KR102136115B1 - Waterproof material performance measuring device corresponding to the behavior - Google Patents

Abstract

The present invention relates to a waterproof material performance measurement device corresponding to the behavior, a mounting space is formed inside, and at one side, a temperature sensor for measuring the temperature of fresh water accommodated in the mounting space and a water pressure for measuring the internal pressure in the mounting space A test chamber equipped with a pressure gauge; A test body installed in a mounting space of the test chamber, made of concrete, and coated with a waterproof material on the outer surface; A test body operating means mounted on the test chamber and performing a behavior test on the test body; Arranged in the lower portion of the test chamber, and composed of a drainage tank for collecting water supplied through the leak path and a leak path for discharging water received therein to the outside when the test body mounted inside the test chamber is damaged. Outlet; Supply means which is coupled to the test chamber, consisting of a fresh water supply for supplying water and a heat source supply for supplying air at a predetermined temperature; And a flow rate rotation operation unit mounted at a lower portion of the test chamber and controlling a flow rate of fresh water accommodated in the mounting space. It can be made including.
The waterproof material performance measuring device corresponding to the behavior according to the present invention can fix the test body in the test chamber and set the temperature condition, fresh water condition, and flow rate condition accordingly, and further apply up and down tensile force, horizontal tensile force, and left and right torsion to the test body. It is possible to provide performance data corresponding to the structure behavior for an objective waterproofing material.

Description

Water-proof material performance measuring device corresponding to the behavior}

The present invention relates to a waterproof material performance measuring device corresponding to the behavior, and more specifically, to test the waterproof material coated on the concrete structure according to various environments and to obtain the performance data for the objective waterproof material. It relates to a behavior test apparatus.

In general, civil structures are subjected to various forces due to their own weight, changes in groundwater level, and flow of soil, and these displacement stresses cause serious problems such as deformation, collapse, or vibration of the structures.

Therefore, in order to economically and effectively design structures that have the necessary strength and function in accordance with the environment, various investigations, planning, research, design, analysis, and evaluation are performed.

For example, concrete structures such as roof slabs, roofs, basements of buildings, and various fluid storage tanks lack watertightness, so that rainwater or groundwater can permeate.

In this case, the impregnated water not only decreases the bonding strength of the concrete itself, but also causes cracks in the concrete structure due to the change in the volume of water according to the temperature change, thereby shortening the life of the concrete structure.

Therefore, the waterproofing method of the concrete structure to prevent this is important, and the waterproofing material used in the waterproofing method should have proper performance and function.

The performance required for the waterproof material can be variously set according to the conditions required by the structure. Construction structures may degrade long-term waterproofing performance and durability due to salt environment, subsidence, cracking, etc.

Therefore, leaks in underground structures significantly damage the safety and usability of the entire structure, so a method that can ensure perfect waterproof quality in the design and construction stages must be introduced.

The performance regulations presented in the current KS standard are minimum standards for material performance for each waterproof material, and do not guarantee proper performance in each situation. Most of the new technology waterproof materials currently used use a variety of materials in combination, and a waterproofing method using the same has been proposed, but there is a problem that an appropriate evaluation method has not been proposed for the proposed new technology waterproof material.

Currently, it is practically impossible to maintain a reliable and consistent quality level because each site evaluates and selects a waterproofing method according to different standards.

Therefore, it is desirable to make sure that the waterproof material used in the waterproofing method of concrete structures has proper performance and function. In other words, if there is test data on how much the concrete structure with the waterproof material endures under various environmental conditions that can be encountered in the real world, the design of the waterproof method of the actual concrete structure can be made economically and effectively.

The test method for responsiveness to the behavior of concrete structures against waterproof materials is as follows.

First, after bonding two mortar test specimens of a predetermined size simulating the shape of a concrete structure with a waterproof material (for example, adhesive or joint type), placed in a test chamber, and then subjected to temperature conditions (for example, room temperature 20±3℃ and low temperature − 10±2℃) and fresh water condition (filling the water in the test chamber), and then conduct the behavior test.

The behavior test is, for example, by setting the behavior width to 4.5 mm (tolerance error ±0.2 mm) and the behavior speed of 5 m/min, so that the test body is operated about 100 times. As a result, it is checked whether water leaks into the test body.

