JP4928408B2 - Drainage piping members and drainage piping structure - Google Patents

Description

The present invention relates to a drainage pipe member that can be suitably used for constructing a drainage pipe structure and a drainage pipe structure using the drainage pipe member.

In a building such as an apartment house or a building, a drainage piping structure is provided so as to penetrate each floor from the lowest floor to the top floor (see, for example, Patent Document 1). In this type of drainage piping structure , pipes for joints such as drainage collecting pipes and straight pipe joints are arranged in a penetrating manner for floor slabs that partition each floor, and pipes for joints between floor slabs of these multiple floors, It has a drainage piping structure that connects with piping lines using straight pipes.

It is well known that there are pipes for joints such as drainage collecting pipes that have a fire-resistant double-layer pipe structure including a metal pipe made of cast iron or the like and a resin pipe such as hard vinyl chloride. It is well known that straight pipes to be used include metal pipes such as cast iron pipes and steel pipes, resin pipes made of hard vinyl chloride, and fire-resistant double-layer pipes coated with mortar. It is.
Japanese Patent Laid-Open No. 10-195947

In building drainage piping structure is equipped, in order to prevent the case where a fire or the like occurs at downstairs flame or smoke, and toxic gases from flowing to the upper floors through the drain pipe structure, conventionally, the entire drainage piping structure It was considered necessary to have fire resistance.
However, if it is intended to provide fire resistance to the entire drainage piping structure , it is necessary to make not only the pipes for the joints but also all of the piping lines to be made of non-combustible materials such as metal, resulting in high costs. there were.

  Further, when the joint pipe material is a drainage collecting pipe that can be connected to a side branch pipe piped on the floor slab, the side branch within a predetermined distance from the drainage collecting pipe (for example, 1 m from the partition penetrating portion). In order to prevent the fire from spreading to the upper floor, the pipe must be incombustible (for example, based on the provisions of the Fire Service Act). For this reason, it is required to use a fire-resistant double-layer pipe or a metal pipe for the horizontal branch pipe corresponding to this, and this also causes a problem of high cost. In addition, when a fireproof double-layer pipe or a metal pipe is used as the horizontal branch pipe, there is a problem that the construction becomes troublesome.

The present invention has been made in view of the above circumstances, and is a member for drainage piping that can prevent the outflow of flame, smoke, toxic gas, etc. from the fire occurrence floor to the upper floor when a fire occurs in a building. And it aims at providing the drain piping structure using this drain piping member.

In order to achieve the above object, the present invention has taken the following measures.
That is, the present invention
A member for drainage piping to be attached to a portion where a tube having an incombustible tube end and a tube having an inflammable tube end are connected, and the incombustible tube end to be attached is the combustible tube A tube having an end is formed as a receiving port that can be connected in an externally fitted state, and the opening edge of the receiving port is capable of pressing a rubber ring that is externally fitted to the tube having the flammable tube. A non- combustible member main body having a connecting means that enables fixing to the pipe material having the non-combustible tube end and capable of surrounding the outer side of the combustible tube end ; the inner peripheral side of that is capable of accommodating the thermal expansion of the refractory material which expands at a predetermined temperature, said coupling means is a push ring for pressing the rubber ring to the opening edge of the receptacle.

In order to make the member main body incombustible (characteristic that does not cause melting or burning at a predetermined temperature), a structure made of cast iron, steel, ceramic or refractory mortar may be used .
Be constructed drainage piping structure employs the drain pipe member structure having a thermal expansion fireproof material, even if the fire or the like occurs in the building, thermal expansion fireproof material by the heat of a fire is When heated above a predetermined temperature, the thermally expandable refractory material expands, and the inside of the member main body is closed while crushing the tube material having the combustible tube end.

Therefore, the member body melting and burning does not nonflammable ones der lever, as a border position where the thermal expansion fireproof material is provided, flame caused by traveling through inner drainage pipe, smoke and toxic gases Are prevented from leaking to other places. Furthermore, by having the effect of suppressing heat transfer, a safer system can be constructed.
For example, the pipe having an incombustible pipe end is a joint pipe such as a drainage collecting pipe, and a straight pipe as a pipe having a combustible pipe end is connected to the lower side of the pipe. If the drain pipe member according to the present invention is used at the connection portion between the upper joint pipe and the lower straight pipe, the inside of the drain pipe is located at the use position of the drain pipe member in a fire or the like. As a result, the flame, smoke, toxic gas, etc. are prevented from flowing out onto the floor slab (above the fire occurrence floor) above it.

In addition, if a side branch pipe is connected to the upper side of the drain pipe member according to the present invention via a joint pipe as a drainage collecting pipe, flame, smoke, toxic gas, etc. through the side branch pipe Is prevented from flowing out onto the floor slab.
Moreover, since only the flammable pipe can be adopted as the horizontal branch pipe, not only this problem can be solved, but also it is beneficial in terms of improving workability and shortening the construction period.

It is not necessary to adopt nonflammable pipes and joints used between the pipe for drainage pipe according to the present invention and the pipe for joint such as a drainage collecting pipe penetrating to the floor slab below it. It may be only a thing of nature (resin pipe etc.). Therefore, cost reduction as a whole drainage pipe structure can be achieved .
By providing a connecting means such as this, even if the tube having a combustible tube end melting or burn out, or fall out, the drainage pipe member whereas tubing having incombustible tube end Therefore, it is not necessary to take separate measures to prevent the drainage piping member from falling. For this reason, when used in a drainage pipe structure , the structure is simplified, and there is an advantage that it is possible to prevent an increase in cost and complication of construction work.

