KR102516115B1 - Stainless steel panel forming a pattern with a sloped band and its concrete lining construction method - Google Patents

Abstract

The present invention relates to a stainless panel forming a pattern with an inclined surface band and a concrete lining construction method thereof. The stainless panel forming the pattern with the inclined surface band of the present invention is formed flat so as to be as close to a concrete as possible and not to greatly restrict flow of a water, while increasing rigidity and not causing bending. The stainless panel forming the pattern with the inclined surface band according to an embodiment of the present invention comprises a rectangular protruding pattern, which protrudes in a rectangular shape as the inclined surface band, protrudes in plurality along a panel length, and forms the inclined surface band having a height of 1 to 3 mm and a width of 1 to 3 cm on a cross-sectional basis at a corner forming a boundary with the panel surface. Therefore, a difference between the installation surface and flatness of the panel can be minimized.

Description

Stainless steel panel forming a pattern with a sloped band and its concrete lining construction method}

The present invention relates to a stainless steel panel and a method for constructing a concrete lining thereof, and more particularly, to a stainless steel panel formed with a pattern using an inclined surface band, and a method for constructing a concrete lining for a water tank using the stainless steel panel.

Hereinafter, the background technology of the invention will be described with reference to FIGS. 1 to 3 illustrating the accompanying prior art.

1 is a view showing an example of a conventional stainless steel panel for lining a water tank.

Referring to FIG. 1, a conventional concrete water tank panel 1 is used for forming a waterproof sheet or baffle wall of a concrete wall, and has a straight pattern protruding in a right angle while protruding to form a continuous length in the height direction ( 2) can be confirmed.

Here, the straight pattern (2) can prevent the sloshing of water and increase the rigidity of the panel to partially disperse the impact applied to the panel, but on the contrary, due to the right angle structure of the straight pattern, it hinders the flow of water and does not adhere to the concrete There is a problem that the lifting phenomenon occurs without it.

2 is a view showing another example of a conventional stainless steel panel for lining a water tank disclosed in Korean Patent Registration No. 10-1521774 'Water Tank with Earthquake Resistant Device', wherein the top/bottom and left/right surfaces are formed by compression molding. It is a view showing a stainless panel used in another conventional concrete water tank having a shape of a polygonal pattern (3) with a convex center, all symmetrical.

Referring to FIG. 2, the polygonal pattern (3) in which the upper/lower, left/right sides are symmetrical and the central portion is convex gives congestion to the water flow due to the polygonal surface, and especially when used on a bottom plate, water drainage is bad. There is a problem with residual water in the back.

3 is a view showing an example of a conventional stainless steel panel water tank lining disclosed in Korean Patent Registration No. 10-1850398 'Stainless steel wall panel water tank for concrete wall and wall panel water tank construction method'.

Referring to FIG. 3, in the conventional structure of lining a stainless steel panel on a concrete wall, after attaching the stainless steel panel 5 to the concrete wall 4, the stainless steel panel 5 is fastened in succession along the height of the anchor bolt 6. is fixed to the wall, and the stainless panel 5 is connected to cover the anchor bolt 6 of the other stainless panel 8 by forming a triangular bent portion 7 on one side.

At this time, in order to fasten the anchor bolts (6), the stainless steel panel and the concrete wall (4) must be drilled together to insert the anchor bolts (6), and the nuts inserted in the anchor bolts (6) must be tightened one by one, which is inconvenient in construction. . In addition, the triangular bent part 7 for hiding the anchor bolt 6 hinders the flow of water in the water tank, and since there is no pattern on the surface of the panel, there is a problem in that the rigidity of the panel decreases and bending occurs.

The above problems also appear in the attachment of building exterior materials. Although not shown in the drawing, when attaching stainless steel plates to 'c'-shaped steel fixed in a lattice shape to concrete in order to finish them as exterior materials for large buildings, bending occurs due to the privately funded plates, and There were aesthetic problems such as crying when looking at it.

