KR890005280B1 - Drainage collecting pipe - Google Patents

Abstract

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Description

Drain pipe

1 is a longitudinal sectional front view of an embodiment of the present invention.

2 is a front view of an embodiment of the same type.

3 is a cross-sectional view taken along line III-III of FIG. 2;

4 is a view seen from the direction of arrow IV-IV in FIG. 3;

5 is a cross-sectional view taken along the line V-V.

6 is a sectional view taken along line VI-VI.

7 is a cross-sectional view along the X-ray line.

8 is a partial cross-sectional view of the X-ray line.

9 is a plan view showing the flange of the lower assembly pipe.

10 is a side cross-sectional view of the upper and lower joints.

11 is a graph showing experimental results of fluctuations in the air pressure between the present invention and the conventional example.

12 is a top side view of the collecting tube showing another embodiment.

13 is a sectional view taken along line X-ray of FIG.

14 is a sectional view taken along line XIV-XIV in FIG.

Figure 15 is a longitudinal sectional side view of the upper part of the collecting tube showing another embodiment.

16 is a side cross-sectional view of a conventional collecting tube.

* Explanation of symbols for main parts of the drawings

1, 2: drainage pipe 3b: gradient main surface

4, 5: opening junction 6: drifting wall

7: Drift reduction chamber 8: Assembly room

10, 10a, 10b: branch joint part 11: turning room

12: inclined wall

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an improvement of a collection tube for drainage through a drainage pipe in a one-pipe drainage pipe in which sewage and mixed wastewater used in a middle and high-rise apartment house and the like flow into the same drainage pipe.

The drainage constitution in the one-pipe drainage pipe connects a plurality of drainage inlet pipes from the upper floor to the lower floor, and the sewage or miscellaneous water in each floor is passed through the lateral pipe in the drainage pipe. Inflow. At this time, the part receiving the drainage pipe in each layer is a larger diameter tubular body than the drainage pipe, and the drainage collection pipe in which the opening part for joining the transverse pipe | tube was formed in the outer peripheral side in the drainage pipe is interposed. Problems in this one-pipe drainage pipe are high fluctuations in the air pressure and drainage noise, which occur largely as the drainage flows down from the upper floor to the lower floor in flowing down the drain inlet pipe.

Means employed to solve this problem conventionally include a large diameter tubular shape in the collecting pipe, from a simple cylindrical shape to a tapered throttle barrel structure at least in the lower half, or to install an obstacle plate at the connection portion with the transverse pipe or inside the collecting pipe. To install a control structure in the drainage (flow). Regarding this, the present applicant also proposes to form a spiral wing plate that has gradually narrowed toward the beginning and the end of the large diameter tubular corrugated tube in a protruding shape (see Japanese Patent Application No. 57-18015). . However, the conventional improvement means is not yet sufficient in terms of preventing the rise of the air pressure in the pipe, lowering the drainage speed, reducing the noise, etc. Furthermore, the occurrence of backflow to the sealing parts such as the toilet bowl and the inside of the collective pipe A new problem arises in terms of the occurrence of a faucet phenomenon in Esau.

The present invention solves the above-mentioned unsolved defects and enables effective and reliably narrowing and reducing noise in the air pressure fluctuations in the pipe, so that a smooth and light drainage can be obtained under stable air pressure. In other words, the flow velocity flowing down from the drain inlet pipe is deflected and deflected on a limited side of the inner circumference of the collective pipe to reduce its flow rate, and at the same time, the hydraulic drainage from the transverse pipe is introduced on the circumferential side and the opposite side of the drain flow. By avoiding interference confluence between vertical and horizontal drainage, it eliminates air pressure rise and reverse flow as a transverse observation, narrows and inserts the lowest part of the collection pipe, and protrudes the inclined inclined wall in this area to prevent power generation phenomenon and drainage noise. It is possible to deteriorate. Therefore, it is characterized in that the opening joint for joining the drain inlet pipe at both ends of the tube axial direction is connected to the two mouth opening joints, and is made up of a tubular bulge larger in diameter than the drain inlet pipe. The drifting reduction chamber is provided with a deflection wall for biasing the drainage flow from the open junction at the upper side to one side of the assembly chamber and facing the one side of the assembly chamber where the drainage is collected on one side. The branch joint is opened to the other side of the chamber, and the turning chamber is provided with an inclined wall inclined with respect to the tube axis for turning the drainage from the collection chamber.