Incidentally, the tubing having an incombustible tube end, the non-combustible pipe ends, Ru der those formed as a receptacle for the connectable tubing having a combustible tube end in fitted state. As the type of socket the case, the tube end of the main crab Cal type (connection expansion in the radially inward of the rubber ring by pressing the wheel press through a rubber ring on the opening edge of the receptacle mating A type that presses the outer surface) is employed .

In the case of the mechanical type, a rubber ring that is externally fitted to a pipe member having a combustible tube end portion can be pressed at an opening edge portion of the receiving port. What is necessary is just to form the member main body in this case as what comprises the push ring for pressing a rubber ring to the opening edge part of a receptacle.
When implemented as a configuration that also serves as a push ring, an advantage that the present invention can be easily implemented simply by replacing the push ring with respect to a ready-made drainage collecting pipe or joint pipe having a mechanical type receiving port. There is.

It is preferable that the member main body is provided with a refractory material storage portion for enabling storage of the thermally expandable refractory material. By providing the refractory material storage portion in this manner, it is possible to perform positioning and prevention of displacement of the thermally expandable refractory material.
In addition, the member main body may be configured such that the portion provided with the connecting means and the portion provided with the refractory material storage portion can be connected to each other, and each may be formed separately, and provided with the connecting means. The part and the part provided with the refractory material storage part may be integrated.

The connecting means may be formed by a bracket protruding outward instead of the push ring, and the bracket can be attached to a push ring through which the end of the combustible tube can be inserted by a bolt.
The drain piping member may be integrated with a thermally expandable refractory material provided on the inner peripheral side of the member main body.

Preferably, the member main body is provided with an inner flange projecting radially inward to prevent movement of the thermally expandable refractory material to the side opposite to the direction in which the connecting means presses.
The drainage pipe structure according to the present invention includes a pipe member having a nonflammable pipe end part, a pipe member having a combustible pipe end part, and a member for drainage pipe, and the nonflammable pipe end part is formed at a receiving port, A tube material having the combustible tube end portion is fitted and connected to the tube material, and the opening edge of the receiving port presses a rubber ring externally fitted to the tube material having the combustible tube end portion. The drainage pipe member includes a nonflammable member body provided with a connecting means for fixing to the pipe material having the nonflammable pipe end portion and surrounding the outer side of the combustible pipe end portion. The main body accommodates a thermally expandable refractory material that expands at a predetermined temperature on the inner peripheral side thereof , and the connecting means is a push ring that presses the rubber ring against the opening edge of the receiving port.

The thermally expandable refractory material may be provided in a state exposed on the inner peripheral surface of the member main body, or may be provided in a state where a combustible material is separated from the inside of the member main body. Moreover, although it is sufficient to provide a heat-expandable refractory material in a part of the member body in the longitudinal direction, it may be provided over the entire length.
Note that the “thermally expandable refractory material” is a volume or shape characteristic that maintains a predetermined shape below a predetermined temperature and expands when the temperature exceeds a predetermined temperature in the event of a fire, etc. The inside of the place where the inflatable refractory material is provided (the tube material having the combustible tube end) or the other tube material connected to it (the tube material having the non-combustible tube end), and the inside The thing which obstructs (fills). Also, once the predetermined expansion has occurred, subsequent heating does not cause melting or burning.

The “predetermined temperature” is a temperature at which specific thermal expansion of a specific material of the thermally expandable refractory material occurs, and varies depending on the material of the thermally expandable refractory material. For example, the temperature may be set to 200 ° C., but the specific temperature at which the heat-expandable refractory material that causes thermal expansion is selected depends on whether the pipe material for the joint such as the drainage collecting pipe or the heat-expandable refractory material is not provided. It is determined by the material of the pipe material and the concept of fireproof design of the building.

By containing the heat-expandable refractory material on the inner peripheral side of the member main body of the drain pipe member, the effect of preventing the spread of fire is achieved.
In the drainage pipe member, the connecting means is formed by a bracket or a flange projecting outward instead of the push ring, and the bracket or the flange is pushed through the end of the combustible pipe by a bolt. It may be attached to a ring.

Preferably, the drain pipe member is an inner casing projecting radially inward to prevent movement of the thermally expandable refractory material to the opposite side of the direction in which the connecting means presses the member main body. Is provided.

The drain pipe member according to the present invention and the drain pipe structure using the drain pipe member prevent the outflow of flame, smoke, toxic gas, etc. from the fire occurrence floor to the upper floor when a fire occurs in the building. Can do.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
2 and 3 show a first embodiment of a drain piping member 1 according to the present invention, and FIG. 1 shows a “pipe having an incombustible tube end” and a “flammable tube end”. The drainage piping structure 2 constructed | assembled by providing the member 1 for drainage piping of this 1st Embodiment in the connection part with "it has a pipe material" is shown.

In the drainage piping structure 2 of the illustrated example, the above-mentioned “pipe having an incombustible pipe end” is for a joint penetrating a floor slab 3 provided at each level in a building such as an apartment house or a building. The case where it is the pipe material 4 is shown. That is, the joint pipe 4 is made of cast iron or the like, or has a non-flammability by being formed by a fire-resistant two-layer structure (a pipe structure in which a resin pipe is covered with a refractory material such as mortar). ing.

