KR20100004443U - Scadffold strength test device - Google Patents

Abstract

The present invention is a device for testing the durability and strength of the plywood used in the LNG scaffolding system, more specifically, durability and strength for a large number of insulation box plywood members used in the LNG scaffolding system when the ship's LNG tank tank drying The aim is to be able to measure easily. According to this design, a base frame supporting the outer periphery of the bottom of the plywood, a fixing member extending in an upward direction of the base frame, pressing means for pressing the upper surface of the plywood and the fixing member It is installed and characterized in that it comprises a dial gauge for measuring the bending degree of the plywood bent by the pressing means. According to the present invention, a large amount of plywood member used for LNG scaffolding system is easily measured and discarded and reused for the safety of the LNG scaffolding system, so that the insulation can be reduced due to cost reduction and poor inspection of the plywood. It has the effect of preventing safety accidents caused by poor plywood used in the box.

LNG, plywood, strength

Description

Scaffolding Strength Test Equipment {SCADFFOLD STRENGTH TEST DEVICE}

The present invention is a device for testing the durability and strength of plywood, and more specifically, in the scaffolding strength test apparatus that can easily measure the durability and strength of a large amount of plywood among the LNG scaffolding system used for LNG shipbuilding of ships It is about.

In general, LNG is liquefied in a cryogenic state to dry LNG storage tanks on large vessels for the storage and transportation of LNG, which is used as a major energy source. LNG carriers are tanks that can withstand ultra low temperatures of minus 162 degrees. The design and drying of the building requires the highest level of construction technology for the entire shipbuilding industry.

In order to obtain an insulation effect in the tank system of LNG carriers to withstand such cryogenic temperatures, wood insulation boxes are used. The LNG scaffolding system is installed inside the tank for the insulation box installation.

At this time, the plywood, which is a wood of the LNG scaffolding system, has the advantages of being lighter in weight, lower in price, and better in processability than the metallic material.

However, since the plywood is deformed by external moisture or the like after a long time, there is a problem that the safety of the plywood is checked and repaired and replaced from time to time before the ship is built.

Therefore, the plywood used in the LNG scaffolding system of the LNG carrier is inspected for reuse and durability and strength of the newly used plywood. In the inspection method of such plywood, there is conventionally a method of measuring the strength of the plywood for the scaffolding system of LNG scaffolding, but since the device is not developed accordingly, the inspector visually inspects and determines the method.

However, this conventional method has a problem in that the plywood measuring method is not accurate because the inspector visually measures the deformation and strength of the plywood, and it takes a long time to measure a large amount of plywood and increases the waste of plywood by visual measurement. A problem occurs.

The present invention has been made to solve the above problems, the object is to provide a scaffolding strength test device that can easily measure the durability and strength for the plywood member for the scaffolding of the LNG carrier scaffolding system.

In addition, another object of the present invention is to provide a scaffolding strength test apparatus that can measure the strength and durability of a large amount of plywood, and can reduce the cost.

The present invention to achieve this object, the base frame for supporting the outer periphery of the bottom of the plywood; A fixing member extending in an upward direction of the base frame; An urging means installed on the fixing member and urging an upper surface of the plywood; It is installed on the fixing member, characterized in that it comprises a gauge for measuring the bending degree of the plywood bent by the pressing means.

In addition, according to the present invention, it is installed on one side of the base frame, characterized in that it further comprises a setting bar for holding the position of the plywood.

In addition, a plurality of through-holes are formed in the base frame at a predetermined interval, and after separating the support shaft through-coupling the base frame and the fixing member to move the fixing member to a predetermined position, the support shaft in the through hole again It characterized in that the fixing member can be fixed to the base frame.

In addition, according to the present invention, the fixing member, a pair of vertical bars which are installed opposite to each other on one side of the base frame; A pair of horizontal bars installed across the vertical bars and spaced apart from each other by a predetermined distance; The vertical bar is characterized in that it comprises a support shaft for penetrating the base frame.

In addition, the hydraulic supply station is installed, characterized in that it further comprises a regulator for adjusting the amount of hydraulic pressure supplied from the hydraulic supply device.

In addition, according to the present invention the pressing means, and a hydraulic supply device for supplying hydraulic pressure; A transfer hose for transferring hydraulic pressure from the hydraulic pressure supply device; A hydraulic cylinder which operates by receiving hydraulic pressure transferred from the transfer hose; A hydraulic gauge displaying a flow rate of the hydraulic cylinder; It characterized in that it is provided with a pressure plate for pressing the upper surface of the plywood in accordance with the hydraulic amount of the hydraulic cylinder.

