KR20110033738A - Apparatus for testing waterproof ability by torsion action - Google Patents

Abstract

PURPOSE: An apparatus for testing waterproof ability by torsional action is provided to simulate the condition of a waterproof layer of a building like in a wall-junction area as well as general areas. CONSTITUTION: An apparatus for testing waterproof ability by torsional action comprises a chamber(110), an operating unit(150), and a controller unit(160). The chamber has an accommodating space and a crack part and applies water pressure and torsional pressure to a waterproof layer being tested. The operating unit induces torsion on the chamber. The controller unit is electrically connected to the operating unit and controls the operating unit with the power provided from outside.

Description

Torsional Waterproofing Pressure Tester {APPARATUS FOR TESTING WATERPROOF ABILITY BY TORSION ACTION}

The present invention relates to a test apparatus that can test the waterproof layer of a building structure, and more particularly, the environmental conditions in which the waterproof layer is placed, such as the actual structure for the clam wall section and the general section so as to be waterproofed outside the wall section of the building structure. It relates to a torsional waterproof pressure test apparatus that can be similarly tested.

Recently, the downtown area is densely packed with buildings, and in order to build the structure in such a downtown area, the earthquake wall construction and the basement layer are excavated during the foundation construction. After excavating the basement, the outermost wall is made like an earthen wall, which is called a plywood.

Normally, the basement of the building is waterproofed by the outer wall. The basement is waterproofed by constructing the structure and constructing the outer wall with asphalt waterproofing from the outside.

In other words, most buildings constructed of cement concrete were required for waterproof construction to block moisture or water applied from the outside, and developed waterproofing materials used for the waterproofing construction to waterproof the buildings.

 However, in the prior art, the waterproofing material used for waterproofing could not form a waterproofing layer outside the outer wall in the joining section. Therefore, in order to solve the above problems, some foreign and domestic companies have recently developed a waterproofing material that can be waterproofed outside the section of the joint and apply it to the structure.

The waterproofing layer used in the above-described conventional cladding section is different from the general external waterproofing method in that the direction of joining the waterproofing layer is different from the general waterproofing method because water pressure acts inversely.

However, as a test device for testing the torsion in the state where the water pressure acts on the waterproofing material has not been developed as described above, the waterproofing work on the building based on the theoretical technology, effectively perform the waterproofing function in the event of cracks in the building. There was a disadvantage that can not.

That is, in the general section as well as in the joining wall section, the diagonal crack occurs in the structure in which the waterproofing layer is constructed, and when there is vibration in the structure, the waterproofing layer generates the behavior at the boundary of the crack surface. However, since there is no test apparatus that satisfies such field conditions, the designer randomly selects the waterproofing material and then performs the waterproofing operation, so that the waterproofing function cannot be effectively performed.

Therefore, there is an urgent need for a test apparatus that can test the waterproofing material installed in the joining section, that is, the waterproofing material in which a torsion or the like occurs under a hydraulic pressure.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is waterproofing by torsion that can be tested similar to the environmental conditions encountered by the waterproofing layer, such as the actual structure for the clam wall section and the general section The purpose is to provide a pressure test apparatus.

The objects and advantages of the present invention will be described in more detail below, and will be further embodied by the examples. Further objects and advantages of the invention may be realized by the means indicated in the claims and combinations thereof.

In order to achieve the above object, the present invention is a test apparatus for evaluating the waterproof performance by applying water pressure and twist to the waterproof layer, which is formed so as to apply water pressure and twist to the waterproof layer which is a test body therein, and has an accommodation space therein. Provided is a torsional waterproof pressure test apparatus including a chamber provided with a crack portion, a movable portion for causing torsion in the chamber, and a controller portion electrically connected to the movable portion to control the movable portion through power supplied from the outside.

In addition, in the present invention, the chamber is provided with a first chamber is formed in each of the upper and lower sides of the inlet and the drain port so that the water supply or drainage therein, the other side is provided with a flange that is formed with a plurality of screw holes at equal intervals, and One end is connected to the first chamber, and is formed in a cylindrical shape, the same flange as the first chamber is provided at both ends, the concrete portion consisting of the outer wall and the inner wall is attached to the inside, and perpendicular to the outer wall and a portion of the inner wall The second chamber is provided with a crack portion, one end is flange-coupled with the second chamber, and the other end is characterized by consisting of a third chamber coupled to the movable portion.