Further, the above-mentioned “pipe having a combustible pipe end” is a pipe for a joint between upper and lower floor slabs 3 that divide each level of a building in a pipe line 5 connected to each joint pipe 4. The case where it is the straight pipe | tube 6 used in order to connect 4 mutually is shown. The straight pipe 6 is made of a combustible material such as hard vinyl chloride as a raw material, and has combustibility.
In addition, although it is also possible to use a fireproof double-layer pipe including at least a resin pipe as the straight pipe 6, this point will be described later.

The joint pipe 4 is in a penetrating state with respect to a through hole 7 that is vertically penetrated through the floor slab 3, and a mortar or the like is provided between the outer peripheral portion of the joint pipe 4 and the inner peripheral surface of the through hole 7. The non-combustible material 8 is packed and the joint pipe 4 is fixed to the floor slab 3.
The joint pipe 4 is, for example, a drainage collecting pipe, and an upper pipe end portion of the pipe main body 10 is formed as an upper pipe connecting portion 11 and a lower pipe end portion of the pipe main body 10 is a lower pipe connecting portion. 12 and the middle part of the pipe body 10 is a huge part having an inner diameter larger than the inner diameter of the straight pipe 6, and a horizontal pipe connecting part 13 projecting sideways is provided on the side part of the huge part. Yes. The horizontal pipe connecting portion 13 is connected to a horizontal branch pipe 14 in a state where it is positioned at the upper part of the floor slab 3, and the horizontal branch pipe 14 collects drainage from a drainage facility such as a toilet installed on each floor. This is sent to the pipe connection unit 13. Moreover, you may provide the blade | wing body or inclined board which provides a turning force to a waste_water | drain in the enormous part inner surface of a drainage collecting pipe, especially the inclined part inner surface which transfers to the lower connection part 12 from an enormous part.

In addition, the horizontal branch pipe 14 is not limited to one on each floor of the building, and when a plurality of pipes are piped, a drainage collecting pipe (two-way type) provided with a plurality of horizontal pipe connecting portions 13 as the joint pipe 4. , Three-way type or four-way type).
Piping line 5 is not only straight pipe 6, but also other short pipes or bent pipes (including elbows and bends), and sometimes a joint member (when an inspection port is provided in the middle of straight pipes 6 and straight pipes 6 are directly connected to each other) Are used in appropriate combinations and connected.

In addition, there is a case where an extension ventilation pipe connected to the roof of the building is connected to the top of the piping line 5, and a bottom main pipe or an underground buried horizontal main pipe is connected to the bottom of the piping line 5 through a bend. May be connected. When the side branch pipe 14 is connected to the side pipe connecting portion 13 of the joint pipe 4 as described above, the side branch pipe 14 is also included in the piping line 5.
The lower pipe connecting portion 12 of the joint pipe 4 is a mechanical-type receiving port for connecting the upper pipe connecting portion 15 of the straight pipe 6 in an external fitting state, and the upper pipe connecting portion 15 of the straight pipe 6 is an insertion opening. ing.

  Accordingly, a flange 20 is formed on the lower pipe connecting portion 12 of the joint pipe 4 so as to project around the receiving port, and the ring-shaped rubber ring 21 and the panel-like push are overlapped on the lower surface side of the flange 20. A ring 22 is attached, and the flange 20 and the push ring 22 are fastened by a bolt 23 inserted into the bolt through holes 20a, 22a provided therein and a nut 24 screwed into the bolt 23, respectively. Connected.

As the bolt 23 and the nut 24 are tightened, the rubber ring 21 sandwiched between the opening edge of the lower pipe connecting portion (receiving port) 12 and the push ring 22 is compressed in the vertical direction. The rubber ring 21 expands inward in the radial direction along with this compression, and presses the entire circumference of the upper pipe connecting portion (insertion) 15 of the straight pipe 6 to exert a water leakage preventing effect.
The upper pipe connecting portion (insertion) 15 of the straight pipe 6 may not be clearly distinguished from the main pipe portion of the straight pipe 6 from the outside, but the straight pipe 6 is connected to the joint pipe 4. Therefore, a portion where the straight pipe 6 is fitted into the lower pipe connecting portion (receiving port) 12 of the joint pipe material 4 is referred to as an upper pipe connecting portion (inserting port) 15.

  The drain piping member 1 of the first embodiment is provided in a state of serving as a push ring 22 necessary for constituting a mechanical type receiving port at the lower pipe connecting portion 12 of the joint pipe material 4. Yes. This drain pipe member 1 has a member main body 27 formed by a disk-like part that also serves as a push ring 22 and a cylindrical part 26 provided on one side of this, and is a straight pipe (combustible). This is a structure that surrounds the outside of the tube member 6 having a tube end portion. The plate-like portion and the cylindrical portion 26 are integrated with each other.

  Since the member main body 27 has a disk-like part that also serves as the push ring 22, a part into which the bolt 23 can be inserted to fasten the push ring 22 to the flange 20 (part provided with the bolt through hole 22a). Constitutes a connecting means that enables the drain pipe member 1 and the joint pipe member 4 (that is, a pipe member having an incombustible pipe end) to be fixed. Therefore, the member main body 27 of the drain piping member 1 is thus connected to the pipe member having the noncombustible pipe end. In addition, the pipe material having the incombustible pipe end can be made into a fireproof two-layer pipe structure, but in this case, the moisture adsorbed on the outer layer fireproof mortar part of the fireproof two-layer pipe structure expands suddenly in the event of a fire. Since it is impossible to deny the possibility that the drainage pipe member 1 that is cracked and sometimes connected to it is dropped, a pipe material having a non-combustible pipe end is a relatively inexpensive metal having high heat resistance and strength. More preferably, it is made of a pipe material.