In addition, the gauge, a dial gauge is installed, each of which is installed on each of the horizontal bar, a pair of support blocks supporting members; A horizontal rail bar installed across the support block and having a rail shape; A vertical rail bar which is rail-coupled to the horizontal rail bar and moves horizontally and which is formed in a rail shape extending in a vertical direction; It is characterized in that it further comprises a vertical movable block coupled to the vertical rail bar and installed so that the dial gauge moves vertically.

In addition, the gauge is configured to provide a gap gauge, a support bar on the support frame, a gap gauge on the support bar to measure and display the degree of warp of the plywood on the bottom surface of the plywood pressed by the pressing means. It features.

As described above, according to the scaffolding strength test apparatus according to the present invention, the scaffolding member for scaffolding used in the scaffolding system of LNG carriers can easily measure durability and strength.

In addition, since the plywood is inspected and used in advance, it is possible to easily distinguish between reuse and disposal and to reduce the cost of the plywood.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 is a perspective view showing a scaffolding strength test apparatus according to the present invention, Figure 2 is a plan view showing a scaffolding strength test apparatus according to the present invention, Figure 3 is a front view showing a scaffolding strength test apparatus according to the present invention, Figure 4 Is a side view showing the scaffolding strength test apparatus according to the present invention.

The scaffolding strength test apparatus 100 according to the present invention includes a base frame 200 that supports the outer periphery of the bottom surface of the plywood W. The base frame 200, as shown in Figure 1, is of a beam shape formed by a predetermined length, the size of the plywood (W) used in the LNG scaffolding system is made to meet a certain standard, such a plywood (W) Is formed to fit the size of

At this time, the base frame 200 should be formed so as to support only the outer circumference of the bottom surface of the plywood (W), which is to measure the degree of bending for the inner portion of the plywood (W).

In addition, as illustrated in FIG. 1, the base frame 200 has a plurality of through holes 224. The through hole 224 is to penetrate through the horizontal bar 220 to be described later by the support shaft 260, and change the installation position of the horizontal bar 220 installed in the base frame 200 according to the situation. In order to remove the support shaft 260, the horizontal bar 220 is moved, and then the through hole 224 formed in the base frame 200 and the hole formed in the horizontal bar 220 (not shown). Through-coupled to the support shaft 260.

In this way, it is provided to move the position of the fixing member relative to the base frame 200 by the separation and coupling of the support shaft 260.

In addition, one side of the base frame 200 is provided with a setting bar 280 for holding the position of the plywood (W) mounted on the base frame 200. The setting bar 280 is screwed into the through hole 224 of the base frame 200, and is installed in a bent form.

On the other hand, the scaffolding strength test apparatus 100 according to the present invention is provided with a fixing member extending extending in the upper direction of the base frame 200.

The fixing member has a pair of vertical bars 240 extending in the vertical direction and installed on one side of the base frame 200, and are coupled through the vertical bars 240 to be described later. 300 and a horizontal bar 220 for installing the hydraulic cylinder 400 is provided.

The vertical bars 240 are installed to face each other in the same line as shown in FIGS. 1 to 3, and are generally formed in a plate shape. A coupling hole (not shown) is formed at the lower side of the vertical bar 240 to engage the base frame 200 by the support shaft 260.

The horizontal bar 220 is formed in a pair as shown in Figure 1 and 2 installed in the vertical bar 240 and formed of the same member as the base frame 200 through holes arranged at a predetermined interval (Not shown) is formed. This is fixed to the dial gauge 300 and the hydraulic cylinder 400, but to change the installation position according to the situation, it is installed between the horizontal bar 220.

In addition, as shown in Figures 1 to 3, the fixing plate 222 is provided on the outside of each of the horizontal bar 220. The dial gauge 300 and the hydraulic cylinder 400 are screwed to the horizontal bar 220 through the fixing plate 222, and the position of the dial gauge 300 and the hydraulic cylinder 400 is changed according to the situation. It can be fixed to the horizontal bar 220.

On the other hand, the scaffolding strength test apparatus 100 according to the present invention, is installed on the horizontal bar 220 which is the fixing member and pressing means for pressing the upper surface of the plywood (W), and the pressing means by the pressing means is bent The dial gauge 300 which measures the bending degree of the plywood W is provided.

