KR200247034Y1 - Stop and flow wall of water storage - Google Patents

Abstract

The present invention is directed to the rectification and drifting wall structure of a water purification plant, and in particular, the main focus is to strengthen the rigid coupling and durability of the rectifying and drifting wall.

The present invention is installed between the ceiling and the floor, and between the wall and the pillar or each pillar, the cross-section '￢' type frame 20, respectively, and the rectification and drifting wall (10) at one end and the top of the '￢' type frame bend, After the bottom is in close contact with each other, the fixed section 30 of the rectangular cross section in the horizontal and vertical direction in contact with the rectifier and the side wall and the front and bottom of the dripping wall in contact with the '￢' frame so that it can be easily installed do. In particular, the present invention is a nail (50) (51) ((50) (51) provided for fixing the '￢' type frame and the stator and the rectifying and dripping wall or horizontal reinforcing bar and the connecting fixing piece (90) configured on one side of the horizontal reinforcing bar 52) deeply immersed, and then the space portion on the head side is sealed with urethane 40 to prevent nail corrosion. In addition, in the left and right connection between the rectifying and dripping walls, the one end is formed with the groove 12 and the other end is formed with the protrusion 11 to strengthen the coupling force by fitting the protrusion and the groove, while the present invention The '￢' type frame and the stator and rectifier and ditch wall are all made of special material mixed with PE (polyethylene) and chaff powder, so it does not corrode to fluorine and chlorine toxins and has excellent flexural elasticity. It also allows it to work flexibly.

Description

Rectification and drip wall structure of water treatment plant {Stop and flow wall of water storage}

The present invention is directed to the rectification and drifting wall structure of a water purification plant, and in particular, the main focus is to strengthen the rigid coupling and durability of the rectifying and drifting wall.

The rectification and drifting walls of water purification plants are required to be easily constructed and to have a strong structure or material that can withstand high water pressure. Especially, the rectifying and drifting walls have excellent durability by preventing them from being easily oxidized by fluorine and chlorine introduced into the water. The structure of is required.

As is well known, fluorine and chlorine are added for the purpose of sterilization in purifying water in a water purification plant. In addition, fluorine and chlorine-injected water is stagnant and circulated without quickly flowing out in the water purification plant, so that fluorine and chlorine and water are mixed well to maintain uniform concentration. That is, the purified water and the dripping wall to be provided in the present invention refer to the wall of the unit structure having the rectifying and the drifting functions, and the rectifying and the dripping structure refers to the state in which the rectifying and the dripping wall of the unit is constructed and completed. Of course, the rectifying and drifting wall structures of the present invention aim at stagnant and circulating water as described above.

In the water treatment plant, high water pressure is being formed. Especially, since fluorine and chlorine are required to have a constant contact time in order to maintain proper disinfecting power, the rectifying and drifting wall structures are configured in a zigzag form as shown in FIG. We are planning. In addition, the rectifying and drifting walls of the unit structure are installed so that the upper and lower ends of the water purification plant contact the floor and the ceiling, and are connected in a plurality of columns between the columns and the wall between the columns and the walls vertically installed at equal intervals at predetermined positions. Constructed as an aggregate structure. In such a rectifying and drifting wall structure, as shown in FIG. 5, a rectangular '['] type channel 200 is formed in four directions, such as a wall or a pillar and a floor and a ceiling, in a vertical and horizontal direction. Installed and fixed with a nail (300). Subsequently, a plurality of rectifying and dripping walls 100 are sequentially inserted into the grooves of the '[' type stainless steel channel 200, and then the front and rear surfaces are equally spaced with a horizontal reinforcing bar 400 to be driven into the nail 301. It is fixed. In addition, such a structure is generally composed of a zigzag structure as shown in FIG.