  The member main body 27 is made of a metal such as cast iron, steel, iron or the like, or has a non-flammability (characteristic that does not melt or burn at a predetermined temperature) by being formed by a refractory mortar structure. Yes. Further, on the inner peripheral side of the member main body 27, a heat-expandable refractory material 30 that expands at a predetermined temperature is held so as to prevent thermal expansion outward in the radial direction of the pipe and to prevent falling downward in the vertical direction. Has been provided.

  The heat-expandable refractory material 30 is formed of, for example, butyl rubber or urethane rubber containing heat-expandable graphite, and expands when a predetermined temperature (for example, 200 ° C.) is exceeded during a fire or the like. It has the characteristic which reaches 5 to 40 times compared with. For example, the product name “Permoflex (thermally expandable sheet)” manufactured by NICHIAS Corporation (expanded after being heated for 30 minutes at 850 ° C. and expanded four times or more) or Furukawa Techno Co., Ltd. Material name “Heat Mel” (expansion start temperature 120 ° C., remarkable expansion temperature 260 ° C., expands 4 to 8 times) and the like can be used. In addition, the thermally expansible refractory material 30 is not restricted to what was mentioned above, A various other thing can be used.

As described above, the heat-expandable refractory material 30 can use a wide variety of materials having different reaction temperatures and expansion rates, and satisfy various conditions such as a pipe diameter required according to a construction place in the building. You can choose the best one.
As shown in FIGS. 2 and 3, the member main body 27 is provided with a refractory material storage portion 31 formed by recessing the inner peripheral surface of the cylindrical portion 26. A heat-expandable refractory material 30 is stored in the refractory material storage portion 31. The refractory material storage portion 31 is provided so as to project radially inward at both axial sides of the cylindrical portion 26 in the member main body 27 (two positions: a position close to the push wheel 22 and a position far from the push wheel 22). It is demarcated by the inner flange 32 formed. These inner flanges 32 are integrally provided on the member main body 27 by a method selected appropriately, such as casting, cutting, or welding of a separate ring.

  The heat-expandable refractory material 30 is covered and held by the cylindrical portion 26 of the member body 27 so as to prevent the heat-expandable refractory material 30 from thermally expanding outward in the radial direction of the tube. It is supported so as to prevent the heat-expandable refractory material 30 from dropping downward in the vertical direction at room temperature and in the event of fire by a gutter 32 (especially the inner gutter downstream of the drain pipe, in this embodiment, on the opposite side of the flange 22). Is held. Therefore, the member main body 28 holds the thermally expandable refractory material 30 in such a manner as to prevent thermal expansion outward in the radial direction of the tube and to prevent separation downward in the vertical direction. The means for holding the heat-expandable refractory material 30 so as to prevent thermal expansion outward in the tube radial direction is not limited to the cylindrical portion 26. It is good also as a lattice-like wall body or a polygonal cylinder. In addition, the means for holding the thermally expandable refractory material 30 so as to prevent its downward drop in the vertical direction is not limited to the inner casing 32, and for example, instead of the inner casing 32, heat is supplied to the fireproof storage section 31. Means for bonding and fixing the expandable refractory material 30; means for engaging the heat expandable refractory material 30 with a protrusion formed on the inner wall of the cylindrical portion 26; or an annular spring wire having a radially outward biasing force. A means provided on the inner peripheral portion of the thermally expandable refractory material 30 and pressing the thermally expandable refractory material 30 toward the cylindrical portion 26 may be used.

By providing such a refractory material storage portion 31, the thermally expandable refractory material 30 is positioned, and it is possible to prevent the displacement. Further, the provision of the inner flange 32 can prevent leakage in the direction along the outer peripheral surface of the straight pipe 6 when the thermally expandable refractory material 30 starts to expand.
It is assumed that the volume of the refractory material storage portion 31, that is, the shape and volume of the thermally expandable refractory material 30 stored in the refractory material storage portion 31, does not interfere with the insertion of the straight pipe 6 in a state before thermal expansion occurs. In addition, when the thermally expandable refractory material 30 undergoes thermal expansion, the inside of the member main body 27 of the drain piping member 1 (the space in which the straight pipe 6 is inserted) can be reliably closed. Set to be scheduled.

  The heat-expandable refractory material 30 is a material that is kneaded and integrated with a material (for example, a material used for the rubber ring 21) that produces appropriate elasticity when it is below a predetermined temperature, and is formed into a ring shape or a cylindrical shape. Can be stored easily if it is folded inward in the radial direction by elastic deformation and fitted into the refractory material storage portion 31 and then restored to its original shape in the refractory material storage portion 31. it can.

The above-described method for providing the heat-expandable refractory material 30 is an example, and the present invention is not limited thereto. For example, a soft material that is the basis of the heat-expandable refractory material 30 is poured into the refractory material storage portion 31. It is also effective to perform a vulcanization process afterwards and integrally fix the thermally expandable refractory material 30 in the refractory material storage section 31.
The drainage pipe structure 2 constructed using such a drainage pipe member 1 prevents the spread of fire to the upper floor as follows.