The present invention is proposed to solve all the problems discussed above with reference to FIGS. 1 to 3, and in a concrete water tank, by lining with a stainless steel panel forming a pattern with a slope band, the water flow is smooth and the lifting phenomenon of the panel The purpose is to prevent water retention, to form a water tank with high rigidity, no bending, and a beautiful appearance.

In order to solve the above problems, a stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention protrudes a rectangular pattern with an inclined surface band, but protrudes in plurality along the length of the panel, forming a boundary with the panel surface. The pattern can be formed with an inclined band to minimize the installation surface and flatness of the panel, including a square protruding pattern forming an inclined band having a height of 1 to 3 mm and a width of 1 to 3 cm on a cross-sectional basis at the corner.

In addition, the stainless panel protrudes convexly with a continuous length along the longitudinal direction of the panel on both sides of the square protruding pattern, and has a height of 1 to 3 cm based on a cross section at a corner forming a boundary with the panel surface, and a width of 1 to 3 cm. An inclined plane band with a thickness of 3 cm is formed so that the flatness with the panel installation surface is greater than the flatness with the panel installation surface of the square projecting pattern, and a straight-line convex pattern is formed to form a left-right balance with the square projecting pattern. patterns can be formed.

On the other hand, as a concrete lining construction method of the stainless panel, anchor insertion grooves are formed in the concrete at regular intervals according to the shape of the stainless panel, and after placing a base plate along the anchor insertion groove, fastened to the anchor insertion groove A pattern can be formed with an inclined surface band, characterized in that one of a set anchor, a chemical anchor, and a strong anchor is used or combined to fix the base plate, and welding a stainless panel to the fixed base plate for lining.

Here, in the construction of the chemical anchor, the anchor insertion groove is formed into a near-narrow beam having a wider diameter toward the outer direction, and after injecting a chemical liquid mixed with epoxy and hardener into the anchor insertion groove, the base plate is fixed. After the anchor bolt is passed through the base plate and inserted into the anchor insertion groove, the chemical solution can be hardened to construct the anchor bolt.

In addition, the anchor bolt has a '∧'-shaped wing pin formed at the end, so that the wing pin can act as a hook in the anchor insertion groove when inserted into the anchor insertion groove.

In addition, the concrete lining construction method of the stainless panel for forming a pattern with the inclined surface band further includes installing a sensor box on the panel surface, wherein the sensor box is formed in a closed form, and two opposing A box body forming an inlet and an outlet of water on the surface; a partition plate dividing the box body into a space in which water flows through the inlet and outlet and a space in which water does not flow; a water temperature sensor fixed to the partition plate to measure the water temperature of the water flowing inside the box body; A water quality sensor fixed to the partition plate to measure the water quality of the water flowing inside the box body and connected to the water temperature sensor and the water quality sensor, connected to an external ICT integrated computer network through a space in which the water of the box body does not flow It may be configured to include a communication means.

The stainless steel panel forming the pattern with the inclined band according to the embodiment of the present invention forms a left-right balance between the rectangular square protruding pattern and the straight-line convex pattern panel in the longitudinal direction, so that the panel does not warp.

In addition, it has high rigidity and low flatness of the pattern, so there is no lifting from the concrete, the flow of water is not greatly restricted, and it can provide a beautiful appearance, so it is good to use as a finishing material for the interior and exterior of concrete structures.

In addition, the concrete lining construction method of a stainless steel panel forming a pattern with an inclined surface band according to an embodiment of the present invention can significantly reduce construction time by using a combination of chemical anchors and strong anchors, compared to using only set anchors. In the case of a chemical anchor, it has the advantage of forming a very solid clamping force with the anchor insertion groove of the close-knit source light and the 'V'-shaped wing pin.

On the other hand, the method of constructing a concrete lining of a stainless steel panel forming a pattern with a slope band according to an embodiment of the present invention is half compared to epoxy waterproofing when applied to a water tank or other fluid storage tank for water, or to interior and exterior materials or concrete of a building. It has the effect of lasting a permanent life.