However, in the conventional structure, the '[' type stainless steel channel 200 supporting the rectifying and dripping walls 100 is made of a metal material, so that it is easily oxidized and corroded to fluorine and chlorine in the water, thereby easily losing the supporting force. Also, the nails 300 and 301 fixing the '[' type stainless steel channel 200 and the horizontal reinforcing bar 400 are also exposed to the outside, and as the head is easily oxidized to fluorine and chlorine, the '[' type stainless steel channel 200 ) And the transverse reinforcing bar 400 is easily detached from the wall or ceiling or pillar, causing the commutation and collapse of the entirety of the ditch wall 100. In addition, even in the left and right coupling structure of the rectifying and dripping walls 100, the joint portion does not have a special coupling structure to be relied only on the horizontal reinforcing bar 400 at equal intervals, the coupling state is extremely unstable. Therefore, the conventional rectifying and dripping wall structures are easily broken down as a whole, if only one part of the overall support loss is required, the improvement is required. In addition, the rectifying and dripping wall 100 is a structure that is forcibly inserted into the '[' type stainless steel channel 200 having a structure of an integrated rail groove, difficult construction and difficult to repair and partial replacement. On the other hand, the rectifying and dripping walls 100 are mostly made of synthetic resin, which is rigid in material and thus does not elastically act on high water pressure, so there is always a risk of breakage.

The present invention is easy to construct in consideration of the above-mentioned problems, and in particular, the construction state is robust, but to maintain excellent durability by preventing corrosion to fluorine and chlorine. In other words, the present invention is to install a cross-section '￢' frame between the ceiling and the floor, and the wall and the pillar or each pillar, and to close the rectification and one side end of the rectifying wall and the upper and lower ends to the '￢' frame bend. Next, it can be easily installed by giving a close contact with the fixed section of the rectangular structure on the front of the close contact portion. In particular, the present invention deeply nails the nail provided as a fastening means such as the '￢' type frame and the fixed and horizontal reinforcing bar, and then prevents the corrosion of the nail by sealing with urethane in the space of the head side. In addition, in the left and right connections between the rectifying and dripping walls, one end is formed with a groove part and the other end is formed with a protrusion to further strengthen the coupling force by fitting the groove part and the protrusion part. In addition, the '￢' type frame and the stator provided in the present invention and the rectifying and dripping walls are all made of a special material mixed with PE (polyethylene) and chaff powder, so they do not corrode to toxins of fluorine and chlorine and have excellent flexural elasticity. So that it can stretch even at high water pressure.

1 is a partial perspective view of the main portion of the present invention

Figure 2 is a front view of the rectifying and ditch wall structure of the present invention

Figure 3 is an enlarged main cross-sectional view of a part of the present invention

4 is a plan view of the use state of the present invention

Figure 5 is a separation of main parts excavation of conventional rectification and ditch wall structure

<Explanation of Signs of Major Parts of Drawings>

10: rectification and ditch wall 11: protrusion

12: groove 20: '￢' type frame

30: fixed base 40: urethane

50,51,52: Nail

Communicate a plurality of rectification and ditch walls 10 between the floor 100 and the ceiling 101 and between the wall 70 and the pillar 80 or each pillar 80, and rectify with a horizontal reinforcing bar 60 at equal intervals. In the conventional reinforcement of the supporting force of the convex wall 10, the bottom surface 100 and the ceiling 101 and the inner surface between the wall 70 and the pillar 80 and each pillar 80 has a cross section '￢'. The frame 20 is installed in a rectangular structure in the horizontal and vertical directions to be fixed by the nail 50, and a plurality of rectifying and dripping walls 10 are installed inside the '￢' type frame 20, but the '￢' The front of the rectifying and drip wall 10 of the outer side that is in contact with the inner surface of the mold frame 20 is fixed to the nail (30) in close contact with the fixture 30, while nails 50 and 51 are deeply driven The head is sealed with urethane (40). In addition, the present invention in the construction of connecting the rectifying and dripping wall 10 to the left and right, one end of the rectifying and dripping wall 10 is composed of a groove portion 12 and the other end is composed of a protrusion 11, the protrusion 11 Is coupled to the groove portion 12, while the commutation and drip wall 10, the '￢'-type frame 20 and the holder 30 and the horizontal reinforcing bar (60) are all PE (polyethylene) and rice husk powder It was molded by mixing. Reference numeral 90 denotes a connection fixing piece, 51 denotes a nail for fixing the connection fixing piece, (A) shows a water purification plant, (B) shows a water inlet, and (C) shows a water outlet.