  When a fire or the like occurs in a building such as an apartment house or a building, the straight pipe 6 (that is, the pipe material having the flammable pipe end) at the position where the thermally expandable refractory material 30 is provided is melted or burned out. The expandable refractory material 30 starts expanding when it exceeds a predetermined temperature (for example, 200 ° C.). The thermally expandable refractory material 30 that expands is a flow path in the member body 27 of the drain pipe member 1 (a space in which the straight pipe 6 is inserted) or the end of the combustible pipe of the straight pipe 6 while crushing the straight pipe 6. The internal flow path of the resin pipe is closed or its area is reduced. As a result, the flow path leading to the upper floor of the joint pipe 4 is blocked at the position where the thermally expandable refractory material 30 is provided, and flame, smoke, toxic gas, etc. stand on the upper floor via the joint pipe 4. It is prevented from rising.

Further, since the joint pipe 4 is nonflammable, it does not melt or burn, and the through-hole 7 formed in the floor slab 3 is kept closed by the joint pipe 4 and the nonflammable material 8 such as mortar. .
In this way, the outflow of flame, smoke, toxic gas, etc. from the floor where the fire occurred to the upper floor caused by melting and burning of the drainage pipe structure 2 is prevented. In response to a fire that has occurred on the floor slab 3, the phenomenon of sucking fresh air from below the floor slab 3 is prevented, and there is an effect that the expansion of the fire can be suppressed to a minimum.

  Further, since the flame does not reach the side branch pipe 14 connected to the side pipe connecting portion 13 of the joint pipe material 4, a predetermined distance (eg, the joint pipe material (for example, drainage collecting pipe) 4) in the side branch pipe 14. It is not necessary to perform non-combustion treatment on the portion within the radius 1 m). That is, a flammable resin tube (bare tube state or a resin tube whose outer surface is covered with a flammable layer) can be used as the side branch tube 14, and a nonflammable tube such as a refractory double-layer tube or a metal tube can be used. Since it is not necessary to employ, piping can be performed at low cost, and at the same time, the workability can be improved and the construction period can be shortened.

Since the drain pipe member 1 also serves as the push ring 22, the drain pipe structure can be easily formed by simply replacing the push ring with respect to a ready-made drain collecting pipe or joint pipe having a mechanical type receiving port. There is an advantage that you can.
By the way, a fireproof two-layer pipe including at least a resin pipe can be used as the straight pipe 6 in the drainage pipe structure 2. As shown in FIG. 4, when a fireproof double-layer pipe is used as the straight pipe 6, the upper pipe connecting portion (insertion) 15 (the portion fitted into the lower pipe connecting portion (receiving port) 12 of the joint pipe 4). The refractory coating layer 6 </ b> A such as mortar is removed, and the exposed inner resin pipe 6 </ b> B is fitted into the lower pipe connection portion 12 of the joint pipe 4 to be connected to the joint pipe 4.

Even when a fireproof double-layer pipe is used as the straight pipe 6 as described above, the joint pipe 4 that is a “pipe having an incombustible pipe end” and the straight pipe 6 that is a “pipe having a combustible pipe end”. And are connected.
[Second Embodiment]
5 and 6 show a second embodiment of the drain piping member 1. In the drain piping member 1 of the second embodiment, the member main body 2 is produced by connecting a disk-shaped part that also serves as a push ring 22 and a cylindrical part 26 provided on one side of the member main body 2 separately. It is formed. As the push ring 22, what is conventionally provided as an accessory part of the joint pipe 4 can be used as it is.

A flange 35 is formed on the cylindrical portion 26 so as to overlap with one surface of the push ring 22 (an annular surface on the side opposite to pushing the rubber ring 21). A bolt through hole 35a for inserting a fastening bolt 23 between the flange 20 and the push ring 22 is provided.
That is, the bolt 23 inserted into the push ring 22 from the flange 20 side is passed through the bolt through hole 35a, and the nut 24 is screwed into the bolt 23 protruding from the bolt through hole 35a to connect the cylindrical portion 26 to the push ring 22. The member main body 27 is formed.

Except for the point that the disk-like part that also serves as the push wheel 22 and the cylindrical part 26 are separate, the other configuration, detailed structure, material, operational effect, and the like are substantially the same as those in the first embodiment.
In addition, since the inner diameter of the push ring 22 is inevitably smaller than the inner diameter of the refractory material storage portion 31 provided in the cylindrical portion 26, the inner peripheral surface of the push ring 22 can act as the inner collar 32, The refractory material storage part 31 can be opened with the same inner diameter at the end face of the cylindrical portion 26 on the side in contact with the push wheel 22.

Therefore, in this 2nd Embodiment, as shown in FIG.7 and FIG.8, it can form as what the thermally expansible fireproof material 30 was coat | covered with the water-resistant exterior material 36. FIG.
The exterior material 36 is provided with an inner peripheral portion 38 so as to form a central through-opening 37 with a resin such as vinyl chloride, and an outer peripheral portion 39 to form a case structure, or as a film, a coating film, a coating film, or the like Can be formed.

By adopting such a covering structure, it is preferable that the thermally expandable refractory material can be provided with waterproof and deterioration resistant functions (deterioration resistance).
By the way, in the member main body 27 employed in the second embodiment, the flange 35 provided on the cylindrical portion 26 is formed in an overhanging shape similar to the planar shape (a rice ball shape) of the push ring 22 as shown in FIG. As shown in FIG. 10, it may be formed in an annular shape. Moreover, as shown in FIG. 11, the flange 35 protruding as a whole may be omitted by providing a bracket 40 in which a bolt through hole 35a for inserting the fastening bolt 23 is formed at a predetermined location. The member main body 27 provided with these brackets 40 can be attached by welding, but a method of integrally molding with a press may be used.
[Third Embodiment]
FIGS. 13 to 15 show a third embodiment of the drain piping member 1, and FIG. 12 shows a drain piping structure 2 constructed by adopting the drain piping member 1 of the third embodiment. Yes.