However, since a dedicated test device for a concrete structure is not provided in the related art, it is impossible to obtain an accurate and objective test result, and thus reliability and reliability of the test result cannot be secured. Accordingly, the present inventor has proposed a structure behavioral responsiveness test apparatus for a waterproofing material disclosed in Korean Patent No. 10-1465943 and a method for testing the responsiveness of a waterproofing material according to the testing apparatus.

However, in the behavior test of the above-described test apparatus, there is a limitation that the behavior test of the test body applies only a tensile force in a simple direction.

In other words, in reality, there is still a need for an improved test apparatus capable of setting the behavior test conditions closer to reality because tensile force can be applied to the structure in various directions.

In addition, Patent Application No. 10-1671781 filed to overcome the above problems discloses a composite behavior test apparatus and method for performance testing of a waterproof material corresponding to an external environment.

However, in the complex behavior test apparatus and method for the performance test of waterproof materials corresponding to the external environment, there is a shortage in obtaining detailed operation and data in the vertical direction and the left and right direction, so it is necessary to supplement this.

Republic of Korea Registered Patent Publication No. 10-1465943 (2014. 11. 28.) Republic of Korea Registered Patent Publication No. 10-1671781 (2016. 10. 27.)

The present invention has been devised to solve the above problems, and tests the waterproof material coated on the concrete structure (floor, floor and outer wall, floor and corner) according to various environments and provides performance data for objective waterproof materials. An object of the present invention is to provide a waterproof material performance measurement device corresponding to the behavior that can be obtained.

In order to achieve the above object, the concrete structure behavior test apparatus of the present invention has a mounting space formed therein, and at one side, a temperature sensor for measuring the temperature of fresh water accommodated in the mounting space and a hydraulic pressure for measuring the internal pressure in the mounting space. A test chamber equipped with a pressure gauge; A test body installed in a mounting space of the test chamber, made of concrete, and coated with a waterproof material on the outer surface; A test body operating means mounted on the test chamber and performing a behavior test on the test body; Arranged in the lower portion of the test chamber, and composed of a drainage tank for collecting water supplied through the leak path and a leak path for discharging water received therein to the outside when the test body mounted inside the test chamber is damaged. Outlet; Supply means which is coupled to the test chamber, consisting of a fresh water supply for supplying water and a heat source supply for supplying air at a predetermined temperature; And a flow rate rotation operation unit mounted at a lower portion of the test chamber and controlling a flow rate of fresh water accommodated in the mounting space. It can be made including.

And the waterproof material is a waterproof material composed of a primer and urethane and top coating, a waterproof material composed of a primer and sheet series and urethane and top coating, a waterproof material composed of a sheet series and urethane and top coating, sheet series and mortar It is composed of any one of the waterproof materials, and the sheet may be formed of any one or a combination of PVC sheet, asphalt sheet, fiber sheet, inorganic sheet, butyl sheet.

In addition, the test body operating means is mounted on the upper portion of the test chamber, the vertically repeating operation unit for vertically repeating the vertical movement of the test body; Left and right horizontal operation units mounted on both sides of the test chamber and repeating the test body in a horizontal direction; It may be mounted on the front or rear or the lower portion of the test chamber and the front and rear operation unit for repeatedly moving the test body in the front-rear direction.

In addition, the test chamber is equipped with a cushioning means to be able to maintain temperature while alleviating vibration and shock, and the cushioning means is a blocking plate formed of a coating layer formed of rubber or silicone from the inside to the outside, the back surface of the blocking plate It may be composed of a first buffer member mounted on the inside and the pores are formed, and a second buffer member mounted on the back surface of the first buffer member and formed of a viscous material.

In addition, the test body is composed of a bottom surface and at least one outer wall mounted along the outer surface of the bottom surface, and the test body may be equipped with a fresh water case to measure the behavior of the waterproof material through fresh water accommodated therein. have.

The waterproof material performance measuring device corresponding to the behavior according to the present invention can fix the test body in the test chamber and set the temperature condition, fresh water condition, and flow rate condition to suit the situation, and further apply up and down tensile force, horizontal tensile force, and left and right torsion to the test body. It is possible to provide performance data corresponding to the structure behavior for an objective waterproofing material.