In addition, the stainless steel panel and its concrete lining construction method for forming a pattern with an inclined surface band according to an embodiment of the present invention are not limited to the effects described above, and may further include all effects predictable from the specification and drawings. can

1 is a view showing an example of a conventional stainless steel panel for lining a water tank.
2 is a view showing another example of a conventional stainless steel panel for lining a water tank.
3 is a view showing an example of a water tank lining of a conventional stainless panel.
4 is a view showing a stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention.
5 is a view showing in detail the inclined surface band of the square protruding pattern through the cross section of the stainless panel of FIG.
Figure 6 is a view showing in detail the inclined surface band of the straight convex pattern through the cross section of the stainless steel panel of FIG.
7 is a view illustrating a state of a base plate attached to concrete in a grid form using a set anchor, a chemical anchor, and a strong anchor.
8 is a view illustrating that a stainless panel forming a pattern with a lined inclined surface band using a set anchor, a chemical anchor, and a strong anchor is installed on the base plate of FIG. 7.
9 is a cross-sectional view illustrating an installation state of the stainless steel panel of FIG. 8 .
10 is a view illustrating that a curved panel is formed by bending a stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention.
FIG. 11 is a diagram illustrating utilization of the curved panel of FIG. 10 .
12 is an exemplary installation view of a sensor box further included in a stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention.

Hereinafter, the description of the present invention with reference to the drawings is not limited to specific embodiments, and various transformations may be applied and various embodiments may be applied. In addition, the content described below should be understood to include all conversions, equivalents, or substitutes included in the spirit and scope of the present invention.

In the following description, terms such as first and second are terms used to describe various components, and are not limited in meaning per se, and are used only for the purpose of distinguishing one component from another.

Like reference numbers used throughout this specification indicate like elements.

Singular expressions used in the present invention include plural expressions unless the context clearly dictates otherwise. In addition, terms such as "include", "include" or "have" described below are intended to designate that features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist. should be construed, and understood not to preclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

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

A stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention is a panel that can be lined in concrete.

4 is a view showing a stainless steel panel forming a pattern with an inclined surface band according to an embodiment of the present invention, and FIG. 5 is a view showing in detail the inclined surface band of a square protruding pattern through a cross section of the stainless steel panel of FIG. 4, FIG. is a view showing in detail the inclined plane band of the straight convex pattern through the cross section of the stainless steel panel of FIG.

4 to 6, the stainless panel 10 according to the embodiment of the present invention may include a square protruding pattern 11 and a straight convex pattern 12 that may be formed by compression press. .

Specifically, the square protruding pattern 11 protrudes in a rectangular shape, and may protrude in plurality along the length of the panel. At this time, the rectangular shape is preferably a rectangular shape that forms a wider width on both sides than in the vertical direction as shown in the drawing, but is not necessarily limited, and in some cases, the vertical width may be formed larger than the width on both sides. there is.

In addition, the rectangular protruding pattern 11 may form an inclined surface band 11a at a corner forming a boundary with the panel surface of the stainless steel panel 10 . The inclined surface band 11a may be formed continuously along the edge, smooth the boundary between the square protruding pattern 11 and the panel 10, and the panel 10 as if there is a square protruding pattern 11 or not. It can be made as flat as possible.

At this time, the boundary surface between the inclined surface band 11a and the square protruding pattern 11 or panel 10 is represented as angular in the drawing, but may actually be curved to form a gentle, and in some cases chamfered to form an incline. You may.

The straight convex pattern 12 may convexly protrude from both sides of the square protruding pattern 11 in a continuous length along the panel longitudinal direction. The convex straight convex pattern 12 allows condensation and leachate between the panel and the concrete to flow downward and drains them to the outside, and together with the square protruding pattern 11, prevents the panel from bending and has rigidity. there is.

Here, when the straight convex pattern 12 is formed on both sides of the square protruding pattern 11, each straight convex pattern 12 is between the square protruding pattern 11 so that the distance to the square protruding pattern 11 is the same. It is desirable to be symmetrical, but not necessarily limited, and the distance from the square protruding pattern 11 may be provided differently on both sides.