  In the drain piping member 1 according to the third embodiment, the peripheral wall 45 is provided in a state where it rises all around the outer peripheral portion of the disc-like portion that also serves as the push ring 22, and the member main body 27 is formed thereby. Yes. That is, the refractory material storage portion 31 is formed on the upper surface of the push ring 22 and surrounded by the peripheral wall 45, and the thermally expandable refractory material 30 is stored in the refractory material storage portion 31. Yes.

In the drainage pipe structure 2 constructed using the drainpipe member 1 of the third embodiment, the straight pipe 6 at the position where the thermally expandable refractory material 30 is provided is melted or burned, and together. The rubber ring 21 is also melted or burned, so that the thermally expandable refractory material 30 provided in the drain pipe member 1 is exposed to an environment exceeding a predetermined temperature (for example, 200 ° C.).
The heat-expandable refractory material 30 serves as a backup for the peripheral wall 45 and expands radially inward between the flange 20 and the push ring 22 of the joint pipe 4. As a result, the straight pipe 6 is crushed for drainage piping. The inside of the member main body 27 of the member 1 (the space in which the straight pipe 6 is inserted) is closed.

Since the drain pipe member 1 of the third embodiment also serves as the push ring 22, it is natural that the push ring of the pre-made drainage collecting pipe and the joint pipe having the mechanical type receiving port is provided. There is an advantage that the present invention can be implemented simply by replacement.
[First Reference Form]
FIG. 17 shows a first reference embodiment of the drain pipe member 1, 16 is a view of the drain pipe structure 2 was constructed employing the drain pipe member 1 of the first reference embodiment.

In the drain piping member 1 of the first reference embodiment, the member main body covers the connecting portion between the “pipe having an incombustible tube end” and the “pipe having an inflammable tube end” as a whole. 27 is formed in a cylindrical shape. The “pipe having an incombustible pipe end” is the joint pipe 4 and the “pipe having a combustible pipe end” is the straight pipe 6 as in the above embodiments.

The member main body 27 has a pair of cylindrical halves 27A and 27B that are formed by dividing the cylindrical shape in the axial direction. These cylindrical halves 27A and 27B are formed, for example, by sheet metal pressing or the like, and have nonflammability.
The cylindrical halves 27A and 27B are joined in a state in which the connection portions between the lower pipe connecting portion 12 of the joint pipe 4 and the upper pipe connecting portion 15 of the straight pipe 6 are held from both sides. The cylindrical halves 27A and 27B are provided with joint flanges 47A and 47B projecting outward at positions opposite to the outer peripheral surfaces that are abutted during the joining.

The joint flange 47B of the cylindrical half body 27B is provided with a round hole 49 so that the insertion state of the joint bolt 48 can be positioned. The joint flange 47A of the cylindrical half body 27A is inserted with the joint bolt 48. An elongated bolt through hole 50 is provided so as to allow play.
Accordingly, the cylindrical halves 27A and 27B are configured such that the joining flanges 47A and 47B overlap each other, the joining bolt 48 is inserted into the bolt through holes 49 and 50, and the nut 51 is screwed into the protruding portion of the joining bolt 48. As a result, the cylindrical shape as the member main body 27 is held.

In the member main body 27, the heat-expandable refractory material 30 is accommodated along the inner peripheral surfaces of the cylindrical halves 27A and 27B. That is, the inside of the member main body 27 serves as a refractory material storage portion 31 for storing the thermally expandable refractory material 30.
The cylindrical halves 27A and 27B are further formed with inner flanges 52A and 52B for forming annular lids on both upper and lower sides when the cylindrical shape as the member main body 27 is formed. The annular lid formed by these inner flanges 52 </ b> A and 52 </ b> B has an inner peripheral edge that is in contact with or close to the outer peripheral surface of the joint pipe 4 and the outer peripheral surface of the straight pipe 6.

  Therefore, when the thermally expandable refractory material 30 starts to expand, these annular lids leak out the thermally expandable refractory material 30 in the direction along the outer peripheral surface of the joint tube 4 or the outer peripheral surface of the straight tube 6. The effect | action which can prevent is obtained. In addition, an annular lid (the upper side in FIG. 16) that is in contact with or close to the outer peripheral surface of the joint tube 4 causes the straight pipe 6 to fall out due to melting or burning. Even in this case, the drain piping member 1 is useful for locking the joint member 1 to the joint pipe member 4 side so as not to be dropped.

The drain piping member 1 according to the first embodiment has an advantage that it can be easily added to the existing drain piping structure in the building by subsequent construction.
The member main body 27 may have a structure in which a separation part is provided only at one place in the circumferential direction and the separation part is joined by a joining flange in addition to a structure that is divided in half as the cylindrical halves 27A and 27B. Shaped structure). The member body 27 may be a rectangular tube.
[ Fourth Embodiment]
FIG. 18 shows a fourth embodiment of the drain piping member 1. The drain piping member 1 of the fourth embodiment is a mechanical type provided at both ends of a joint member 55 used when an inspection port is provided in the middle of the straight pipe 6 or when the straight pipes 6 are directly connected to each other. This is an example in which the push ring 22 described in the first embodiment (the drain piping member 1 according to the present invention) is employed as the push ring provided as the receiving port 56.

