JP2006181504A - Sanitization facility - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sanitization facility which has an excellent deodorizing function and can independently be constructed inconspicuously, whose construction work can be done efficiently and whose maintenance cost can be reduced. <P>SOLUTION: The sanitization facility comprises a septic tank 2 and a deodorization unit 1. The septic tank 2 has a vent 23 and is buried in the ground. The deodorization unit 1 has a ventilation pipe 10, comprises a packing material 15 and is also buried in the ground. The ventilation pipe 10 has a porous structure and one end 101 of the ventilation pipe is connected to the vent 23 of the septic tank 2. The packing material 15 is granular. The ventilation pipe 10 is also buried in the ground and the packing material 15 is arranged around the ventilation pipe 10. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a purification facility, and more specifically to a purification facility having a purification tank and a purification tank deodorizer.

  Currently, in order to ensure a sound water circulation function in the natural environment, installation of septic tanks for general households is widely promoted. Usually, this type of septic tank is an aerobic treatment that purifies wastewater, household wastewater such as kitchen wastewater and laundry wastewater (hereinafter referred to as sewage) using a biological method using aerobic microorganisms. Has a tank. When the septic tank has an aerobic treatment tank, the septic tank includes a blower such as an air compressor (hereinafter referred to as a blower), and the air is fed into the aerobic treatment tank using the blower, whereby the activity of the aerobic microorganisms is increased. And agitation of sludge and the like.

  On the other hand, in the septic tank, odors such as methane gas, ammonia, and hydrogen sulfide are generated with the decomposition of organic substances contained in the sewage. Since the septic tank generally has a sealed structure, when the air pressure inside the septic tank increases due to the drive of the blower, odor leaks to the outside from the lid and the connecting part of the piping, etc., and the odor from the building owner and neighboring residents This creates a problem with frequent claims. Therefore, in this type of septic tank, an important technical issue is how to let the air in the septic tank escape to the outside while avoiding the danger of odor complaints.

  As a countermeasure against the above-mentioned odor complaints, the conventional purification equipment has an odor dip tube installed at a high place, and air in the septic tank is diffused into the atmosphere from the odor dip tube. In the general construction of the odor stack, first the odor stack connected to the septic tank is set up on the roof. Next, fix the stink tube to the outer wall surface of the house with a stopper, and extend the exhaust port provided at the longitudinal end of the stink tube to the height near the roof of the house to dissipate the air from here. Let Moreover, in patent document 1, the septic tank diffused air to the side groove via the exhaust pipe.

  However, none of the above-described conventional techniques has a deodorizing function, and the air diffused into the atmosphere still has an odor, and is not a fundamental countermeasure against odor. As a result, exhaust outlets had to be installed in consideration of the layout of construction houses, the layout of neighboring houses, the direction of the wind, and even the traffic, which caused problems in terms of poor construction efficiency.

  In addition, when the start-up work of the odor scent tube is performed on a new building, there arises a disadvantage that the septic tank and the scent stub tube work by the water supply company and the facilities and scaffolding of the house builder are shared.

  On the other hand, when the construction of the stink tube is performed on an existing building, there is a disadvantage that the installation location is restricted by the structure of the rain gutter or the roof.

  In addition, at present, the odor-pumps tend to be postponed because they are misunderstood, such as being misunderstood as a flushing toilet, and there is a need for countermeasures against odors in septic tanks that meet the needs of building owners. is there.

  With respect to the above-described prior art, as shown in Patent Documents 2 to 4, a configuration in which a deodorizing device is provided at the exhaust pipe and an exhaust pipe as an odor countermeasure has been devised.

  However, as shown in Patent Documents 2 to 4, when the purification facility is equipped with a mechanically advanced deodorizing device, the deodorizing device requires a power source such as a power source, and as a result, the installation location is restricted. There was a problem with poor construction efficiency.

  In addition, if the purification facility is equipped with a mechanically advanced deodorization device, the deodorization device will be at risk of failure, so that it is not suitable for purification facilities buried on the premise of long-term use, and There is a problem in that consumers are forced to perform regular maintenance.

Furthermore, the purification facilities shown in Patent Documents 2 and 3 still cannot solve the problem of the bad appearance of the odor tube itself.
Japanese Patent Laid-Open No. 2003-062588 Japanese Patent Laid-Open No. 10-180032 Japanese Patent No. 2945554 Japanese Patent Laid-Open No. 06-126125

  The subject of this invention is providing the purification equipment which has the outstanding deodorizing function.

  Another object of the present invention is to provide a purification facility that can be constructed inconspicuously and can be constructed independently.