In addition, in the present invention, the second chamber is composed of a second female chamber and a second male chamber centered on the crack portion, the second female chamber is configured so that the lower portion can be kept fixed by the joint portion, One end of the second water chamber is coupled to be inserted into the second female chamber, and is rotatably coupled.

In addition, in the present invention, further comprising an annular plate between the first chamber, the second chamber and the flange to which the third chamber is coupled, so that the concrete part attached to the second chamber can be firmly supported. do.

In the present invention, the outer wall of the concrete portion is bolted to the second chamber, the inner wall is bolted to the annular plate so that the concrete portion attached to the second chamber can be moved around the crack portion.

Further, in the present invention, the movable part is coupled to the hydraulic pump, the hydraulic jack is moved forward and backward by the force supplied from the hydraulic pump, the hydraulic jack being forward and backward is connected one end and the other end and the third chamber and The movable rod is connected, and the support plate is wrapped around a portion of the outer peripheral surface of the movable rod is fixedly installed.

In the present invention, the movable rod is formed with a guide groove inclined along the longitudinal direction on the outer peripheral surface, the support plate is formed with a torsion pin sliding along the guide groove by the torsion pin when the hydraulic jack back and forth Characterized in that the movable rod can be rotated.

In the present invention, the guide groove is characterized in that formed inclined about 8 °.

Therefore, torsional waterproof pressure test apparatus according to the present invention by developing a test device using the water pressure for the waterproof layer performed in the plywood section and the general section, the waterproofing method according to the behavior of the excellent material and torsional construction in the plywood section and There is an advantage available in the development of the material.

Torsional waterproof pressure test apparatus according to the present invention is to develop an experimental apparatus for the waterproof layer to apply the outer wall at the same time when the outer wall construction at the same time when the construction of the basement layer by the concrete wall of the sump wall, that is, concrete layer, waterproof layer The purpose of this study is to develop a waterproof performance tester suitable for the environmental conditions for the case where the crack occurs in the diagonal direction in the constructed structure and there is a vibration source in the structure.

The waterproof layer in the cladding section is considered to be very detrimental to the waterproof layer because the hydraulic pressure acts on the joint surface direction. This reason is because the water pressure acts on the bonding surface side, so that the bonding surface can be lifted, and even at the connection between the sheets of waterproof paper, the water pressure acts on the bonding surface and is considered to be detrimental to the waterproof layer.

As described above, test specimens that can be tested by applying water pressure to the waterproof layer applied to the plywood section should be constructed with a waterproof layer on the earthen wall, and the base surface will be flattened using mortar, etc. The concrete is then covered with a waterproof layer. However, hydraulic pressure must be applied in the direction of the wall of concrete, so the hydraulic pressure must be applied inside the pipe-type chamber.

The chamber has a high temperature by using the thermoelectric phenomena to measure the pressure of the fluid, and the thermocouple (measure the temperature of the fluid). Apparatus for measuring the temperature of the furnace.) Is installed. The device capable of applying hydraulic pressure is applied by air compressor about 5kg / cm2.

Hereinafter will be described in more detail with reference to the preferred embodiments and the accompanying drawings, the configuration and the effect of the waterproof pressure test apparatus by the twist according to the present invention.

1 is a cross-sectional view schematically showing the waterproof pressure test apparatus according to the present invention, Figure 2 is a left side view of Figure 1, Figure 3 is a plan view of Figure 1, Figure 4 is "A" of Figure 1 It is a partial enlarged view.

As shown in the figure, the torsional waterproof pressure test apparatus according to the present invention includes a chamber 110, a movable unit 150, and a controller unit 160.

First, the torsional waterproof pressure test apparatus according to the present invention is installed on the plate-shaped frame 170 is firmly supported.

The chamber 110 is fixed to the upper part of the frame 170 by a stud bolt, and is formed to apply pressure to the waterproof layer B, which is a test body therein. Comprised of the chamber (120, 130, 140), the receiving space is formed therein, the bolt (S) is coupled to the flange (120a, 130a, 140a) in a coupled manner.

The first chamber 120 serves to supply or drain water into the chamber 110 to serve as a hydraulic passage, and the inlet 122 and the drain 124 are respectively formed at one side of the upper and lower sides, and the other side thereof. The flange 120a extending in the circumferential direction and the screw hole 120b are formed at equal intervals along the flange 120a.

The second chamber 130 is formed to test the torsion of the waterproof layer (B), is formed in a cylindrical shape, a flange having a plurality of screw holes (130b), like the first chamber 120 at each end, respectively 130a is provided.