In addition, the straight-line convex pattern 12 may form an inclined surface band 12a at a corner forming a boundary with the panel surface of the stainless steel panel 10 . Here, the inclined surface band 12a may be continuously formed along the edge of the straight convex pattern 12 in the same way as the inclined surface band of the square protruding pattern 11, and the gap between the straight convex pattern 12 and the panel 10 boundaries can be softened.

At this time, the boundary surface between the inclined surface band 12a and the straight convex pattern 12 or the panel 10 is represented as angular in the drawing, but may actually be smooth by forming a curve, and in some cases may be chamfered to form an incline. You may.

On the other hand, the inclined surface band 11a of the square protruding pattern 11 may have a height (H) of 1 to 3 mm and a width (W) of 1 to 3 cm based on a cross section with the protruding part as the height, and may be a straight convex The inclined surface band 12a of the pattern 12 may have a height H of 1 to 3 cm and a width W of 1 to 3 cm based on a cross section with the protruding portion as the height.

This is because the square protruding pattern 11, which has little difference in flatness with the panel installation surface, and the straight convex pattern 12, which has a large difference in flatness, are balanced left and right, so that a panel with little warping occurs even compared to a private board. It can be.

In addition, while increasing the rigidity and improving the adhesion, the water flow is not greatly restricted while adhering to the concrete (C) as much as possible, and it can provide a beautiful appearance, but the height and width of the inclined bands 11a and 12a are preferred examples It is not necessarily limited to, and may deviate from the above range in some cases.

The stainless steel panel 10 configured as described above can be lined with concrete (C) to perform waterproofing, and can be lined with concrete to a water tank constituting a wall, ceiling or floor to be used as a water storage tank.

At this time, the stainless panel 10 may be installed vertically so that the longitudinal direction achieves a height, but this is only a preferred example and may be installed horizontally in some cases.

That is, when installed vertically, the straight convex pattern 12 may face up/down, and when installed horizontally, the straight convex pattern 12 may face left/right. When the straight convex pattern (12) is installed vertically so that it is up/down, the condensation water generated between the concrete (C) and the stainless steel panel (10) is directed downward through the hollowed back side of the straight convex pattern (12). It can also be guided and released.

In addition, the stainless steel panel 10 may be installed on the floor, but when installed on the floor, it is relatively unbalanced compared to the wall or ceiling, so the straight convex pattern 12 may not be formed. When the stainless panel 10 is installed on the bottom surface, the square protruding pattern 11 can also act as a non-slip.

Meanwhile, the stainless panel 10 may further include a sensor box 150 for measuring water temperature or water quality, and a detailed description thereof will be described later with reference to FIG. 12 .

7 is a view illustrating the state of a base plate attached to concrete in a lattice form using set anchors, chemical anchors, and strong anchors, and FIG. 8 is a combination of set anchors, chemical anchors, and strong anchors on the base plate of FIG. It is a view illustrating that a stainless steel panel forming a pattern with a lined inclined surface band is installed, and FIG. 9 is a cross-sectional view illustrating an installation state of the stainless steel panel of FIG. 8 .

7 to 9, in the concrete lining construction method of the stainless steel panel 100, first, after installing the base plate 110 made of a material that can be welded to the concrete, the lining can be welded to the base plate 110. there is.

Here, the concrete may be a wall part as a preferred example, but is not necessarily limited, and may be a ceiling part or a floor part. However, for ease of understanding, the explanation will be limited to the wall part. That is, in the following description, it is limited to the wall part, but it should be understood that the meaning is concrete.

More specifically, for the installation of the base plate 110, first, the anchor insertion groove 100 may be formed on the wall. The anchor insertion grooves 100 may be formed at regular intervals according to the shape of the stainless steel panel 10 . For example, when the stainless steel panel 10 has a rectangular shape, the anchor insertion grooves 100 may also be arranged along the rectangular range while forming regular intervals.

