KR100986670B1 - Apparatus for testing waterproof ability - Google Patents

Abstract

The disclosed waterproof performance test apparatus is connected to a plate, a plurality of lower specimen penetrating portions and a lower surface which are coupled to the plate, the lower specimen is filled therein, and vertically penetrates the lower specimen, spaced apart from each other at regular intervals. A lower chamber having a discharge port, which is coupled to the lower chamber, and has an upper specimen filled therein to form an empty space therebetween, and vertically penetrates the upper specimen, between the plurality of lower specimen penetration portions. An upper chamber having a plurality of upper specimen penetrating portions disposed thereon and a supply port communicating with an inside thereof, a waterproof sheet interposed between the lower chamber and the upper chamber, and a supply port connected to the supply port to supply fluid through the supply port. It may include a controller for supplying. According to this, it simulates the plywood section of the building structure inside the upper and lower chambers to prepare the shape of the actual building structure, artificially apply vibrations that may occur in the actual building, and then supply fluid inside the upper and lower chambers, which is the same as the actual state. In this condition, the waterproof performance of the waterproof layer can be tested. Therefore, there is an advantage that can accurately determine the waterproof performance of the waterproof layer in the actual plywood section.

Description

Waterproof performance test device {APPARATUS FOR TESTING WATERPROOF ABILITY}

The present invention relates to a waterproof performance test apparatus, and more particularly, to a waterproof performance test apparatus for evaluating the waterproof performance of the waterproof layer applied to the plywood section.

In order to build a structure such as a building in the downtown area where the buildings are already concentrated, the basement is excavated after the construction of the earthen wall.

The method of constructing the structure after excavating the basement layer usually makes the plywood wall, the outermost wall, in contact with the retaining wall.

After the waterproof construction, the waterproof construction is to ensure the durability of the structure by preventing the deterioration of the concrete structure and the corrosion of the reinforcement by blocking the inflow of rainwater and groundwater into the structure and to ensure the comfort of the interior space .

In the waterproofing construction, the basement of the building is generally waterproofed by the outer wall, which is constructed by constructing the structure, forming a waterproofing layer by asphalt, etc. on the outside of the outer wall, and then covering the backing of the protective layer.

However, in the plywood section, there is no space for installing the waterproof layer on the outer side of the outer wall, so the inner waterproof is applied instead of the outer waterproof.

Recently, in some foreign countries, an example of developing a waterproof material capable of waterproofing the exterior of a plywood section and applying it to a structure has been presented.

The outer waterproofing in the plywood section is different from the general inner waterproofing method in that the direction in which the waterproof layer is bonded is different from the direction of the hydraulic pressure acting on the waterproof layer.

However, since there is no device for testing the waterproofing performance of the outer waterproofing method at present, the waterproofing performance is indirectly determined by an individual material test method for the waterproofing layer.

This is a judgment on the material properties of the waterproofing layer, and when applied to the actual structure, the test is performed in a state in which a judgment on many variables that may affect the waterproofing layer is excluded, and thus the accurate waterproofing performance on the actual structure can be determined. There is no problem.

The present invention is to solve the above problems, an object of the present invention is to provide a waterproof performance test apparatus that can test the waterproof performance against the state in which the waterproof layer is formed on the actual structure with respect to the waterproof layer performed in the plywood section.

Waterproof performance test apparatus according to the present invention is a plate; A lower chamber coupled to the plate and having a lower specimen filled therein and vertically penetrating the lower specimen and having a plurality of lower specimen penetrating portions spaced apart from each other at regular intervals and a discharge port communicating with the inner surface at a lower surface thereof; The upper specimen is coupled to the lower chamber, the upper specimen is filled therein so as to form an empty space at an upper portion thereof, and vertically penetrates the upper specimen, and a plurality of upper specimen through portions and upper surfaces disposed between the plurality of lower specimen through portions. An upper chamber having a supply port in communication with the inside thereof; A waterproof sheet interposed between the lower chamber and the upper chamber; And a controller connected to the supply port to supply fluid through the supply port.

A vibrator may be coupled to an upper surface of the upper chamber to apply vibration to the upper chamber and the lower chamber.

A spring for damping the vibration may be interposed between the plate and the lower chamber.