  Yet another object of the present invention is to provide a purification facility capable of efficiently performing construction work and reducing maintenance costs.

  In order to solve the above-described problems, a purification facility according to the present invention includes a septic tank and a deodorizing device. The septic tank has an exhaust port and is buried in the ground. The deodorizing apparatus has a vent pipe and a filler, and is buried in the ground. The vent pipe is porous and has one end connected to the exhaust port of the septic tank. The filler is granular. The vent pipe is buried in the ground, and a filler is disposed around it.

  As described above, the purification facility includes a septic tank and a deodorizing device. The septic tank has an exhaust port and is buried in the ground. Since the deodorizing apparatus has a vent pipe, and one end of the vent pipe is connected to the exhaust port of the septic tank, the air in the septic tank can be sent to the outside through the vent pipe, and the air pressure in the septic tank can be kept constant. .

  Since the deodorizing device is buried in the ground, it can be executed together with the installation of the septic tank and can be constructed alone. Therefore, construction work can be performed efficiently. Further, since the ventilation pipe is buried in the ground, it is possible to perform an inconspicuous construction.

  Since the air pipe is porous and buried in the ground, the aerobic microorganisms in the ground can be guided into the inside of the air pipe. Therefore, the deodorizing apparatus can deodorize the odor components in the air flowing in the inside of the vent pipe by using a biological method using an aerobic microorganism.

  Furthermore, the deodorizing device has a filler. The filler is granular and is arranged around the vent pipe. That is, the deodorizing apparatus has an underground space formed by the filler around the ventilation pipe. As described above, since the vent pipe is porous, the air sent from the septic tank can be diffused between the above-described hollows.

  Since the deodorizing device has an underground space formed by a filler around the ventilation pipe, it is dissipated between the ventilation pipe and the ground by a biological method using aerobic microorganisms in the ground. The odor component contained in the air can be deodorized in the ground.

  As described above, the deodorization device is embedded in the ground and deodorizes using a biological method using aerobic microorganisms in the ground, so no power source is required and construction work is efficient. Can be done automatically.

  Similarly, since the deodorizing apparatus is buried in the ground and performs a deodorizing process using a biological method using aerobic microorganisms in the ground, there is no risk of failure. Therefore, the maintenance cost can be reduced, and it can be used stably over a long period of time.

  Furthermore, since the ventilation pipe is buried in the ground and fillers are arranged around it, it is possible to easily adjust the deodorizing function of the deodorizing device by forming a deodorizing space corresponding to the scale of the septic tank. it can.

  In a preferred embodiment of the present invention, according to the configuration in which the filler is zeolite, deodorizing treatment using a biological method can be performed, and deodorizing treatment can be performed using the deodorizing effect of the filler itself. it can. Therefore, the deodorizing apparatus can exhibit an excellent deodorizing effect.

  Other objects, configurations and advantages of the present invention will be described in more detail with reference to the accompanying drawings. The accompanying drawings are merely examples.

As described above, according to the present invention, the following effects can be obtained.
(1) A purification facility having an excellent deodorizing function can be provided.
(2) It is possible to provide a purification facility that can be constructed inconspicuously and can be constructed independently.
(3) It is possible to provide a purification facility capable of efficiently performing construction work and reducing maintenance costs.

  FIG. 1 is an end view of a purification facility according to an embodiment of the present invention, and FIG. 2 is an enlarged end view of a part of the purification facility shown in FIG. Referring to FIGS. 1 and 2, a purification facility according to an embodiment of the present invention includes a deodorizing device 1 and a septic tank 2.

  The septic tank 2 includes a base concrete 21, a treatment tank 22, and an exhaust port 23, and is buried in the ground. Referring to FIG. 1, the treatment tank 22 is buried in the ground and stably disposed on the base concrete 21. The treatment tank 22 preferably includes an aerobic treatment tank (not shown) inside, and a lid portion 24 is provided on the ground surface G. The exhaust port 23 has a tubular shape, and one end is connected to the inside of the processing tank 22 in a ventilation manner, and the other end is connected to the ventilation pipe 10 in a ventilation manner through a first rod 13 described later. .

  The deodorizing apparatus 1 has a vent pipe 10, a first ridge 13, a second ridge 14, and a filler 15, and is buried in the ground. The symbol G indicates the ground surface.

  The vent pipe 10 is porous. The vent pipe 10 shown in FIG. 2 is a so-called net pipe, preferably made of a synthetic resin material such as polyethylene (PE), polypropylene (PP), vinyl chloride resin (PVC), and the like, from the outer surface to the inner surface. A plurality of through-hole portions 11 penetrating through are provided.