The base plate 110 may be disposed along the anchor insertion groove 100. That is, the base plate 110 may be disposed along the shape of the stainless panel 10 in a relationship to be welded to the stainless panel 10 . Here, the base plate 110 may be fixed using an anchor fastened to the anchor insertion groove 100, wherein only one of the set anchor 120, the chemical anchor 130, and the strong anchor 140 is used. It can be used or used in combination.

That is, only set anchors may be used in one base plate 110, and as shown in the drawing, set anchors 120, chemical anchors 130, and strong anchors 140 may be mixed, etc. The base plate 110 may be fixed using a single anchor or a combination of anchors.

As described above, the base plate 110 fixed to the concrete using the anchors may be lined by welding the stainless panel 10. Here, when trying to install the stainless panel 10 in various arrangements, as shown in the drawing, after installing the base plate 110 in a lattice form, etc., welding the stainless panel 10 for each lattice leads to longitudinal and transverse Multiple array installations in orientation may be possible.

At this time, welding of the stainless panel 10 may use various welding methods such as spot welding or argon arc welding.

Meanwhile, the chemical anchor 130 used in the present invention may be formed to have stronger fastening force than the conventional chemical anchor 130.

To this end, when constructing the chemical anchor, the anchor insertion groove 100 may be formed as a close-knit beam having a wider diameter toward the outer direction. That is, the anchor insertion groove 100 may form a shape that gradually expands as it has a depth at the entrance of the groove.

At this time, the anchor insertion groove 100 can be formed by first drilling the groove with a drill in a straight line, and then gradually expanding the part having an extended radius by rotating it 360 ° by covering the drill with an expandable drill cap, but this is only an example Other methods may also be used.

As described above, when the anchor insertion groove 100 of the near ore light is formed, a chemical liquid mixed with an epoxy and a hardener can be injected into the anchor insertion groove 100. The anchor bolt 132 to fix the base plate 110 used for the chemical anchor can be inserted into the anchor insertion groove 100 by penetrating the base plate 110, and curing the chemical liquid in the inserted state It can be built to do so.

'자형 날개핀(133)이 형성될 수도 있다. 날개핀(133)은 앙카 삽입홈(100)의 내측 표면 방향으로 경사지도록 형성되어 날개핀(133)이 앙카 삽입홈(100)에서 이탈하려고 할 경우에 앙카 삽입홈(100)의 표면에 걸림 작용을 하여 이탈 가능성을 낮추면서도 응고되는 케미칼 액과 결속되도록 작용되어 앙카 삽입홈(100)에 대한 앙카 볼트(132)의 체결력을 향상시킬 수 있다. 특히, 앙카 삽입홈(100)이 근협원광의 형태이기 때문에 더더욱 걸림 작용되어 이탈 가능성은 현저히 낮아진다.On the other hand, the anchor bolt 132 used for the chemical anchor is 2 to 3 cm 'joined by welding to the end.

A 'shaped wing fin 133 may be formed. The wing pin 133 is formed to be inclined toward the inner surface of the anchor insertion groove 100, and when the wing fin 133 tries to escape from the anchor insertion groove 100, it acts as a catch on the surface of the anchor insertion groove 100. By doing so, the fastening force of the anchor bolt 132 with respect to the anchor insertion groove 100 can be improved by acting to bind the solidified chemical liquid while lowering the possibility of separation. In particular, since the anchor insertion groove 100 is in the form of a close-knit light, the possibility of separation due to the jamming action is significantly lowered.

The chemical anchor as described above can correct the position of the anchor bolt 132 before the chemical liquid is hardened, and the shape of the anchor insertion groove 100 of the close-knit light and the wing pin 133 of the anchor bolt 132 In the process of forming the anchor insertion groove 100, it is possible to prevent the chemical liquid mass hardened by the remaining concrete dust from physically leaving the anchor insertion groove 100, so that the base plate 110 and the stainless steel panel 10 ) can increase the fixation force.

On the other hand, the strong anchor can be used when the concrete wall is bent or uneven, or when the stainless steel panel 10 is installed on the floor and has a different height from the set anchor or chemical anchor to improve water drainage. 110 is not installed along the curved or uneven portion of the wall portion, but maintains flatness at all times so that the stainless panel 10 can maintain flatness.