The plate may be coupled to a measuring device to receive the fluid discharged through the discharge port.

Moving wheels may be coupled to the lower surface of the plate.

The upper chamber may be provided with a hydraulic pressure gauge for measuring the hydraulic pressure of the fluid introduced through the supply port and a thermocouple for measuring the temperature of the fluid.

The controller may include a temperature control chamber in which a temperature-controlled fluid is accommodated, a circulation pump for supplying the fluid of the temperature control chamber to the supply port, and a controller for controlling the temperature control chamber and the circulation pump. have.

The lower specimen may be a concrete wall.

The upper specimen may be composed of an embossed concrete pile and a grout bonded on the concrete pile.

The waterproof sheet may be formed by combining a plurality of single sheets, and each single sheet end may overlap an end of an adjacent single sheet.

According to the waterproof performance test apparatus according to the present invention, to form the actual building structure by simulating the plywood section of the building structure in the upper and lower chambers, and artificially applying vibrations that may occur in the actual building, and then into the upper and lower chambers By supplying a fluid, the waterproof performance of the waterproof layer can be tested in the same state as in the actual state.

Therefore, there is an advantage that can accurately determine the waterproof performance of the waterproof layer in the actual plywood section.

Hereinafter, a waterproof performance test apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a waterproof performance test apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the waterproof performance test apparatus 100 of the present invention includes a plate 110, a lower chamber 120, an upper chamber 130, and a waterproof sheet. 140 and a controller 150.

The plate 110 is a support of the waterproof performance test apparatus 100, the upper center portion may be provided with a receiving tube 111 protruding upwards, the lower wheel is coupled to the moving wheel 112 is the waterproof performance test Positioning of the device 100 may be enabled.

The lower chamber 120 may have an insertion rod 123 protruding from a lower surface thereof, and the insertion rod 123 may be coupled to the accommodation tube 111 of the plate 110 to be elevated.

A spring 113 may be further interposed between the lower chamber 120 and the plate 110.

The lower specimen 121 may be filled in the lower chamber 120, and the lower specimen 121 may simulate the concrete wall 121 forming the outer wall of the building structure.

The lower specimen 121 may have a plurality of lower specimen through-holes 122 having a pipe shape having an empty space formed therein in a vertical direction and spaced apart from each other at regular intervals.

An outlet port 124 may be formed on the bottom surface of the lower chamber 120 to communicate the inside and the outside of the lower chamber 120.

The upper chamber 130 is coupled on the lower chamber 120, the interior is divided into two areas, the upper portion may be filled with empty space, the lower portion may be filled with the upper specimen (131, 132), the upper surface of the supply port (inlet) A port; 134 may be formed to communicate the inside and the outside of the upper chamber 130.

The upper specimens (131, 132) is a concrete pile (131) to form a retaining wall during the construction of the building structure and the grout coupled to the concrete pile (131) to flatten the surface of the concrete pile (131) (grout; 132) may be simulated.

In this case, the concrete pile 131 may be formed in a semicircular form continuous to form an embossing shape.

A plurality of upper specimen through portions 133 disposed between the plurality of lower specimen through portions 122 may be vertically spaced apart from each other at regular intervals on the upper specimens 131 and 132.

The upper chamber 130 may be provided with a hydraulic pressure gauge 135 for measuring the hydraulic pressure of the fluid and a thermo couple (not shown) for measuring the temperature of the fluid.

The upper and lower specimen through parts 122 and 133 are artificially expressed portions where the cracks are generated in the concrete wall 131 and the concrete pile 131 and the grout 132 to cause leakage.

The waterproof sheet 140 may be interposed between the upper chamber 130 and the lower chamber 120 so that one side may contact the upper specimen 130 and the other side may contact the lower specimen 120.

The waterproof sheet 140 may be formed by combining a plurality of single sheets, and ends of each single sheet may be combined to overlap with ends of adjacent single sheets.

The waterproof sheet 140 may also function as a sealing member capable of sealing the interior when the upper and lower chambers 120 and 130 are coupled.

In addition, a sealing member 115 for sealing when combined with the lower chamber 120 may be interposed below the lower specimen 121.