The upper and lower lengths of the rectifying and dripping walls 10 of the present invention configured as described above are considered in consideration of the thickness of the '￢' type frame 20 coupled to the upper and lower ends thereof, together with the thickness of the bottom 100 and the ceiling 101. It is cut so as to be closely sandwiched between the two and is installed between the wall 70 and the pillar 80 and each pillar 80 as shown in Figure 4 and such a rectifying and drifting wall structure is composed of a zigzag structure that is a universal means By inducing the stagnation and flow of the water, the injected fluorine and chlorine are mixed evenly to maintain a uniform concentration of water.

The construction procedure of the present invention is as follows. Referring to FIG. 2, the present invention first installs the '￢'-type frame 20 on the bottom 100 and the ceiling 101 and the wall 70 at the location where the rectifying and dripping walls 10 are to be installed. do. That is, the reason for installing the '￢'-type frame 20 toward the pillar 80 later is that the left and right coupling structure of the rectification and the drip wall 10 of the present invention has one groove 12 on the other side 12. This is because when the '￢' type frame 20 is pre-installed on the pillar 80 side, the final (rightmost) rectification and the connection of the ditch wall 10 are difficult. Accordingly, the '￢' type frame 20 installed vertically on the pillar 80 is installed by installing the last rectifying and dripping wall 10 at the rightmost side, and then sandwiching it between the side end and the inner surface of the pillar 80. It is easy to construct. The '￢' type frame 20 is fixed to the nail 100 by being in close contact with the floor 100 and the ceiling 101 and the wall 70 and the pillar 80, wherein the nail 50 is '￢' 'Deep deep into the inside of the mold-type frame 20, and the head space portion of the nail 50 generated at this time is filled with a urethane (40) is sealed. Subsequently, the rectifying and dripping walls 10 are gradually constructed by fitting the other end projection 11 into the column 80 from the wall 70 side and into the groove 12 at one end thereof, as described above. When the installation of the rightmost rectification and drip wall 10 is completed, the '￢'-type frame 20 is inserted between the side ends and the pillars 80 in the vertical direction to be fixed by the nails 50. Thus, in the entire rectifying and drifting wall 10 configured in the front of the edge that is in contact with the '￢'-type frame 20, the fixing stand 30 is installed in the nail' 51 'to the' ￢'-type frame 20 Fix it. At this time, the nail 51 is also deeply driven and its head is filled with urethane 40 to be sealed. Meanwhile, the nail 50 used in the present invention is described as being used in the '￢'-type frame 20, and the numeral 51 is used in the connecting fixing piece 52, which will be described later. As such, when the rectification and drifting walls 10 are constructed, the horizontal reinforcing bars 60 are installed, and the horizontal reinforcing bars 60 are also used in the prior art, in order to firmly support the entire rectifying and dripping walls 10. (10) The horizontal reinforcing bar 60 is installed on the front and rear in the horizontal direction and the upper and lower intervals and connected to the connecting fixing piece 90 is fixed to the nail 52 at both ends so that the horizontal reinforcement 60 is firmly maintained. Of course, the fixing nail and the connection fixing piece fixing nail 52 and the like of the horizontal reinforcing bar 60 is also the sealing of the head side.

The present invention is installed between the pillars 80 in this manner, and is installed at each predetermined position where the rectification and the ditch wall 10 are required in the water purification plant A.