1 is a block diagram showing a waterproof material performance measuring device corresponding to the behavior according to the present invention.
Figure 2 is a block diagram showing a test chamber constituting a waterproof material performance measuring device corresponding to the behavior according to the present invention.
3 is a view showing another embodiment of a test chamber constituting a waterproof material performance measurement device corresponding to the behavior according to the present invention.
4 is a block diagram showing a test body operating means constituting a waterproof material performance measuring device corresponding to the behavior according to the present invention.
5 is a view showing a cooling cycle for lowering the temperature of the heat source supply unit constituting the waterproof material performance measuring device corresponding to the behavior according to the present invention.
6 is a block diagram showing a flow rate rotation operation unit and a front and rear operation unit constituting a waterproof material performance measurement device corresponding to the behavior according to the present invention.
7 is a cross-sectional view showing an embodiment of a buffer means constituting a waterproof material performance measuring device corresponding to the behavior according to the present invention.
8 and 9 are views showing a mounting means constituting a waterproof material performance measuring device corresponding to the behavior according to the present invention.
10(a) to 10(c) are views showing examples of test bodies used in a waterproof material performance measuring device corresponding to the behavior according to the present invention.
11 is a view showing another embodiment of a waterproof material performance measuring device corresponding to the behavior according to the present invention.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and the ordinary skill in the art to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is defined by the claims.

Meanwhile, the terms used in the present specification are for describing the embodiments and are not intended to limit the present invention. In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein, “comprises” or “comprising” means the presence of one or more other components, steps, operations and/or elements other than the components, steps, operations and/or elements mentioned, or Addition is not excluded.

Hereinafter, when the configuration of the present invention is described with reference to the accompanying drawings, FIG. 1 is a configuration diagram showing a waterproof material performance measuring device corresponding to the behavior according to the present invention, and FIG. 2 is a waterproof corresponding to the behavior according to the present invention 3 is a view showing a test chamber constituting a material performance measuring device, Figure 3 is a view showing another embodiment of a test chamber constituting a waterproof material performance measuring device corresponding to the behavior according to the invention, Figure 4 is the present invention It is a block diagram showing a test body operating means constituting the waterproof material performance measuring device corresponding to the behavior according to, Figure 5 is a cooling cycle for the temperature drop of the heat source supply unit constituting the waterproof material performance measuring device corresponding to the behavior according to the invention 6 is a block diagram showing a flow rate rotating operation part and a front and rear operation part constituting a waterproof material performance measuring device corresponding to the behavior according to the present invention.

The waterproof material performance measurement device 100 corresponding to the behavior of the present invention is coated on the outer surface of a structure made of concrete (eg, an underground exterior wall, a foundation floor, a multi-family structure such as a top floor slab, a parking lot, a common ward, an underground lane, etc.) Waterproof materials are tested and measured.

And in the present invention, the waterproof material performance measuring device 100 corresponding to the behavior tests the waterproof material coated on the outer surface of the test body 10 composed of the bottom surface 12 and the outer wall 14 made of concrete. And measuring examples.

Next, the waterproof material coated on the upper portion of the test body 10 is a waterproof material composed of a primer and urethane and top coating, a waterproof material composed of a primer and sheet series and urethane and top coating, a sheet series and urethane and top coating It is composed of any one of the waterproof material consisting of, waterproof material consisting of sheet-based and mortar.

At this time, the sheet is formed of any one or a combination of PVC sheet, asphalt sheet, fiber sheet, inorganic sheet, butyl sheet.

The waterproof material performance measuring device 100 corresponding to the behavior of the present invention is a test chamber 200 in which a test body 10 is installed, a test body operating means 300, a discharge part 400, a supply means 500, a flow rate rotation operation It includes a unit 600, a control unit 700.

The test chamber 200 has a predetermined size, and the airtight member (for example, packing, etc.) is installed in the coupling portion to block the entry and exit of gas and liquid.

In addition, the test chamber 200 is formed in a rectangular shape, the material is formed of a transparent material to visually check the state of the inside, and the test body 10 is installed or removed in the mounting space 220 inside. So the inlet 210 is formed.

In addition, the test chamber 200 is equipped with a temperature sensor 230 for measuring the temperature of fresh water accommodated in the mounting space 220 on one side of the upper side, and a hydraulic pressure gauge 240 for measuring the pressure inside is mounted on the lower side. do.