In other words, according to the collection pipe of the present invention, the upper drift reduction chamber formed on one side of the irrigation wall through the drift wall, the collection chamber where vertical and horizontal flows are collected, and the branch joint portion or the lowest pipe branch installed on the opposite tube circumference side of the drift reduction chamber Decrease the drainage speed of the inflow drainage from the upper inlet pipe by each element of the inclined wall inclined with respect to the draft main surface and the pipe axis protruding from the slope in the turning room of the vertical and horizontal drainage. By preventing mutual interference, the air pressure in the pipe is prevented from rising, making the change smaller, and preventing reverse flow of water, and smooth mutual confluence in the assembly room. In addition, the stabilization of the air pressure by the continuous generation of the air core, the rapid drainage and the noise reduction can be surely obtained. This significantly reduces the problems arising in the drainage pipe for continuous concentration drainage of each floor in a plurality of floors, in particular in the consistent drainage relationship, that is, the large fluctuations in the air pressure in the pipe and the large drainage noise.

Other advantages of the present invention will be apparent from the following description.

1 shows a first embodiment of a drainage pipe according to the present invention.

The drain collection pipe 3 interposed between the upper drain inlet pipe 1 and the lower drain inlet pipe 2 is connected to the upper and lower ends in the pipe axis XX line direction by the inlet pipes 1 and 2 and a known seal connection structure. While the opening joints 4 and 5 are formed, the tube body portion connecting between the joints 4 and 5 becomes the expanded portion of the tubular body having a larger diameter than the entrance tubes 1 and 2. In this embodiment, the large diameter part from the upper part to the middle part which follows the opening junction part 4 of the upper end of the collection pipe 3 becomes the cylindrical part 3a, and the lower part which reaches from the middle part to the opening part 5 of the lower part is shown in figure. As described above, the tapered cylindrical portion of the upper and lower narrow belts having a smooth gradient main surface 3b therein is disposed, and the sewage water is discharged from one side of the lower inner peripheral surface of the upper end junction 4 in the cylindrical portion 3a toward the tube axis XX line. By installing the deflection wall 6 on the tongue piece which is attached to the lower part, the drainage flow flowing down from the upper drain inlet 1 is drift toward one side of the inner circumferential surface of the cylindrical portion 3a as shown by arrow A, In addition, a deceleration reduction chamber 7 for decelerating is formed. The drift reduction chamber 7 occupies substantially the entire upper portion of the cylindrical portion 3a along with the vertical length of the drift wall 6, and the intermediate portion following the drift reduction chamber 7 is formed by the drift wall 6. It becomes a collection chamber 8 in which the drainage flow on the side of the flow-reducing drainage pipe 1 and the drainage flow from the transverse pipe flowing from the main side of the cylindrical portion 3a join. In other words, the collecting chamber 8 in the opposite direction to the drainage flow from the inlet pipe 1, which is inclined to one side of the collecting chamber 8 via the drift reduction chamber 7 by the drift wall 6, or as far as possible. One or more branch pipe joints 10 connected to the transverse pipe 9 connected to the toilet or the water drainage source are installed in the shape of a protruding opening on the main side of the cylinder. To increase the length of the assembly chamber 8 by increasing the length along the direction of the tube axis XX, the position and the direction of the assembly chamber 8 are up and down and different from each other to install two or more branch joints 10. Of course you are free.

The lower part surrounded by the above-mentioned poor gradient main surface 3b following the collection chamber 8 has a drain flow pipe in which the drain flow pipe 1 and the transverse pipe 9 joined in the collection chamber 8 are lower than the drain flow pipe. It becomes the turning room 11 for making it flow down through the opening junction part 5 of the lower end to the (2) side, and the drainage shown by the arrow A on the inner wall surface, ie, the gradient main surface 3b of this turning room 11, Drainage inlet pipe while turning spirally around the axial line XX, as indicated by the arrow C, with respect to the drainage flow from the entrance 1 side and the drainage flow from the transverse pipe 9 indicated by the arrow B, as indicated by the arrow C. The plurality of inclined walls 12 are projected so as to flow down (2). That is, all of these inclined walls 12 are substantially trapezoidal wing bodies which are inclined with respect to the tube axis (XX) line, and also protrude along the vertical direction of the gradient main surface 3b and reach from the top to the bottom, so that the width gradually increases. It becomes smaller and protrudes on the gradient main surface 3b on an equal distribution. The transverse pipe 9 and the pipe joint 10 are connected by a known seal connection structure.