10 is a view illustrating that a curved panel is formed by bending a stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention, and FIG. 11 is a view illustrating utilization of the curved panel of FIG. 10 .

10 and 11, the stainless panel 10 configured to be lined in concrete as described above is formed by bending the panel using a bending machine due to the square protruding pattern 11 and the straight convex pattern 12 to form a curved panel 10a. may be formed, and the curved panel 10a may be used for an outer wall of a cylindrical water tank or a right angle corner of a water tank lining. This curved panel is installed at a right angle in the water tank and can induce the flow of water naturally so that vortex or reverse flow does not occur.

In addition, the present invention is to install a sensor box inside the water tank to check the condition of fresh water inside the concrete water tank lined with a stainless steel panel patterned with a sloped band, and automatically detect residual chlorine, water level, water quality, water temperature, etc. It can be measured and can be configured as an ICT integrated type that can be managed in an ICT integrated computer network. This will be described with reference to FIG. 12 .

12 is an exemplary installation view of a sensor box further included in a stainless panel forming a pattern with an inclined surface band according to an embodiment of the present invention.

Referring to FIG. 12, the stainless panel 10 of the present invention may further include a sensor box 150 installed on the panel surface to be configured as the above-described ICT integrated type, and the sensor box 150 is a box body. 151, a partition plate 152, a water temperature sensor 153, a water quality sensor 154, and a communication unit 155.

Specifically, the box body 151 forms the exterior of the sensor box 150, and is installed on the panel surface, preferably on the square protruding pattern 11 or the straight convex pattern 12 convexly protruding from the panel surface. can be installed In addition, the box body 151 may be formed in the shape of a closed hexahedron, but this is only a preferred example and is not limited thereto, and may be formed in various shapes other than the hexahedron. At this time, the box body 151 may form an inlet 151a and an outlet 151b of water on two opposing surfaces.

That is, the sensor box 150 is further protruded and installed in the direction in which water flows from the rectangular protruding pattern 11 or the straight convex pattern 12 of the stainless steel panel 10 used in the water tank, etc. At this time, the box body 151 ) has an inlet 151a and an outlet 151b so that the water flowing in the water tank can pass through the box body 151 in one direction without flowing out to another place.

The partition plate 152 may divide the box body 151 into a space 152a where water flows through the inlet 151a and the outlet 151b and a space 152b where water does not flow. Here, the space 152a in which water flows is a space where sensors, which will be described later, sense and acquire information of flowing water, and the space 152b in which water does not flow is communication for sensors that have acquired information about water to communicate with the outside. This is a space where the means 155 is provided.

The partition plate 152 may divide a position where the inlet 151a and the outlet 151b are formed and a position where they are not formed in the box body 151 to provide the above-described two spaces 152a and 152b. For example, when the inlet 151a and the outlet 151b are formed at the bottom of the box body 151, the partition plate 152 is installed across the center, and the lower side of the box body 151 is a space 152a in which water flows. ), and the upper side of the box body 151 may form a space 152b in which water does not flow.

The water temperature sensor 153 is fixed to the partition plate 152 and may be configured to measure the water temperature of water flowing inside the box body 151, and the water quality sensor 154 is fixed to the partition plate 152 to measure the water temperature of the box body ( 151) It may be configured to measure the quality of the water flowing therein. Here, the water quality may be residual chlorine, turbidity, or pH.

The communication means 155 is connected to the water temperature sensor 153 and the water quality sensor 154 and an external ICT integrated computer network (not shown) to transmit the water temperature and water quality measured by the water temperature sensor 153 and the water quality sensor 154 to the ICT. It can be transmitted through the integrated computer network. In the ICT integrated computer network, it is possible to remotely and easily manage the water in the reservoir by receiving these water temperature and water quality sensors.