In addition, although the drain piping member 1 is employ | adopted for the receiving port 56 of both sides in the example of a figure, it is good also as only one.
[Others]
The present invention is not limited to the above-described embodiments, and can be appropriately changed according to the embodiments.

When the joint pipe 4 as the “pipe having an incombustible pipe end” is a fireproof two-layer drainage collecting pipe, the lower pipe connecting portion 12 may be formed as a receiving port. In such a case as well, as shown in FIGS. 19 and 20, a pair of cylindrical halves as shown in FIGS. 19 and 20, as in the case of the first reference embodiment (see FIGS. 16 and 17). A member body 27 having 27A and 27B may be employed.

It should be noted that the heat-expandable refractory material 30 provided so as to be along the inner peripheral surfaces of the cylindrical halves 27A and 27B only needs to be an area surrounding the straight pipe 6 as "a pipe material having a combustible pipe end". is there.
Inner flanges 52A and 52B formed on the upper peripheral edge portions of the cylindrical halves 27A and 27B are formed in a tapered shape that widens toward the end in accordance with the umbrella-shaped step portion formed in the lower pipe connecting portion 12 of the joint pipe 4. If this is done, the contact and stability of the entire circumference of the joint pipe 4 with respect to the outer peripheral surface can be improved, which is more preferable. Further, by providing the inner flanges 52A and 52B at the peripheral edge of the lower end, it is possible to prevent the thermally expandable refractory material 30 from dropping off together with the combustible tube material.

  As shown in FIGS. 19 and 21, when a drainage collecting pipe made of a refractory double-layer pipe is used as a pipe material having an incombustible pipe end, a resin pipe 57 such as a vinyl chloride pipe on the inner peripheral surface burns. By doing so, there is a risk that the flame propagates along the inner surface and the inside of the pipe spreads. Even if the heat-expandable refractory material 30 is provided, if the flame expands before the heat-expandable refractory material 30 expands and sufficiently blocks the inside of the drain pipe, it is not possible to block the spread of fire. Therefore, for the purpose of enhancing the fire spread prevention effect, as shown in FIG. 21, a part of the resin portion on the inner peripheral surface of the outer pipe (fireproof pipe 58) of the joint pipe 4 is removed or covered from a nonflammable material. It is preferable to provide a tubular fire spread prevention portion 53.

The fire spread prevention part 53 may be made of metal or an inorganic substance such as mortar ceramic. Moreover, what is necessary is just to set thickness and length suitably according to the scale of a drain pipe.
The heat-expandable refractory material 30 does not continuously circulate in the circumferential direction of the drain piping member 1 but is scattered in the circumferential direction, divided in the circumferential direction, or divided in the circumferential direction. You may provide in the state which left the space | interval of the division | segmentation piece, the state divided into multiple in the axial direction, the state divided into multiple in the axial direction, the space | interval of the division | segmentation piece, and those combined.

The place where the drain pipe member 1 including the thermally expandable refractory material 30 and the thermally expandable refractory material is installed is most effective at the lower pipe connecting portion 12 on the lower side of the floor slab 3, but the straight on the upper portion of the floor slab 3. It may be the upper pipe connecting part 11 to which the pipe 6 is connected, or the horizontal pipe connecting part 13 to which the side branch pipe 14 is connected or the side branch pipe line part.
Moreover, the same effect is acquired also by using the member 1 for drainage piping in the location which penetrates a fire wall. Therefore, as shown in FIG. 22, when the function of joining the drainage is not required, the drainage collecting pipe is not used, and the flammable piping member 54 such as a hard vinyl chloride resin pipe is surrounded. The member body 27B may be attached to the lower surface of the floor slab 3. That is, a member main body 27B fixed directly to the lower surface of the floor slab 3 with bolts 55, 55 is installed around the resin pipe 54 penetrating the floor slab 3, and the thermally expandable refractory material 30 provided therein. Expands due to heat at the time of the fire, and the resin tube 54 is blocked, thereby preventing the spread of fire. Also in this case, since the thermally expandable refractory material 30 is covered with the lower surface of the floor slab 3 and the periphery and the lower portion are covered with the member main body 27B, the thermally expandable refractory material 30 expands radially inward, and the tube of the resin tube 54 The path is blocked and the thermally expandable refractory material 30 does not fall off. The example shown in FIG. 22 is described as a reference example.

  As shown in FIG. 23, by using a tube material having a nonflammable tube end and / or a tube material having a flammable tube end and a covering material 56 having a sound insulation effect, for example, a material coated with glass fiber or the like. Noise flowing through the drain pipe can be reduced. The pipe material to be used may be one in which the covering material 56 is already fixed. However, after installation, a sheet having sound insulation properties may be wound without any gaps including the joint portion of each pipe material. In addition to winding in close contact with the tube material, the sheet may be wound with an air gap inside the sheet. In addition to the method of wrapping the sound insulating sheet around the pipe material, the sound insulating sheet may be attached to the pipe by using a method of bonding with a hook-and-loop fastener or a double-sided tape.

INDUSTRIAL APPLICATION This invention can be utilized for the drainage piping structure which collects the waste_water | drain which generate | occur | produces on each floor in a high-rise apartment or an office building, and sends it out to a lower floor.