In the first embodiment illustrated in FIG. 1, the collection tube 3 is shown as an integral structure from the uppermost open joint portion 4 to the lowermost open joint portion 5, but according to the present invention. It is also possible to have a vertically divided structure, and this is also shown as an explanation in the second embodiment illustrated in FIGS. In the overall view shown in FIG. 2, FIG. 3, and the partial view shown in FIG. 4 to FIG. 9, the collecting pipe 3 has an upper collecting pipe 13 having an upper opening junction 4 and an opening at the lower end. The lower assembly pipe 14 which has the junction part 5 is divided into both, and the lower end and the upper end of both pipes 13 and 14 are integrally connected by the flange junction part 15. As shown in FIG. That is, a water mouth 14a for supporting the lower end of the upper assembly pipe 13 is formed at the upper end of the lower assembly pipe 14 as shown in FIG. Subsequently, the flange 14b is formed to protrude, and the lower end of the upper assembly pipe 13 is inserted into the water casting 14a, and a rubber or other sealing material is provided between the lower periphery and the elongated flange 14b. The support flange 17 of the separate body, which is inserted and loosened in the upper assembly pipe 13 in advance, is connected to the sealant 16 and the both flanges 14b and 17 are fastened by the fastening bolt 18 nuts 19. Integrating by tightening. Of course, this connection structure is not limited to the illustrated one example, and various ones can be applied. In the collecting tube 3 formed by the division of the upper and lower collecting tubes 13 and 14, the tube body portion that is connected between the upper opening joint 4 and the lower opening 5 is smaller than the entrance tube 1, 2. In the upper assembly pipe 13, a deflection wall 6 having a shape that bends approximately S-shaped in the example shown in the upper assembly pipe 13 from the lower end of the opening-joining part 4 is provided, which is the same as that of the first embodiment. The deceleration chamber 7 is biased on one side to be drawn, and at this time, the curved extension part 13a is formed as shown in the outer circumferential wall covering about half of the upper collecting pipe 13 corresponding to the shape of the drift wall 6. The length of the drift wall 6 is also extended to the bottom of the upper assembly pipe (13).

It is formed over both pipes of the collecting chamber 8 between the open lower end starting from the lower end of the drift wall 6 of the upper assembly pipe 13 and the open upper end of the lower connecting pipe 14, and thus the collecting chamber 8 On the other side of the upper side), the preliminary collection chamber 8a on the opposite side of the drift reduction chamber 7 of the upper assembly pipe 13, that is, the opposite circumferential side defined by the drift wall 6 is formed in communication. The preliminary assembly chamber 8a is formed as the portion 8a defined on the rear surface side of the deflection wall 6 in the first embodiment described above, but the deflection wall 6 is the second embodiment. Along with the shape of, it is more clearly formed as a large space.

In the embodiment of FIG. 2, by the formation of a grand assembly chamber 8 using the up and down joint portions of the up and down assembly tubes 13 and 14, and the preliminary assembly chamber 8a by the shape of the drift wall 6, As shown in the example, a plurality of branch joint portions 10a, 10b, which are provided with steps at the top and bottom thereof using the pairing chambers 8, 8a, are shown in FIGS. 2, 3, 4, 5, and 6 It is formed like a tile. In other words, in the preliminary assembly chamber 8a corresponding to the back side of the drift wall 6, three branch pipe joints 10a of upper portions each having different inflow directions are used in the preliminary side of the upper joint pipe 13. In the example shown in FIG. 1, one branch pipe joint portion 10b is similarly provided as a lower joint portion in the collecting chamber 8 by using the abutment side of the lower assembly pipe 14, and the upper and lower corners Branch pipe joints 10a and 10b are, for example, upper branch joints 10a as joints of transverse pipes connected to the toilet bowl, and lower branch joints 10b are connected to transverse pipes connected to other water sources outside the kitchen. As a combination or vice versa, it is possible to receive inflows of multi-directional, multi-sector sewage, miscellaneous water. In the lower assembly pipe 14, the swinging chamber 11 surrounded by the gentle gradient main surface 3b continues to the lower end of the collection chamber 8 formed by using the open upper end, and the opening junction 5 at the lower end. Formed on the slope main surface 3b in this swinging chamber 11, as shown in FIGS. 3 and 5, inclined to impart swirling ability to the collective drainage flowing down from the collecting chamber 8; The plurality of inclined walls 12 protrude in the irrigation direction evenly arranged so as to be inclined with respect to the pipe axis XX line as in the first embodiment. As shown, these inclined walls 12 reach from the top to the bottom, and the width thereof gradually decreases.