The controller 150 is connected to the supply port 134 to control the supply of fluid into the upper and lower chambers 120 and 130 and the overall driving of the waterproof performance test apparatus. The controller (not shown) and temperature control A chamber (not shown) and a circulation pump (not shown) may be provided.

The fluid is accommodated in the temperature control chamber, the temperature of the fluid can be adjusted.

The circulation pump may supply the fluid in the temperature control chamber to the upper and lower chambers 120 and 130 through the supply port 134.

The controller may control the temperature control chamber, the driving in the circulation pump and other waterproof performance test apparatus, and the like.

The vibrator 160 may be coupled to an upper surface of the upper chamber 130 to apply vibration to the upper and lower chambers 120 and 130.

The vibrator 160 may artificially generate vibrations that may occur in an actual building structure to generate vibrations in the upper and lower specimens 121, 131, and 132 to provide an environment such as an actual building structure.

The spring 113 interposed between the lower chamber 120 and the plate 110 may receive and buffer the vibrator 160 when the vibration occurs in the upper and lower chambers 120 and 130.

The measuring unit 170 is coupled to the plate 110 to accommodate the fluid discharged through the discharge port 124, and the measuring unit 170 is provided with a detection sensor (not shown) to measure the measuring unit 170. The amount of fluid accommodated in can be measured.

2 is a view schematically showing another embodiment of the waterproof performance test apparatus of the present invention.

Referring to FIG. 2, the waterproof performance test apparatus 200 according to the present invention includes a plate 110, a lower chamber 220 coupled to the plate 110, and an upper portion coupled to the lower chamber 220. It may include a chamber 230 and a controller 150 for supplying fluid to the upper and lower chambers 220 and 230.

In the lower chamber 220, the lower specimen 221, the waterproof layer 140, and the upper specimens 225 and 226 may be sequentially stacked and filled.

In the lower specimen 221, a plurality of lower specimen through portions 222 may be vertically spaced apart from each other at regular intervals.

A plurality of upper specimen through portions 227 may be vertically penetrated through the upper specimens 225 and 226 so as to be disposed between the plurality of lower specimen through portions 222.

The upper chamber 230 may have an empty space formed therein.

A sealing member (not shown) may be interposed in the coupling portion of the upper and lower chambers 220 and 230 in order to seal when the upper and lower chambers 220 and 230 are coupled.

In addition, a sealing member 115 for interfacing with the lower chamber 220 is interposed below the lower specimen 221.

Of the waterproof performance test apparatus of FIG. 2, the same structure and the same members as the waterproof performance test apparatus of FIG. 1 exhibit the same functions and effects, and thus description thereof will be omitted.

The waterproof performance test apparatus (100,200) of the above structure simulates the plywood section of the building structure inside the upper and lower chambers (120, 130, 220, 230) to form the actual building structure, and artificially apply vibrations that may occur in the actual building. By supplying a fluid into the upper and lower chambers 120, 130, 220, and 230, the waterproof performance of the waterproof layer 140 may be tested in the same state as the actual state.

That is, when vibrations are applied to the upper and lower specimens 121, 131, 132, 221, 225, and 226, and a phenomenon such as cracking or lifting occurs in the waterproof layer 140, the fluid introduced into the upper and lower chambers 120, 130, 220, and 230 moves through the upper and lower specimen through portions 122, 133, 222, 227. As a result, it is discharged to the outside through the discharge ports 124 and 224 of the lower chambers 120 and 220, and eventually is collected in the measuring device 170.

The waterproof ability of the waterproof layer 140 may be determined by measuring the amount of fluid gathered in the meter 170.

Therefore, the waterproof performance test apparatus 100 or 200 according to the present invention has an advantage of accurately determining the waterproof performance of the waterproof layer 140 in the actual plywood section.

1 is a view schematically showing a waterproof performance test apparatus according to an embodiment of the present invention.