That is, the test chamber 200 is installed or removed the test body 10 in the mounting space 220 inside through the inlet 210 formed on the top, the mounting space 220 through the temperature sensor 230 It measures the temperature of the fresh water contained in, and measures the pressure of the mounting space 220 through the hydraulic pressure gauge 240.

At this time, a known photo sensor may be selectively mounted on the upper portion of the test chamber 200 so as to check the operating position of the upper and lower repetitive operation parts constituting the test object operation means 300.

Next, the test chamber 200 may be selectively equipped with a buffer means 800 so as to maintain temperature while alleviating vibration and shock as shown in FIG. 7.

In addition, the buffer means 800 is a blocking plate 810 formed with a coating layer 820 formed of rubber or silicone from the inside to the outside, and mounted on the rear surface of the blocking plate 810, the first buffer having pores formed therein. It is formed of a member 830 and a second buffer member 840 formed on a back surface of the first buffer member 830 and formed of a viscous material.

That is, the buffer means 800 is a test according to the operation of the test body operating means 300 through the blocking plate 810, the first buffer member 830 and the second buffer member 840, the coating layer 820 is formed The shock and vibration of the chamber 200 are alleviated.

In addition, the buffer means 800 is able to maintain the temperature of fresh water accommodated in the mounting space 220 of the test chamber 200 at a set temperature for a long time through the second buffer member 840 having viscosity.

In addition, the buffer means 800 is a part communicating with the mounting space 220 of the test chamber 200, it is natural that a through hole is formed, and a separate indication will be omitted.

The test object operating means 300 is mounted in the test chamber 200.

Here, the test body operating means 300 performs a behavior test on the test body 10 through the up, down, left, right, and before and after operation of the test body 10.

And the test body operating means 300 is mounted on the upper portion of the test chamber 200, the vertically repeating operation unit 320 for vertically repeating the vertical movement of the test body 10, both sides of the test chamber 200. Each is mounted and consists of a left and right horizontal actuating unit 340 for repeatedly moving the test body in the horizontal direction, and a front and rear acting unit 360 mounted on the front or rear of the test chamber and repeatedly moving the test body in the front and rear directions. .

That is, the test object operating means 300 is repeatedly moved in the vertical direction with respect to the test object 10 through the up and down repetitive operation unit 320, and repeatedly in the horizontal direction through the left and right horizontal operation unit 340, Through the front-rear operation unit 360, it is repeatedly moved in the front-rear direction.

Specifically, the up and down repetition operation unit 320 is disposed on the upper portion of the test chamber 200 and moves the test body 10 up and down repeatedly in the vertical direction.

And the upper and lower repetition operation unit 320 is fixed to the upper portion of the test chamber 200, one end is coupled to the vertical motor 321 and the motor connector 322 to operate the motor connector 322 in the vertical direction and the other However, the end is coupled to the test body 10 and is composed of an upper and lower repetition fixture 323 on which a tension sensor 324 is mounted.

That is, the vertical repetition operation unit 320 is mounted on the test chamber 200 located on the upper portion of the test body 10, the vertical motor 321, after the tension sensor on the motor connector 322 of the vertical motor 321 Mounting the up and down repetition fixture 323 equipped with (324), the tension of the test body 10 through the tension sensor 324 while the up and down repetition fixture 323 vertically moves according to the operation of the vertical motor 321 To measure.

Here, the vertical repetition operation unit 320 may be equipped with a known vertical cylinder in place of the vertical motor 321, and the tension sensor 324 is configured by selecting a known tension sensor according to environment and purpose. do.

The left and right horizontal operation parts 340 are disposed on both sides of the test chamber 200, and the side surfaces of the test object 10 are repeatedly operated in the left and right directions.

In addition, the left and right horizontal operation parts 340 are fixed to both sides of the test chamber 200 and are connected to the horizontal motor 341 and the motor connection part 342 in which the motor connection ports 342 operate in the horizontal direction. As this is coupled, the other end is coupled to the test body 10 and consists of a horizontally operated fixture 343 on which one side a tension sensor 344 is mounted.