Incidentally, in the third embodiment, the inclined wall 12 is formed continuously from the gradient main surface 3b to the opening junction 5, but may be formed only on the gradient main surface 3b, or the gradient main surface 3b from the collection chamber 8. ) Or from the collection chamber 8 through the gradient main surface 3b, and continuously over the opening joint 5.

In the usage of the collection pipe 3 which concerns on this invention, like this conventional collection pipe of this type | mold, this collection pipe is installed in every floor in installing the drainage piping by the connection of the drainage inlet pipe from the upper layer to the upper and lower penetrating upper and lower layers. (3) is inserted into the collecting pipe and drainage flow from the toilet on the floor and drainage flow from the transverse pipe to drain the drainage pipe by introducing sewage, kitchen or other wastewater into the collecting pipe (3) through each horizontal pipe. (3) The confluence and consolidation within (3) are to be gradually drained to the lower side. The top of the drainage system is open to the atmosphere and the bottom is guided to where the drain meets appropriately.

According to the collecting pipe 3 of the above embodiment, the drainage flowed down from the upper drain inlet pipe 1 flows down from the opening junction 4 to the side of the deflection reduction chamber 7 guided to the deflection wall 6. In addition to the curved shape of the), it flows in a biased manner on one side of the irrigation in the large diameter portion 8a of the collecting pipe 3. In other words, the vertical drainage from the inlet pipe 1 decreases the drainage speed due to the deflection drift by the deflection wall 6 without direct current in the collective pipe 3 over the entire large diameter portion thereof, thereby preventing an increase in the air pressure inside the pipe. At the same time, it is possible to prevent interference due to an integrated collision with inflow water from the transverse pipe (9), to prevent the increase of internal air pressure, and to prevent backflow to the side of the transverse pipe (9). Smooth and quiet confluence in the collecting chamber 8 with the horizontal drainage flowing in through the junctions 10 to 10a is expected. Therefore, the drainage from the inlet 1 and the inflow drainage from the transverse tube 9 in the next collecting chamber 8 merge into the focusing phase, and the turbulence caused by mutual interference is small, and the air in the tube The confluence of the pressure is reduced to obtain a confluence effect that is desired, and the drainage noise is low. Thus, the condensed drainage flows down into the lowest turning chamber 11.

The swinging chamber 11 has a throttled cross-sectional shape extending downward by a gentle gradient main surface 3b, and a plurality of inclined walls 12 inclined with respect to the tube axis direction are formed on the gradient main surface 3b in the circumferential direction ( Since the joint drainage is most likely to be the most dense, the drainage flow is given to the ash through the guide of each inclined wall 12, and it turns down around the tube axis, causing the faucet phenomenon. It flows down quickly and smoothly without work, and it leads to accurate induction outflow to the lower drain inlet pipe 2 side through the opening joint part 5.

At this time, since the turning by the inclined wall 12 can generate an air core along the tube axis in the vertically penetrating phase, the drainage is reduced in a stable state without changing the air pressure in the pipe, resulting in a decrease in drainage noise.

In addition, since the inclined wall 12 protrudes from the gradient main surface 3b, the inclination and stagnation in the drainage flow in the swinging chamber 11 together with the provision of an appropriate inclination angle in the up and down direction prevents rapid discharge. I can be sure. In addition, the gentle gradient of the gradient main surface 3b effectively acts on the above-mentioned prevention of water phenomena and stabilization of air pressure.

According to the collection pipe | tube 3 of this invention, as mentioned above, the fluctuation | flow of the wastewater which made the fluctuation | variation of the air pressure in a pipe small and stabilized, and reduced noise at the same time can be made smooth.