One end of the second chamber 130 is coupled to the first chamber 120, and a concrete part 132 having a waterproof layer B installed therein is attached thereto, and the concrete part 132 is illustrated in FIG. 1. As shown, the outer wall 132a and the inner wall 132b are formed. In addition, a waterproof layer (B) is installed between the outer wall (132a) and the inner wall (132b), the flange (120a, 130a) and the second chamber to which the first chamber 120 and the second chamber 130 is coupled; The 130 and the third chamber 140, which will be described later, are coupled to the flanges 130a and 140a to be coupled to each other.

In addition, the concrete part 132 attached to the second chamber 130 has a crack 134 in the middle of both the outer wall 132a and the inner wall 132b, and the concrete part around the crack 134. 132 has a separated shape. This means that the crack occurred in the structure of the sump section in the real structure, since the waterproof layer (B) is subjected to pressure during the actual test and at the same time behaves as a boundary of the crack 134.

On the other hand, the second chamber 130 surrounding the concrete portion 132 also behaves together so that the waterproof layer (B) can be torsional movement around the crack 134. To this end, the second chamber 130 is separated into a second female chamber 131 and a second water chamber 133 at the boundary of the junction 136 to have an overlapping shape.

That is, as shown in the figure, the second chamber 130 is composed of a second female chamber 131 and a second male chamber 133, the second chamber 130 is fixed by the joint 136 The second water chamber 133 is coupled to be inserted into the second female chamber 131 so that one end is inserted into the second female chamber 131 so that the second water chamber 133 can be rotated by the movable unit 150 to be described later. .

In addition, in order to behave around the crack 134, the concrete part 132 must be integrated with the second chamber 130, so that the outer wall 132a, the concrete part 132 is the second chamber. To be coupled by a stud bolt (S) is installed on the 130, the inner wall (132b) concrete portion 132 is provided with an annular plate between the first chamber 120 and the second chamber 130 and the annular It is configured to be coupled to the plate using the anchor bolt (S).

The third chamber 140 is one end is screwed with the other flange (130a) of the second chamber 130, while maintaining the sealed state and the other end is coupled to the movable portion 150 to be described later waterproof layer (B) Play a role in).

Movable part 150 is one end is connected to the third chamber 140 and the torsion occurs by pressing the chamber 110 through the hydraulic pump 152, largely, the hydraulic pump 152 and the hydraulic pressure The hydraulic jack 154 coupled to the pump 152 and forward and backward by the force supplied from the hydraulic pump 152, one end is connected to the forward and backward hydraulic jack 154 and the other end is the third chamber 140 and The movable rod 156 is connected to each other, and a support plate 158 that surrounds a portion of the outer circumferential surface of the movable rod 156 and is fixed to the frame 170.

At this time, the movable rod 156 is a guide groove 156a is formed to be inclined along the longitudinal direction, as shown in Figure 4, specifically, the guide groove 156a is formed to be inclined to have an inclination angle of about 8 ° The support plate 158 is formed to surround the guide groove 156a of the movable rod 156, and has a torsion pin 158a coupled to the guide groove 156a on an inner circumferential surface thereof so as to protrude. When the movable rod 156 is advanced back and forth to the hydraulic jack 154 to be moved forward and backward, the torsional force is provided to the third chamber 140 by the guide groove 156a and the torsion pin 158a.

The controller 160 controls the hydraulic pump 152 and is installed at one side of the chamber 110 and the movable part 150, and is electrically connected to the hydraulic pump 152 to supply the hydraulic pressure through power supplied from the outside. The pump 152 is controlled to provide a torsion to the waterproof layer B of the test chain.

Looking at the operation method of the waterproof pressure test apparatus by the torsion according to the present invention having such a configuration as follows.

First, power is supplied to the controller 160 to operate the hydraulic pump 152. Accordingly, the hydraulic jack 154 is advanced in the direction in which the chamber 110 is installed.

Then, the movable rod 156 connected to the hydraulic jack 154 is advanced in the direction of the chamber 110 by the advancement of the hydraulic jack 1543, at this time, the support plate 158 formed to surround the movable rod 156 The movable rod 156 is rotated by this. Specifically, the movable rod 156 is advanced by the hydraulic jack 154 in a state where the torsion pin 158a of the support plate 158 is inserted into the guide groove 156a formed to be inclined on the surface of the movable rod 156. When the movable rod 156 is rotated by the torsion pin 158a.