That is, the left and right horizontal operation unit 340 is mounted to each of the horizontal motor 341 to the test chamber 200 located on both sides of the test body 10, and then, the motor connector 342 of the horizontal motor 341 Equipped with a horizontal operating fixture (343) equipped with a tension sensor (344), according to the operation of the horizontal motor 321, the horizontal operating fixture (343) horizontal movement while the test object (10) through the tension sensor (344) Will measure the tension.

Here, the left and right horizontal operation unit 340 may be equipped with a known vertical cylinder in place of the horizontal motor 341, and the tension sensor 344 may select a known tension sensor according to environment and purpose. It is configured by.

The front-rear operation unit 360 is disposed at the front, rear, or bottom of the test chamber 200 and repeatedly operates the test body 10 forward or rearward.

Here, the front-rear operation unit 360 will be described as an example mounted on the lower portion of the test chamber 200.

In addition, the front-rear operation unit 360 is fixed to the front or rear of the test chamber 200 and has one end to the front-rear operation motor 361 and the motor connection port 362 in which the motor connector 362 operates in the front-rear direction. While being coupled, the other end is coupled to the test body 10 and consists of a front and rear operating fixture 363 on which one side a tension sensor 364 is mounted.

That is, the front-rear operation unit 360 is equipped with a front-rear operation motor 361 at the lower portion of the test chamber 200, and then a tension sensor 364 is provided at the motor connector 362 of the front-rear operation motor 361. By mounting the front and rear operation fixture 363, the tension of the test object 10 is measured through the tension sensor 364 while the front and rear operation fixture 363 linearly moves in the front-rear direction according to the operation of the front-rear operation motor 361. Is done.

Here, the front-rear operation unit 360 may be equipped with a known cylinder in place of the front-rear operation motor 361, and the tension sensor 364 may be configured by selecting a known tension sensor according to environment and purpose. .

In addition, the power of the motor connector 322, 342, 362 constituting the upper and lower repetitive operation unit 320, the left and right horizontal operation unit 340, and the front and rear operation unit 360 constituting the test object operating means 300. The transmission method is achieved through a power transmission method such as a known gear, belt, chain, etc., and a separate description will be omitted.

The discharge part 400 is disposed under the test chamber 200.

And the discharge unit 400 is a leak path 420 for discharging the water contained in the inside of the test body 10 mounted inside the test chamber 200 to the outside and the water supplied through the leak path 420 It consists of a drain tank 440 to collect.

That is, the discharge unit 400 collects fresh water in the drain tank 440 through the leak path 420 when the test body mounted in the mounting space 220 of the test chamber 200 is damaged.

In addition, a leak sensor 460 is selectively mounted on the leak path 420 to measure moving water and detect that a leak occurs.

The supply means 500 is mounted in the test chamber 200.

And the supply means 500 is composed of a fresh water supply unit 520 for supplying water and a heat source supply unit 540 for supplying air at a predetermined temperature.

That is, the supply means 500 supplies fresh water to the mounting space 220 of the test chamber 200 through the fresh water supply unit 520, and the air at a set temperature of the test chamber 200 through the heat source supply unit 540. To supply.

In addition, the fresh water supply unit 520 is a fresh water supply path 521 for supplying fresh water to the test chamber 200, a fresh water storage unit 522 where fresh water is stored, and a fresh water supply path stored in the fresh water storage unit 522. It is composed of a pump 523 for supplying fresh water to the test chamber 200 through (521).

Here, the fresh water supply path 521 is connected to the heat source supply path of the heat source supply unit 540, stops the supply of heat source when supplying fresh water through the opening and closing operation of the switching valves 524 disposed in the middle, and supplies fresh water when supplying the heat source To stop.

The heat source supply unit 540 is coupled to the test chamber 200 and performs air at a predetermined temperature.

In addition, the heat source supply unit 540 is composed of a cooler having a cooling cycle 541 for decreasing the temperature and a heat source supply path 542 for supplying a heater, cold air or heat for increasing temperature to the test chamber 200.

Here, the cooler and heater constituting the heat source supply unit 540 may be composed of a known cooler and heater according to the environment and purpose.

In addition, the heat source supply path 542 is connected to the fresh water supply path 521, the heat source supply is stopped when fresh water is supplied through the opening and closing operation of the opening/closing valve 524, and the fresh water supply is stopped when the heat source is supplied.