As such, the present invention is a layer of work rather than construction while inserting the upper and lower ends of the conventional rectifying and dripping wall 100 into the floor, ceiling, and pillars to be tightly installed in the '[' type stainless steel channel 200. That is, the conventional construction is a cross-sectional '[' structure in the form of a rail, and the work is extremely difficult due to the forced fitting method when the final finishing channel works, but the workability is inferior as described above. After installing the '￢'-type frame 20, simply fold the edge of the rectification and drip wall 10 to the open front, and the final finishing work of the rectifying and drip wall 10 is also difficult as described above. Without the stator (30) is also a structure that fixes the two sides of the mutual rectifying and rectifying and dripping wall (10) and the '형' type frame 20 at the same time as close to secure a superior workability. Particularly, the present invention deeply nails the nails 50, 51 and 52 used as fixing means such as the '￢' type frame 20 and the fixing stand 30 and the connecting fixing piece 90, and then the head side is By sealing with urethane 40 to prevent corrosion of the nails 50, 51, 52 by blocking the fluorine and chlorine to accelerate the corrosion of the metal, such as the '￢' type frame 20 and the stator 30 Effectively prevents detachment

On the other hand, the present invention is the above-mentioned rectification and drip wall 10, and the '￢' type frame 20 and the fixed base 30, and the connecting fixing piece 90, etc., both PE (polyethylene) and chaff powder mixed It is molded and manufactured in one mixture, and its flexural strength and flexural modulus are good, and it works elastically at high water pressure in water purification plant (A). In other words, the mixed structure of PE (polyethylene) and chaff powder improves the disadvantages of the rectification and the ditch wall of the conventional rigid synthetic resin material, while the '[' type stainless steel channel of the conventional metal material is easily corroded and the entire structure is easily broken. Correction is made.

The mixed structure of PE (polyethylene) and rice husk powder, such as the rectification and drip wall 10 provided in the present invention is '40 to 50 parts by weight of chaff powder, 7 to 3 parts by weight of low polymer, 0.1 to 04 parts by weight of antioxidant After mixing, heating and extruding at 180-240 ° C. to produce a one-dimensional material in the form of agglomerates, the one-dimensional material is cooled and pulverized so as not to condense with each other, and then 0.1 to 0.4 parts by weight of the granular thermoplastic resin and the blowing agent are further mixed. And crushed to make the content of rice husk powder 10-45%, which is extruded, molded, cooled and taken out. The rectification and drip wall 10 of the present invention obtained by such a manufacturing method showed superiority in the prevention of oxidation and strength, and in particular, the experimental results showed that the durability of the water containing fluorine and chlorine in the water purification plant (A) of the present invention was very high. Excellence has been proven.

As described above, the present invention is easy to construct and has excellent workability and firmly responds to water pressure, and in particular, does not cause corrosion and has improved durability. Therefore, the economic advantages are significant as the construction cost and the maintenance cost are greatly reduced.

Claims (3)

Communicate a plurality of rectification and ditch walls 10 between the floor 100 and the ceiling 101 and between the wall 70 and the pillar 80 or each pillar 80, and rectify with a horizontal reinforcing bar 60 at equal intervals. In the conventional reinforcement of the supporting force of the convex wall 10, the bottom 100 and the ceiling 101 and the '￢' type on the inner surface between the wall 70 and the pillar 80 and each pillar 80 Install the frame 20 to fix it with the nail 50 and install a plurality of rectifying and dripping walls 10 inside the '￢'-type frame 20 and a fixed stand in the open position of the' ￢'-type frame 20 While the 30 is fixed in close contact with the nail 51, the exposed portions of the nails 50 and 51 are sealed by urethane 40, and the rectifying and drifting wall structure of the water purification plant. 2. The rectifying and dripping wall structure of a water purification plant according to claim 1, wherein grooves (12) and protrusions (11) are formed at left and right ends of the unit rectifying and dripping walls (10), respectively. The rectification and drifting wall structure of a water purification plant according to claim 1, wherein the rectification and drifting wall (10), the fixing stand (30), and the transverse reinforcing strip (30) are formed from a composition of PE and chaff powder.