The pressurizing means is installed between the horizontal bar 220, as shown in Figures 2 to 4, the hydraulic cylinder 400 to operate in the vertical direction using the hydraulic power as the power, and the hydraulic cylinder 400 A hydraulic supply device 480 is provided as a supply device for supplying the hydraulic power supply unit 480. A transport hose 460 is installed to connect the hydraulic supply device 480 and the hydraulic cylinder 400.

In addition, the hydraulic gauge 420 is displayed on the upper side of the hydraulic cylinder 400 to display the supplied hydraulic amount, the plywood (W) at the end of the rod (not shown) of the hydraulic cylinder 400 A circular pressure plate 440 is provided for pressurization.

The hydraulic pressure supply device 480 is to transmit power to the hydraulic cylinder 400 which is a driving means by generating hydraulic pressure. In one embodiment, the hydraulic cylinder 400 is configured to operate by hydraulic power. Pneumatic means may be used to actuate the pressurizing means.

In addition, as a device constituting the hydraulic pressure supply device 480, a regulator (482) for adjusting the hydraulic amount is provided.

In addition, the dial gauge 300 installed in the scaffold strength test apparatus 100 of the present invention is one of length measuring instruments, and the dial gauge 300 will be described in detail.

A commonly used guide is a watch-type with long and short needles. When the tip of the operator touches the object to be measured, a small movement of the spindle is transmitted to the cog wheels so that the instructions move to read the scale.

In addition, the scale of a dial shows the 0.01 mm which the scale which divided the circumference into 100 equals. Due to the structure, there is a limit to the moving range of the spindle, and the measuring range of length is about 5 to 10 mm. In addition to measuring the length, it is widely used for measuring the shaking of a workpiece and the parallelism between two surfaces. The lever dial gauge, which is designed to change the direction in which the gauge moves by the lever, is convenient for use in confined spaces.

The dial gauge 300 is provided on a pair of horizontal bars 220 and is provided with a pair of support blocks 310, which are support members for supporting the dial gauge 300, and span the support block 310. Installed and provided with a rail rail 320 formed in the shape of a rail.

The horizontal rail bar 320 is installed to be orthogonal to the horizontal bar 220, the front portion is formed to be rail-coupled with the vertical rail bar 330 to be described later in a protruding form. The vertical rail bar 330 extends in the vertical direction and is coupled to the horizontal rail bar 320 so as to move in the horizontal direction.

Here, the vertical rail bar 330 is formed in the shape of a rail like the horizontal rail bar 320, the vertical movement block 340 is coupled to this portion is moved up and down. The vertical movement block 340, the dial gauge 300 is installed and the measurer 360 formed on the dial gauge 300 is in contact with the plywood (W) to measure the degree of bending.

At this time, the dial gauge 300 is installed on the lower side of the vertical movement block 340 as shown in FIG.

Next, the working state of the scaffolding strength test apparatus 100 according to the present invention will be described with reference to the drawings.

3 and 4 put the plywood (W) to be measured on the upper side of the base frame 200. At this time, the plywood (W) is placed over the base frame 200 so that the inner portion excluding the outer surface is spaced apart from the ground.

At this time, based on the experimental data, the test is performed by pressing about 750 kg, which is the maximum load that the plywood used in the LNG scaffolding system to withstand, to the upper surface of the plywood (W). It is operated to supply to the hydraulic cylinder (400).

3 and 4, the hydraulic pressure supplied from the hydraulic supply device 480 to the hydraulic cylinder 400 through the transfer hose 460 operates the hydraulic cylinder 400, and the hydraulic cylinder. The pressure plate 440 provided at the end of the rod (not shown) constituting the 400 pressurizes the plywood (W).

At this time, the plywood (W) pressurized by the pressure plate 440 is deformed each time the force of the hydraulic cylinder 400 by the hydraulic pressure, where, as shown in Figure 4 the plywood (W) ) Is measured by the measuring device 360 formed on the dial gauge 300 and its length is displayed on the display window. In this way, by measuring the degree of warp for the plywood (W) to determine whether it can be used in ships can be reused and discarded.

On the other hand, Figure 5 is a side view showing a scaffolding strength test device showing another embodiment according to the present invention.