The flow rate rotation operation unit 600 is mounted on the lower portion of the test chamber 200.

That is, the flow rate rotation operation unit 600 controls the flow rate of fresh water accommodated in the mounting space 220 of the test chamber 200.

And the flow rate rotation operation unit 600 is a flow rate rotation motor 610 located in the lower portion of the test chamber 200, the upper portion is located inside the test chamber 200 and the lower portion is located outside the test chamber 200, When the flow rotation motor 610 is operated, a rotation operation part 620 that rotates to operate, and a rotating plate mounted on the top of the rotation operation part 620 to adjust the flow rate of water accommodated in the mounting space 220 of the test chamber 200 It consists of 630.

That is, the flow rotation operation unit 600 is to adjust the flow rate of the water toward the test body 10 using the rotation operation unit 620 and the rotating plate 630 to rotate in place when the flow rotation motor 610 is operated. .

The control unit 700 is mounted on one side of the waterproof material performance measurement device 100 corresponding to the behavior.

In addition, the control unit 700 controls the test object operation means 300, the discharge unit 400, the supply means 500, and the flow rate rotation operation unit 600 according to each situation.

That is, the control unit 800 controls the test material operating means 300, the discharge part 400, the supply means 500, the flow rate rotation operation part 600 according to the waterproof material and the test material 10 coated with the waterproof material. Is done.

Here, the control unit 700 includes a plurality of input buttons and display means, a controller including a microprocessor, EPROM, or EEPROM, and a power supply unit for supplying power to each unit.

Next, the mounting means 900 to change the operating speed and the environment of the test body 10 into the interior of the mounting space 220 of the test chamber 200 constituting the waterproof material performance measurement device 100 corresponding to the behavior. It can be mounted.

In addition, the mounting means 900 is disposed at a corner of a square and a mounting fixture 910 in which a fitting hole 912 is formed at an upper portion, a height adjusting device spirally coupled to the lower portion of the mounting fixture 910 and height adjusted ( 920), a fitting coupling protrusion 932 is formed at a position corresponding to the fitting coupling hole 912 of the mounting fixture 910, and a plurality of through holes 933 having a mounting groove 934 formed therein are formed. The fixture body 931 is mounted on the mounting fixture 930 disposed in a hollow square shape on the upper portion of the mounting fixture 910, and is selectively mounted on the through hole 933 of the fixture body 931, and on the upper portion A contact hole 942, such as a sphere or a roller or a friction member, is disposed, and a work screw rod 944 for adjusting the height is mounted under the contact hole 942, and the contact hole is attached to the work screw rod 944. The position adjusting unit 940 is mounted to which the position adjusting screw 946 for adjusting the height of 942 is mounted.

That is, after the mounting means 900 is mounted with the mounting fixture 910 to which the height adjustment mechanism 920 is coupled at intervals, a plurality of fixture bodies 931 are formed on the upper portion of the mounting fixture 910. After the mounting fixture 930 is arranged in a hollow square shape, a height adjusting portion 940 is mounted on the through hole 933 of the fixture body 931.

Specifically, the mounting means 900 is to adjust the position of the contact port 942 according to the environment and purpose, etc., so that the friction speed of the test body 10 can be made faster or slower, and the test can be conducted in consideration of resistance.

Next, the waterproof material performance measuring device 100 may be configured as shown in FIG. 11.

That is, the waterproof material performance measuring apparatus 100 shows an example in which the fresh water case 1000 is mounted to accommodate fresh water on the top of the test body 10.

Specifically, the test body 10 is composed of a bottom surface 12 and an outer wall 14 that is mounted at least one along the outer surface of the bottom surface 12, the test body 10 has fresh water accommodated therein It shows an example in which the fresh water case 1000 is mounted to measure the behavior of the waterproof material.

When explaining an embodiment of the waterproof material performance measurement device corresponding to the behavior configured as described above are as follows.

First, in a rectangular shape, the material is formed of a transparent material to visually check the state of the inside, and an inlet 210 is formed at the upper portion to install or remove the test body 10 in the mounting space 220 inside. , On one side of the upper side is equipped with a temperature sensor 230 for measuring the temperature of fresh water accommodated in the mounting space 220, and on the lower side of the test chamber 200 is equipped with a hydraulic pressure gauge 240 for measuring the pressure inside. do.