It is the side view which showed the drain piping structure constructed | adopted using the member for drain piping (FIG. 2) of 1st Embodiment. It is the sectional side view which showed 1st Embodiment of the member for drain piping which concerns on this invention. It is a sectional side view explaining the situation which accommodates a thermally expansible refractory material about the member for drain piping of a 1st embodiment. It is the partially fractured side view which showed the condition which used the fireproof double layer pipe for the straight pipe in the drain piping structure of FIG. It is the side view which decomposed | disassembled and showed the construction condition of the drain piping structure using 2nd Embodiment of the member for drain piping which concerns on this invention. It is a sectional side view explaining the situation where a thermally expansible fireproof material is stored about the member for drain piping of a 2nd embodiment. It is the plane sectional view showing the embodiment by which the thermal expansion refractory material was covered with the exterior material. It is the sectional side view which showed embodiment with which the thermally expansible refractory material was coat | covered with the exterior material. It is the perspective view which showed the member main body employ | adopted by 2nd Embodiment. It is the perspective view which showed another embodiment of the member main body employable by 2nd Embodiment. It is the perspective view which showed another embodiment of the member main body employable in 2nd Embodiment. It is the partial crushing side view showing the drain piping structure constructed by adopting the drain piping member of the third embodiment. It is the side view which decomposed | disassembled and showed the construction condition of the drain piping structure using 3rd Embodiment of the member for drain piping which concerns on this invention. It is the perspective view which decomposed | disassembled and showed the member for drain piping of 3rd Embodiment. It is the perspective view which showed the member for drain piping of 3rd Embodiment. It is the partial crushing side view showing the drain piping structure constructed by adopting the drain piping member of the first reference form. It is the disassembled perspective view which showed the member main body used by the 1st reference form. It is the side view which showed 4th Embodiment of the member for drain piping which concerns on this invention. FIG. 17 is a side cross-sectional view illustrating another embodiment of the first reference embodiment so as to be easily compared with FIG. 16. FIG. 18 is an exploded perspective view illustrating another embodiment of the first reference embodiment so as to be easily compared with FIG. 17. It is the sectional side view which showed another reference form of the 1st reference form using the thing containing a fire prevention pipe for the drainage collecting pipe of a fireproof two-layer structure. It is sectional drawing which installed the nonflammable member which accommodated the thermally expansible refractory material in the slab lower surface. It is the side view which showed the drain piping structure which installed the sound insulation material in the piping member.

DESCRIPTION OF SYMBOLS 1 Drainage pipe member 2 Drainage pipe structure 3 Floor slab 4 Fitting pipe material (pipe material having nonflammable pipe end)
5 Piping line 6 Straight pipe (tube material with flammable pipe end)
21 Rubber ring 22a Bolt hole (connecting means)
27 Member Main Body 30 Thermally Expandable Refractory Material 31 Refractory Material Storage Unit 36 Exterior Material 56 Sound Insulation Material

Claims (9)

A drainage piping member attached to a portion where a pipe having an incombustible pipe end and a pipe having a combustible pipe end are connected,
The end of the non-combustible tube to be attached is
A rubber ring that is formed as a receiving port to which a pipe member having a combustible tube end portion can be connected in an external fitting state, and an opening edge portion of the receiving port is externally fitted to the tube material having the combustible tube end portion. Can be pressed,
A non- flammable member body that includes a connecting means that enables fixing to a pipe material having the non- combustible tube end and can surround the outside of the combustible tube end;
It said member main body is capable of accommodating the thermal expansion of the refractory material which expands at a predetermined temperature on the inner circumference side of that,
The drainage piping member , wherein the connecting means is a push ring for pressing the rubber ring against the opening edge of the receiving port . In the member body ,
The member for drainage piping according to claim 1, wherein a refractory material storage portion capable of storing the thermally expandable refractory material therein is provided . The member body is
According to claim 1 or 2, characterized in that respectively provided partial and provided portion of the refractory material accommodating portion of said coupling means is engageable with each other are formed separately Drainage piping parts. The connecting means is formed of a bracket or a flange protruding outward instead of the push ring,
The drainage piping member according to claim 1 or 2 , wherein the bracket or the flange can be attached to a push ring through which the end of the combustible tube can be inserted by a bolt . The member for drainage piping according to any one of claims 1 to 4, wherein a thermally expandable refractory material is provided on an inner peripheral side of the member main body. The inner wall of the member main body is provided with an inner flange projecting radially inward to prevent movement of the thermally expandable refractory material to a side opposite to a direction in which the connecting means presses. Item 6. The drain piping member according to Item 5 . A pipe having an incombustible pipe end, a pipe having a combustible pipe end, and a member for drainage piping;
The incombustible tube end is
A tube material having a combustible tube end portion is fitted into the tube member and connected to the tube material, and an opening edge portion of the receiving port is externally fitted to the tube material having the combustible tube end portion. Pressing the rubber ring,
The drain pipe member is
A non-combustible member body provided with a connecting means for fixing to the pipe member having the non-combustible tube end and surrounding the outside of the combustible tube end;
The member body contains a thermally expandable refractory material that expands at a predetermined temperature on the inner peripheral side thereof,
It said connecting means, wastewater piping structure you being a press wheel that presses the rubber ring to the opening edge of the receptacle. The drain pipe member is
The connecting means is formed of a bracket or a flange protruding outward instead of the push ring,
The drain piping structure according to claim 7, wherein the bracket or the flange is attached to a push ring that is inserted through the end of the combustible pipe by a bolt . The drain pipe member is
Claims wherein the member body, the connecting means, characterized in that for inhibiting movement of said thermally expandable fireproof material to the opposite side of the direction of pressing, the flange inner projecting radially inwardly provided Item 9. The drain piping structure according to Item 8 .