At this time, as shown in FIG. 16, when the inclined wall 12 is projected into the large diameter cylindrical portion with a single large diameter cylindrical diameter portion over the top and bottom, the inclined wall 12 is provided. The cylindrical swing chamber 11 is directly connected to the opening joint 5 via the tapered portion 3b '. For this reason, there is a concern that the drainage given the swingability may cause clogging or congestion while maintaining the turning state at the tapered portion 3b ', but in the present invention, as the swinging chamber 11 having the gradient main surface 3b as described above, By providing the inclined wall 12 on the gradient main surface 3b, the drainage water which is given swirlability flows down into the drainage pipe 2 below without being disturbed.

11 shows an example of the results of drainage experiments in a one-pipe drainage pipe using the present collection pipe 3 of the present invention in a mid-rise building of an 11-story building, and from the 11th floor. In the case of continuous drainage at 3001 / min of drainage, the fluctuation of air pressure in the pipes from the first floor to the eighth floor is displayed, and the curves indicated by Y and Y 'are the fluctuation curves using the collection pipe 3 of the present invention, Z , Z 'represents the fluctuation curve of the conventional collector tube.

In the figure, the right side is the + P value of air fluctuation, the left side is the -P value (all mmAq value), and the tolerance limit is ± 25mmAq. As early as this, it turned out to be remarkably superior.

12 to 14 show a modification of the above-mentioned deflection wall 6 as another embodiment. In the description of this embodiment, the lower set pipe is the same as the lower set pipe of FIG. 2 and therefore only a substantial portion of the upper set pipe of the collecting pipe 3 shown in FIG.

In this embodiment, a part of the collecting pipe 3 is formed to protrude and deform inwardly to form the protruding portion 103, and the narrowing deflecting wall 6 is formed from the upper surface 103a. ), The inclination is given downward in the second quarter. As shown in FIG. 14, the distance 1 between the said deflecting walls 6 is slightly larger than the minimum inner diameter d of the opening joined part 4. The tip 6a of the deflection wall 6 ends without reaching the inner wall portion 103b of the collecting pipe 3 in the direction of directing. By this protrusion part 103 and the deflection wall 6, the wastewater which flowed out from the upper drain inlet pipe flows to the inner wall part 103b of the collection pipe 3, and flows down like the embodiment mentioned above.

By employing the structure of the projecting portion 103 and the deflection wall 6, obstacles can be removed in the center of the collecting pipe 3, thereby increasing the distribution area of the drainage and air flow in the collecting pipe 3 inside. This can reduce the fluctuations in the air pressure in the pipe.

FIG. 15 shows yet another embodiment, which shows only the upper assembly pipe as in the embodiments of FIGS. 12 and 13, and has a drift with the protrusion 103, which is the same as the embodiment of FIGS. As the collecting pipe 3 using the structure of the wall 6, the collecting pipe of the form without the said branch pipe joint 10a was shown.

It is apparent that the present invention can be implemented even in the absence of such branch joint.

Claims (5)

An opening joint for joining the drain inlet pipe at both ends of the tube axis direction and an opening joint between the two opening joints is formed of a tubular expansion part having a larger diameter than the drain inlet pipe, and the expansion part is formed in the drift reduction chamber, the assembly chamber and the swing room along the tube axis direction. In this order, the deflection reduction chamber is provided with a deflection wall for biasing the drainage flow from the open junction at the upper end to one side of the assembly chamber, and the other side of the assembly chamber facing the one side of the assembly chamber where the drainage is collected to one side. The branch pipe joint part is opened in the side, and the swivel chamber is provided with an inclined wall inclined with respect to the tube axis for turning the drainage flow from the collection chamber. 2. The collection tube for drainage according to claim 1, wherein the collection chamber is composed of two divisions by bolt connection with respect to the tube axis direction, and at least one branch pipe joint is opened in each of them. 3. The collection pipe for drainage according to claim 2, wherein the inclined wall extends gradually from its upper end to its lower end. 4. The collection pipe for drainage according to claim 3, wherein the drift wall is connected in two quarters in a planar view inclined downward from one side wall of the collection pipe along the inner circumferential surface. 5. The collection pipe for drainage according to claim 4, wherein the gap between the two deflection walls on the two branches is configured to be slightly larger than the minimum inner diameter of the open joint.

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