And it is mounted on the upper portion of the test chamber 200, the vertically repeating operation unit 320 for vertically repeating the vertical movement of the test body 10 and both sides of the test chamber 200, respectively, and the test body in the horizontal direction Equipped with a test body operating means 300, which consists of a left and right horizontal operation part 340 for repetitive movement and a front and rear operation part 360 for repetitive movement of the test body in the front-rear direction and mounted on the front or rear of the test chamber. do.

Next, a leak path 420 for discharging water accommodated inside the test body 10 mounted therein to the bottom of the test chamber 200 to the outside, and collecting water supplied through the leak path 420 A drain tank 440 is mounted on the leak path 420 and is equipped with a drain 400 consisting of a leak sensor 460 that measures moving water.

In addition, a supply means 500 including a fresh water supply unit 520 for supplying water to the test chamber 200 and a heat source supply unit 540 for supplying air at a predetermined temperature is mounted.

Next, the flow rate rotation motor 610 in the lower portion of the test chamber 200, the upper portion is located inside the test chamber 200, the lower portion is located outside the test chamber 200, and the operation of the flow rate rotation motor 610 Flow rotation is composed of a rotating operation unit 620 that rotates during operation, and a rotating plate 630 mounted on an upper portion of the rotating operation unit 620 to adjust the flow rate of water accommodated in the mounting space 220 of the test chamber 200 Mount the operation unit 600.

And at a distance from the test chamber 200, according to the test material 10 coated with a waterproof material and a waterproof material, the test body operation means 300, the discharge part 400, the supply means 500, the flow rate rotation operation part 600 When the control unit 800 for controlling) is mounted, assembly of the waterproof material performance measurement device 100 corresponding to the behavior is completed.

Here, it is revealed that the assembly or installation process of the waterproof material performance measuring device corresponding to the behavior can be assembled or installed differently from the above.

Next, in order to test the behavior of the test body mounted inside the test chamber through the waterproof material performance measuring device 100 corresponding to the behavior, the following is described.

First, after preparing the test body 10 consisting of the roof surface 12 and the outer wall 14, after mounting the test body 10 of the test chamber 200, the test body 10 in the vertical direction Connect the up and down repetition operation unit 320 to repeatedly move up and down, and connect the left and right horizontal operation units 340 to repetitively move the test body 10 horizontally to both sides of the test chamber 200, The front and rear operation parts 360 are connected to the lower part of the test body 10.

Further, at least one environment condition among temperature, fresh water, and flow rate in the test chamber 200 in which the test body 10 is disposed is set through the control unit 700.

For example, the temperature condition is set to 20±3° C. at room temperature and −10±2° C. to low temperature, and the fresh water condition is set such that fresh water is introduced into the test chamber 200 so that the test body 10 is submerged in water.

Next, by using the up and down repetition operation part 320, the left and right horizontal operation part 340, the front and rear operation part 360, to select the up and down tensile force, horizontal tensile force, left and right twisting force for the test body 10, Operate sequentially.

For example, the up-and-down repetition operation unit 320 sets the up-and-down vibration width 4.5 mm (tolerance error ±0.2 mm) and the vibration speed to 5 m/min, vibrates the test body about 100 or more times up and down, and the front-rear operation unit (360) is set to the right and left vibration width 2.5 mm (tolerance ±0.1 mm), the vibration speed 2 m / min, it is possible to twist the specimen repeatedly from side to side.

Then, the leak detection sensor 460 is used to detect a leak in the leak path 420, and when a leak occurs in the leak path 420, the behavior test step may be stopped and test data may be prepared. At this time, water moving along the leak path 420 is collected in the drain tank 460.

The preferred embodiments of the present invention have been described above, but the present invention is not limited to the above-described embodiments, but can be modified or modified in various forms, and the modified or modified embodiments are also disclosed in the following claims. Of course, if it includes the technical idea of belonging to the scope of the present invention.

