and a display unit 500.

The first pressure plate 110 presses the load on the structure 1 together with the second pressure plate 120 on which the structure lies. A load measuring unit 300 is provided on the first pressure plate 110. At this time, it is preferable that the load measuring unit 300 is screwed to a pair of support rods (reference numerals are not shown) and a connecting rod connected to the pair of support rods, and is supported by the first pressure plate 110.

The pressure plate driving unit 200 is provided below the second pressure plate 120.

The platen driving unit 200 moves the first platen 110 or the second platen 120 to apply a load to the structure 1 placed between the first platen 110 and the second platen 120. [ In the present embodiment, the second pressure plate 120 is described as moving, but it is not limited thereto. It is preferable that the pressure plate driving unit 200 is ascended or descended by a screw method for the accuracy of the pressure applied to the structure 1. [ At this time, the platen driving unit 200

The load measuring unit 300 is provided on either the first pressure plate 110 or the second pressure plate 120 to measure a load applied to the structure 1 between the first pressure plate 110 and the second pressure plate 120 . In an embodiment of the present invention, the first and second pressure plates 110 and 120 are provided on the first and second pressure plates 110 and 120, respectively. Here, it is preferable that a load cell is generally used for the load measuring unit, and it is preferable that 1000 kg and 2000 kg of the load cell can be measured.

The lateral pressure measuring unit 400 includes a first rib 111 for pressing the central portion of the structure 1 and a plurality of second ribs 121 for pressing both ends of the structure 1, And the second rib 121. The lateral pressure of the structure 1, The lateral pressure measuring part 400 is formed on one side of the first pressure plate 110 and the other side of the lateral pressure measuring part 400 is coupled to the second pressure plate 120. When the load is applied to the structure 1, The vertical deflection distance between the first pressure plate 110 and the second pressure plate 120 is measured. The first ribs 111 and the second ribs 121 are preferably protruded in a direction perpendicular to the first and second pressure plates 110 and 120.

The first rib 111 may be a fulcrum and the second rib 121 may be a fulcrum and may be one of the first ribs 111. In the present embodiment, It is preferable that two of them are used.

The display unit 500 displays load or lateral pressure information provided from the load measuring unit 300 and the lateral pressure measuring unit 400.

Here, the load information can be obtained by the following equation (1).

[Equation 1]

Load efficiency of structure = (load applied to structure / weight of structure) * 1000

Then, the lateral pressure information can be obtained by the following equation (2).

&Quot; (2) "

Lateral pressure efficiency of a structure = (length of structure (mm) / length of vertical deflection (mm))

In addition, the bending strength can be obtained by the following equation (3).

&Quot; (3) "

Bending strength = (3 * maximum load * span) / (2 * width of structure * length of structure ² )

The first ribs 111 and the second ribs 121 are preferably attached to and detached from the first and second pressure plates 110 and 120, respectively. Here, it is preferable that the first rib 111 and the second rib 121, which are in contact with the structure 1, have a curvature radius of 10 mm.

The first rib 111 and the second rib 121 may be inserted into the first or second pressure plate 110 or 120 at the ends of the first rib 111 and the second rib 121. [ And screw grooves 1111 and 1211 are formed in the protrusions to be fixed to the first pressure plate 110 or the second pressure plate 120 through screws 1112 and 1212. [ .

By fixing the first ribs 111 and the second ribs 121 to the first pressure plate 110 or the second pressure plate 120 through the screws 1112 and 1212 as described above, The two ribs 121 are uncomfortable to attach and detach, but once fixed, it is not easy to move and a precise experiment can be performed.

A channel 101 is formed on both sides of the first pressure plate 110 to receive and fix the screw 1112 of the first rib 111. A second rib 121 A channel 103 for inserting a screw 1212 of the screw 1212 is formed.

Therefore, the measurer can easily fix the first rib 111 to the channel of the first pressure plate 110 through the screw 1112 using the screw 1112.

The first pressure plate 110 and the second pressure plate 120 are preferably provided with a distance measuring unit 130 for measuring the distance of the first rib 111 or the second rib 121 from the center Do. Here, the distance measuring unit 130 may measure the distance between the first rib 111 and the second rib 121, but the present invention is not limited thereto.