Thereafter, as the movable rod 156 rotates, the third chamber 140 coupled to the movable rod 156 and one side of the movable rod 156 rotates, and the second coupled to the third chamber 140 and the flanges 140a and 130a. As the second water chamber 133 of the chamber 130 rotates, the crack 134 behaves.

Therefore, the torsional waterproof pressure test apparatus according to the present invention is able to test the torsion that can occur in the hydraulic pressure and the actual environment for the waterproofing layer (B) to be able to develop excellent materials and waterproofing materials that can withstand torsion. .

So far, the present invention has been described in detail with reference to embodiments of the present invention, but the scope of the present invention is not limited thereto, and it will be included to substantially equivalent ranges with the embodiments of the present invention.

In addition, as shown in the above description, the technique of the waterproof pressure test apparatus by the torsion according to the present invention is very simple, but the technical advantages of the present invention will be very clear in that the technical effect is very large.

1 is a cross-sectional view schematically showing an apparatus for testing waterproof pressure by torsion according to the present invention;

2 is a left side view of FIG. 1;

3 is a plan view of FIG. 1; And

4 is an enlarged view of a portion “A” of FIG. 1.

<Code Description of Main Parts of Drawing>

110: chamber 120: first chamber

120a: flange 120b: screw hole

122: inlet 124: drain

130: second chamber 130a: flange

130b: screw hole 131: second arm chamber

132: concrete part 132a: outer wall

132b: inner wall 133: second water chamber

134: crack 136: junction

140: third chamber 140a: flange

150: movable portion 152: hydraulic pump

154: hydraulic jack 156: movable rod

156a: guide groove 158: support plate

158a: torsion pin 160: controller

170: frame B: waterproof layer

Claims (8)

In the test apparatus for evaluating the waterproof performance by applying water pressure and twist to the waterproof layer, A chamber formed to apply water pressure and torsion to the waterproof layer, which is a test body therein, and having a receiving space therein and having a crack portion; A movable part for causing torsion in the chamber; The torsion waterproof pressure test apparatus comprising a controller unit electrically connected to the movable unit and controlling the movable unit through power supplied from the outside. The method of claim 1, wherein the chamber A first chamber having inlets and drains formed at upper and lower sides of one side to supply or drain water therein, and flanges having a plurality of screw holes formed at equal intervals on the other side; One end is connected to the first chamber, and is formed in a cylindrical shape, the same flange as the first chamber is provided at both ends, the concrete portion consisting of the outer wall and the inner wall is attached to the inside, the outer wall and the inner wall portion A second chamber in which a crack is vertically provided; One end of the flange is coupled to the second chamber, the other end is a waterproof pressure test apparatus according to the torsion, characterized in that consisting of the third chamber coupled to the movable portion. The method according to claim 2, The second chamber is composed of a second female chamber and a second male chamber around the crack, The second female chamber is configured so that the lower portion can be fixed by the joint portion, the second male chamber is coupled so that one end is inserted into the second female chamber, it is rotatably waterproof, characterized in that coupled Pressure testing device. The method according to claim 2, further comprising an annular plate between the first chamber, the second chamber and the flange to which the third chamber is coupled, so as to securely support the concrete portion attached to the second chamber. Torsional waterproof pressure test apparatus, characterized in that. The torsional method of claim 4, wherein the outer wall of the concrete part is bolted to the second chamber and the inner wall is bolted to the annular plate so that the concrete part attached to the second chamber can be moved around the crack part. Waterproof pressure tester The method according to claim 1, wherein the movable part A hydraulic pump; A hydraulic jack coupled with the hydraulic pump and moved back and forth by a force supplied from the hydraulic pump;  A movable rod having one end connected to the front and rear hydraulic jacks and the other end connected to the third chamber; A torsional waterproof pressure test apparatus, characterized in that the support plate is wrapped around the outer peripheral surface portion of the movable rod made of a fixed installation. According to claim 6, The movable rod is formed with a guide groove inclined in the longitudinal direction on the outer peripheral surface, the support plate is formed with a torsion pin sliding along the guide groove is moved by the torsion pin when the hydraulic jack back and forth Torsional waterproof pressure test apparatus, characterized in that the rod is rotated. 8. The torsion waterproof pressure test apparatus according to claim 7, wherein the guide groove is formed to be inclined at about 8 degrees.

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