10: test body 12: bottom surface
14: outer wall
100: waterproof material performance measurement device corresponding to the behavior
200: test chamber 210: inlet
220: mounting space 230: temperature sensor
240: hydraulic pressure gauge 300: test body operating means
320: up and down repetition operation unit 321: vertical motor
322: motor connector 323: up and down repeater fixture
324: tension sensor 340: left and right horizontal operation unit
341: Horizontal motor 342: Motor connector
343: Leveling fixture 344: Tension sensor
360: front and rear operation unit 361: front and rear operation motor
362: motor connector 363: front and rear operation fixture
364: tension sensor 400: discharge unit
420: leak path 440: drain tank
460: leak sensor 500: supply means
520: fresh water supply unit 521: fresh water supply path
522: fresh water storage unit 523: fresh water supply pump
524: open/close valve 540: heat source supply
541: Cooling cycle for temperature drop 542: Heat source supply path
600: flow rotation operation unit 610: flow rotation motor
620: rotating operation unit 630: rotating plate
700: control unit 800: buffering means
810: blocking plate 820: coating layer
830: first buffer member 840: second buffer member
900: Mounting means 910: Mounting fixture
912: fitting fitting hole 920: height adjuster
930: mounting fixture 931: fixture body
932: fitting engaging projection 933: through hole
934: mounting groove 940: position adjustment
942: close contact 944: work screw rod
946: Position adjustment screw

Claims (6)

A test chamber in which a mounting space is formed inside and a temperature sensor for measuring the temperature of fresh water accommodated in the mounting space and a hydraulic pressure gauge for measuring the internal pressure in the mounting space;
A test body installed in a mounting space of the test chamber, made of concrete, and coated with a waterproof material on the outer surface;
Mounted on both sides of the test chamber and vertically repeating operation parts mounted on the test chamber and vertically repeating the test body in a vertical direction so as to perform a behavior test on the test body and repeating the test body in a horizontal direction. A test piece operating means mounted on the left and right horizontal operating parts and a front and rear operating part mounted on the front or rear or bottom of the test chamber and repeatedly moving the test object in the front and rear directions;
Arranged in the lower portion of the test chamber, and composed of a drainage tank for collecting water supplied through the leak path and a leak path for discharging water received therein to the outside when the test body mounted inside the test chamber is damaged. Outlet;
Supply means which is coupled to the test chamber, consisting of a fresh water supply for supplying water and a heat source supply for supplying air at a predetermined temperature; And
A flow rate rotation operation part mounted on a lower portion of the test chamber and controlling a flow rate of fresh water accommodated in the mounting space; Including,
The test body is composed of a bottom surface and at least one outer wall mounted along the outer surface of the bottom surface, the test body is equipped with a fresh water case to measure the behavior of the waterproof material through fresh water accommodated therein,
The test chamber is equipped with a cushioning means to be able to maintain the temperature while alleviating vibration and shock, the cushioning means is provided with a coating layer formed of rubber or silicone from the inside to the outside, a blocking plate formed on the back surface of the blocking plate It is composed of a first cushioning member having pores formed therein, and a second cushioning member mounted on the rear surface of the first cushioning member and formed of a viscous material,
Mounting fixtures are mounted to the interior of the mounting space constituting the test chamber to change the operating speed and the environment of the test body, wherein the mounting means are disposed at a corner of a square and a fitting hole is formed at the upper portion to form a fitting hole; A height adjuster which is spirally coupled to the lower part of the mounting fixture and is adjusted in height; A mounting fixture having a plurality of fastener bodies in which a fitting coupling protrusion is formed at a position corresponding to the fitting coupling hole of the mounting fixture and a through hole having a mounting groove formed therein is disposed in a hollow square shape on the upper portion of the mounting fixture. ; It is selectively mounted to the through hole of the fixture body, an orifice such as a sphere or a roller or a friction member is disposed at the top, and a work screw rod for adjusting the height is mounted to the lower part of the contact hole, and the work screw rod has an Waterproof material performance measurement device corresponding to the behavior, characterized in that it consists of a position adjustment unit is equipped with a position adjustment screw for adjusting the height.
According to claim 1,
The waterproof material is composed of a waterproof material consisting of a primer and urethane and top coating, a waterproof material consisting of a primer and sheet series and urethane and top coating, a waterproof material consisting of a sheet series and urethane and top coating, a sheet series and mortar. It consists of any one of the waterproof materials,
The sheet is a PVC sheet, an asphalt sheet, a fiber sheet, an inorganic sheet, a butyl sheet, or a waterproof material performance measuring device, characterized in that formed by any one or a combination.
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