2 is a view schematically showing a waterproof performance test apparatus according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100,200 ... waterproof performance tester 110 ... plate

120,220 ... lower chamber 130,230 ... upper chamber

140 ... Waterproof 150 ... Controller

160 ... vibrator 170 ... measuring instrument

Claims (20)

plate; A lower chamber coupled to the plate and having a lower specimen filled therein and vertically penetrating the lower specimen and having a plurality of lower specimen penetrating portions spaced apart from each other at regular intervals and a discharge port communicating with the inner surface at a lower surface thereof; The upper specimen is coupled to the lower chamber, the upper specimen is filled therein so as to form an empty space at an upper portion thereof, and vertically penetrates the upper specimen, and a plurality of upper specimen through portions and upper surfaces disposed between the plurality of lower specimen through portions. An upper chamber having a supply port in communication with the inside thereof; A waterproof sheet interposed between the lower chamber and the upper chamber; And And a controller connected to the supply port to supply fluid through the supply port. The method according to claim 1, The upper chamber upper surface is coupled to a vibrator, characterized in that for applying vibration to the upper chamber and the lower chamber. The method according to claim 2, Waterproofing performance test apparatus, characterized in that the spring is interposed between the plate and the lower chamber for buffering the vibration. The method according to claim 1, The plate is coupled to the measuring device is waterproof performance test apparatus, characterized in that for receiving the fluid discharged through the discharge port. The method according to claim 1, Waterproofing performance test device, characterized in that the movement wheel is coupled to the lower surface of the plate. The method according to claim 1, The upper chamber is a waterproof performance test device, characterized in that the hydraulic pressure gauge for measuring the pressure of the fluid introduced through the supply port and a thermocouple for measuring the temperature of the fluid. The method according to claim 1, The controller includes a temperature control chamber in which a temperature-controlled fluid is accommodated, a circulation pump for supplying the fluid in the temperature control chamber to the supply port, and a controller for controlling the temperature control chamber and controlling the circulation pump. Waterproof performance test device characterized in that. The method according to claim 1, Waterproofing test device, characterized in that the lower specimen is a concrete wall. The method according to claim 1, The upper specimen is waterproof performance test apparatus, characterized in that consisting of the embossed concrete pile and the grout bonded to the concrete pile. The method according to claim 1, The waterproof sheet is made of a plurality of single sheets are combined, each end of the sheet sheet waterproof performance test apparatus, characterized in that overlap with the end of the adjacent single sheet. plate; A plurality of lower specimen penetrating portions coupled to the plate and having a lower specimen, a waterproof sheet, and an upper specimen sequentially stacked therein, vertically penetrating the lower specimen and spaced apart from each other at regular intervals; A lower chamber having vertically penetrating the specimen, the plurality of upper specimen penetrating portions disposed between the plurality of lower specimen penetrating portions and a discharge port communicating with an inside thereof on a lower surface thereof; An upper chamber coupled to the lower chamber, the upper chamber having an empty space therein and having a supply port communicating with the inside on an upper surface thereof; And And a controller connected to the supply port to supply fluid into the upper and lower chambers through the supply port. The method of claim 11, The upper chamber upper surface is coupled to a vibrator, characterized in that for applying vibration to the upper chamber and the lower chamber. The method according to claim 12, Waterproofing performance test apparatus, characterized in that the spring is interposed between the plate and the lower chamber for buffering the vibration. The method of claim 11, The plate is coupled to the measuring device is waterproof performance test apparatus, characterized in that for receiving the fluid discharged through the discharge port. The method of claim 11, Waterproofing performance test device, characterized in that the movement wheel is coupled to the lower surface of the plate. The method of claim 11, The upper chamber is a waterproof performance test device, characterized in that the hydraulic pressure gauge for measuring the pressure of the fluid introduced through the supply port and a thermocouple for measuring the temperature of the fluid. The method of claim 11, The controller includes a temperature control chamber in which a temperature-controlled fluid is accommodated, a circulation pump for supplying the fluid in the temperature control chamber to the supply port, and a controller for controlling the temperature control chamber and controlling the circulation pump. Waterproof performance test device characterized in that. The method of claim 11, Waterproofing test device, characterized in that the lower specimen is a concrete wall. The method of claim 11, The upper specimen is waterproof performance test apparatus, characterized in that consisting of the embossed concrete pile and the grout bonded to the concrete pile. The method of claim 11, The waterproof sheet is made of a plurality of single sheets are combined, each end of the sheet sheet waterproof performance test apparatus, characterized in that overlap with the end of the adjacent single sheet.

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