At this time, the communication means 155 can be either a wired communication means or a wireless communication means, and can be connected to the ICT integrated computer network through a space in which the water of the box body 151 does not flow. That is, when the communication means 155 is a wired communication means, it is connected from a part of the water temperature sensor 153 and the water quality sensor 154 exposed to the space 152b in which water does not flow, and the rear surface of the stainless panel 10 It penetrates and is connected to the ICT integrated computer network, and in the case of a wireless communication means, it may be embedded in a space (152b) in which water does not flow.

This sensor box 150 directly measures the water stored in the reservoir and does not require a separate pump or branch pipe to obtain sampling water to be supplied in comparison to the conventional water quality measuring device installed outside, and also the sensor box 150 Since is located inside the water tank, it has the effect of ensuring the sampling of the sample water. Furthermore, there is an advantage in that the communication means 155 and the like do not come into contact with water and are not exposed to the surface, so that a cleaner wall surface can be formed.

In addition, the sensor box 150 does not require a pump or branch pipe, but may be measured from the outside by leaking sample water to the outside by having a small pump, etc. It is natural that it is not limited and can be installed at various heights, and in some cases, a plurality may be installed along the height direction.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art can implement them in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, the embodiments described above are illustrative in all respects and are not restrictive.

10: stainless steel panel
10a: curved panel
11 : Square protrusion pattern
11a: slope band
12 : date convex pattern
12a: slope band
100: anchor insertion groove
110: base plate
120 : set anchor
130 : chemical anchor
131: chemical liquid
132: anchor bolt
133: wing pin
140 : Strong Anchor
150: sensor box
151: box body
151a: inlet
151b: outlet
152: partition plate
152a: space where water flows
152b: space where water does not flow
153: water temperature sensor
154: water quality sensor
155 means of communication
C: concrete

Claims (6)

delete delete A rectangular pattern is protruded as an inclined band, and multiple protrudes along the length of the panel, forming a inclined band with a height of 1 to 3 mm and a width of 1 to 3 cm based on the cross section at the edge forming the boundary with the panel surface. It protrudes convexly with a continuous length along the length of the panel from both sides of the protruding pattern and the square protruding pattern, and has a height of 1 to 3 cm and a width of 1 to 3 cm based on the cross section at the edge forming the boundary with the panel surface, and an inclined surface band. It includes a straight-line convex pattern forming, the square protruding pattern minimizes a height difference from the panel installation surface, and the height difference between the straight-line convex pattern and the panel installation surface is As a concrete lining construction method of a stainless panel in which the square protruding pattern and the date convex pattern form a left and right balance by making the height difference greater than the difference,
Anchor insertion grooves are formed in the concrete at regular intervals according to the shape of the stainless steel panel,
After placing the base plate along the anchor insertion groove, fix the base plate using a chemical anchor fastened to the anchor insertion groove,
A stainless steel panel is welded and lined on the fixed base plate,
The construction of the chemical anchor,
The anchor insertion groove is formed with a close-knit circle beam having a wider diameter toward the outer direction, and after injecting a chemical solution in which an epoxy and a hardener are mixed into the anchor insertion groove, an anchor bolt to fix the base plate is passed through the base plate. After inserting into the anchor insertion groove, harden the chemical solution and construct,
The anchor bolt,
A '∧'-shaped wing pin is formed at the end, so that when inserted into the anchor insertion groove, the wing pin acts as a hook in the anchor insertion groove. .
delete delete According to claim 3,
Further comprising installing a sensor box on the panel surface,
The sensor box,
Doedoe formed in a closed form, the box body forming an inlet and an outlet of water on two opposing surfaces;
a partition plate dividing the box body into a space in which water flows through the inlet and outlet and a space in which water does not flow;
a water temperature sensor fixed to the partition plate to measure the water temperature of the water flowing inside the box body;
A water quality sensor fixed to the partition plate and measuring the quality of water flowing inside the box body; and
A concrete lining construction method of a stainless steel panel that is connected to the water temperature sensor and the water quality sensor and forms a pattern with an inclined surface band including a communication means connected to an external ICT integrated computer network through a space where the water of the box body does not flow.

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