Since the distance measuring unit 130 is provided on the first pressure plate 110 and the second pressure plate 120, it is possible to measure the distance from the center and to measure the lateral pressure of the structure 1 easily and easily .

Accordingly, the measurer can adjust the distance between the first rib 111 and the second rib 121 through the distance measuring unit 130.

On the other hand, it is preferable that the load measuring unit 300 can be replaced with a load cell 301 having a different measurement unit.

A structure pressing force measuring apparatus capable of measuring a load and a lateral pressure according to an embodiment of the present invention will be described with reference to FIGS. 3A to 3B.

First, the pressure plate driving unit 200 is driven in a state where the structure 1 is placed on the second pressure plate 120.

Then, the second pressure plate 120 is raised upward by the pressure plate driving unit 200.

When the second pressure plate 120 is lifted in this manner, a load is applied to the structure 1 together with the fixed first pressure plate 110.

In this manner, the applied load is displayed to the measurer through the display unit 500. [

On the other hand, the load applied to the structure is applied until the structure 1 placed between the first pressure plate 110 and the second pressure plate 120 is broken.

Therefore, the display unit 500 displays the load at the time when the structure 1 is broken.

A first rib 111 for pressing the center of the structure 1 is formed on the first pressure plate 110 and a second rib 111 for pressing both sides of the structure 1 is formed on the second pressure plate 120. [ The first rib 111 and the second rib 121 can be measured in a state where the structure 1 for measuring the load is smaller than the first rib 111 without separating the first rib 111 and the second rib 121 from each other.

If the structure 1 is larger than the first rib 111 provided on the first pressure plate 110, the structure 1 is removed from the first and second ribs 111 and 121 without removing the first and second ribs 111 and 121, Can be measured between the pressure plate 110 and the second pressure plate 120.

4A, in order to measure the lateral pressure rather than the load of the structure 2, the structure 2 is not placed on the first and second pressure plates 110 and 120, The structure 2 is placed on the first rib 111 of the first pressure plate 110 and the second rib of the second pressure plate 120.

In this state, when the pressure plate driving part 200 is driven, the second pressure plate 120 moves upward.

The structure 2 placed on the first rib 111 of the first pressure plate 110 and the second rib 121 of the second pressure plate 120 as shown in FIG. As shown in Fig.

Continuously, when the second pressure plate 120 is lifted, the structure 2 is broken as shown in FIG. 4C.

The vertical deflection amount measuring unit of the lateral pressure measuring unit 400 measures the length from the time when the load is applied to the structure 2 through the first rib 111 of the first pressure plate 110 to the time when the structure 2 is broken .

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 exemplary embodiments, but, on the contrary, .

110: first pressing plate 120: second pressing plate
200: a platen driving unit 300: a load measuring unit
400: lateral pressure measuring part 500: display part

Claims (6)

A first platen; A second platen on which the structure is placed; A pressure plate driving unit for moving the first pressure plate or the second pressure plate to apply a load to the structure placed between the first pressure plate and the second pressure plate; A load measuring unit provided on one of the first pressure plate and the second pressure plate for measuring a load applied to the structure between the first pressure plate and the second pressure plate; A lateral pressure measuring unit having at least one first rib for pressing the center of the structure and a plurality of second ribs for pressing both ends of the structure to measure the lateral pressure of the structure pressed through the first rib and the second rib; And a display unit for displaying load or lateral pressure information provided from the load measuring unit and the lateral pressure measuring unit,
Wherein the lateral pressure measuring unit comprises:
A vertical deflection length from a moment when a load applied to the first rib and a structure abutting on the second rib to a time when a structure is broken due to a load applied to the structure is detected,
Wherein the first rib and the second rib are engaged with the first pressure plate and the second pressure plate, respectively, and the load and the lateral pressure can be measured.
delete delete The method according to claim 1,
A protrusion is formed at an end of the first rib and the second rib to be inserted into the first or second pressure plate,
Wherein the projections are formed with threaded grooves, respectively, and screwed to the first or second pressure plate through a screw.

The method according to claim 1,
Wherein the first pressure plate and the second pressure plate are provided,
And a distance measuring unit for measuring a distance from the center, wherein the load and the lateral pressure can be measured.
The method according to claim 1,
The load-
Wherein the measurement unit can be replaced by another load cell.

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