As shown here, in another embodiment of the present invention, the gauge gauge to measure the degree of whip of the plywood is installed so that the gap gauge 500 can be measured from the bottom in the center of the portion pressed by the pressing means. It installs the support bracket material 201 in the base frame 200, fixedly installed the gap gages 500 in the extension support bar 501 of the base frame 200, the measurement of the pin gauge 500 When the end is positioned in the lower center of the pressing means so that the plywood is pressed by the pressing means, it is configured to measure and display the displacement amount in contact with the lower surface of the plywood.

Therefore, when the gauge (dial gauge) is installed in the rear of the pressing means as shown in Figures 1 to 4, the displacement is measured at a position slightly off the center of displacement of the plywood where the displacement occurs, so take this into consideration in advance. Determination of the failure / pass, and by using the gap gauge 500 at the lower surface of the center where the displacement occurs as shown in Figure 5 has the effect of measuring the maximum value of the displacement.

In the above described the present invention with reference to the embodiment shown in the drawings, but this is only exemplary, those skilled in the art can understand that various modifications and equivalent other embodiments are possible from this. There will be. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended utility model claims.

1 is a perspective view showing a scaffolding strength test apparatus according to the present invention,

2 is a plan view showing a scaffolding strength test apparatus according to the present invention,

3 is a front view showing the scaffolding strength test apparatus according to the present invention,

Figure 4 is a side view showing a scaffolding strength test apparatus according to the present invention.

Figure 5 is a side view showing a scaffolding strength test apparatus showing another embodiment according to the present invention.

♣ Explanation of symbols for main part of drawing ♣

100: scaffolding strength test apparatus 200: base frame

220: horizontal bar 222: fixed plate

224: through hole 240: vertical bar

260: support shaft 280: setting bar

300: dial gauge 310: support block

320: horizontal rail bar 330: vertical rail bar

340: vertical movement block 350: fixed shaft

360: Measurer 400: Hydraulic cylinder

420: hydraulic gauge 440: pressure plate

460: transfer hose 480: hydraulic supply device

482 regulator 500 gap gauge

501: support bar

Claims (8)

A base frame supporting the outer circumference of the bottom of the plywood; A fixing member extending in an upward direction of the base frame; An urging means installed on the fixing member and urging an upper surface of the plywood; It is installed on the fixing member, scaffolding strength test apparatus comprising a gauge for measuring the degree of bending of the plywood bent by the pressing means. The method of claim 1, It is installed on one side of the base frame, scaffolding strength test apparatus further comprising a setting bar for holding the position of the plywood. The method according to claim 1 or 2, A plurality of through holes are formed in the base frame at predetermined intervals, and the support shafts through-coupling the base frame and the fixing member are separated to move the fixing member to a predetermined position, and then the support shafts are inserted into the through holes. Scaffolding strength test apparatus, characterized in that the fixing member can be fixed to the base frame. The method of claim 1, wherein the fixing member, A pair of vertical bars installed on one side of the base frame to face each other; A pair of horizontal bars installed across the vertical bars and spaced apart from each other by a predetermined distance; Scaffolding strength test apparatus, characterized in that the vertical bar includes a support shaft for penetrating the base frame. According to claim 1, wherein the pressing means, A hydraulic supply device for supplying hydraulic pressure; A transfer hose for transferring hydraulic pressure from the hydraulic pressure supply device; A hydraulic cylinder which operates by receiving hydraulic pressure transferred from the transfer hose; A hydraulic gauge displaying a flow rate of the hydraulic cylinder; Scaffolding strength test apparatus characterized in that it comprises a pressing plate for pressing the upper surface of the plywood in accordance with the hydraulic amount of the hydraulic cylinder. The method of claim 5, wherein the pressing means, The scaffolding strength test apparatus is installed on the hydraulic pressure supply device, further comprising a regulator for adjusting the amount of hydraulic pressure supplied from the hydraulic pressure supply device. The method of claim 1, wherein the gauge, A pair of support blocks installed on the horizontal bars and supporting members; A horizontal rail bar installed across the support block and having a rail shape; A vertical rail bar which is rail-coupled to the horizontal rail bar and moves horizontally and which is formed in a rail shape extending in a vertical direction; A vertical moving block coupled to the vertical rail bar and installed to move vertically; The scaffolding strength test apparatus, characterized in that consisting of a dial gauge installed on the vertical movement block to measure and display the vertical movement displacement. The method of claim 1, wherein the gauge, Scaffolding strength test apparatus is fixed to the extension support bar of the base frame is installed in the center portion from the lower portion of the pressing means toward the top, the gap gauge to measure the bending degree of the plywood in contact with the lower surface of the plywood .

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