  The ventilation pipe 10 is buried in the ground, and a filler 15 is disposed around it. The filler 15 is preferably configured using a material having a deodorizing effect such as zeolite.

  The filler 15 shown in FIGS. 1 and 2 is preferably granular or crushed, and an underground space 100 is formed between adjacent fillers 15. Although shown in a simplified manner in FIGS. 1 and 2, the filler 15 preferably forms a plurality of layers having different particle sizes in the underground space 100. The particle size of the filler 15 is set so as to increase as it approaches the vent pipe 10.

  One end 101 of the ventilation pipe 10 is connected to the septic tank 2 through the first tub 13 and the other end 102 is connected to the second tub 14 in an aeration manner.

  More specifically, the first ridge 13 is preferably made of a synthetic resin material such as polyethylene (PE), polypropylene (PP), or vinyl chloride resin (PVC), and has an internal space 130 (see FIG. 3) and a lid. Part 131, first connection hole 132, and second connection hole 133.

  The lid 131 is provided exposed on the ground surface G, and can be used as an inspection port for the internal space 130. The first connection hole 132 penetrates the internal space 130. One end 101 of the vent pipe 10 is connected to the first connection hole 132, and the internal space 130 and the vent pipe 10 are connected in a breathable manner. The second connection hole 133 passes through the internal space 130. The exhaust port 23 of the septic tank 2 is connected to the second connection hole 133, and the internal space 130 and the septic tank 2 are connected in an air-permeable manner.

  Similarly, the second ridge 14 is preferably made of a synthetic resin material such as polyethylene (PE), polypropylene (PP), or vinyl chloride resin (PVC), and has an internal space 140 (see FIG. 3), a lid 141, The first connection hole 142 is provided. The lid part 141 is provided exposed to the ground surface G, and can be used as an inspection port for the internal space 140. The first connection hole 142 passes through the internal space 140. The other end 102 of the vent pipe 10 is connected to the first connection hole 142, and the internal space 140 and the vent pipe 10 are connected in a breathable manner.

  As described above, one end 101 of the vent pipe 10 is connected to the first connection hole 132 and the exhaust port 23 of the septic tank 2 is connected to the second connection hole 133, so The vent pipe 10 and the septic tank 2 are connected to each other through 130. Further, the second rod 14 is connected to the first connection hole 142 at the other end 102 of the vent pipe 10, and the internal space 140 is connected to the first rod 13 and the septic tank 2 via the vent tube 10. Connect the air vents.

  The deodorizing device 1 includes a protective layer 3. The protective layer 3 is preferably a non-woven fabric and has air permeability. The protective layer 3 shown in FIGS. 1 and 2 is provided on the upper portion of the vent pipe 10 and the filler 15, and foreign matters such as earth and sand and dust enter the vent pipe 10, the filler 15, and the underground space 100. To prevent.

  The effect of the deodorizing apparatus 1 provided in the purification equipment shown in FIGS. 1 and 2 will be further described with reference to FIGS. 3 and 4. FIG. 3 is an end view showing a usage mode of the deodorizing apparatus 1 shown in FIGS. 1 and 2, and FIG. 4 is an end view showing a part of the usage mode of the deodorizing apparatus 1 shown in FIG.

  As shown in FIG. 3, the one end 101 of the vent pipe 10 is connected to the first connection hole 132 and is connected to the exhaust port 23 of the septic tank 2 through the first rod 13 in an aeration manner. The air inside the septic tank 2 can be sent in the direction indicated by the arrow M1, and the air pressure inside the septic tank 2 can be kept constant. Therefore, even if the air pressure inside the processing tank 22 increases due to the drive of the blower, the septic tank 2 prevents the odor inside the processing tank 22 from leaking to the outside from the lid portion 24, the connecting portion of the piping, or the like. it can.

  On the other hand, since the other end 102 of the vent pipe 10 is connected to the second flange 14 in an air-permeable manner, the air sent from the directions of the arrows M1 and M2 smoothly flows in the direction indicated by the arrow M3. Can do. That is, the deodorizing apparatus 1 has the structure having the second ridge 14, and the internal space 140 in which the air sent from the direction of the arrow M1 and the arrow M2 flows in the direction of the arrow M3 to the other end 102 side of the vent pipe 10 is provided. Since air is provided, air can flow smoothly.

  Since the vent pipe 10 is porous and buried in the ground, the aerobic microorganisms in the ground can be guided to the inside of the vent pipe 10 indicated by an arrow M20. Accordingly, the deodorizing apparatus 1 can deodorize the odor components in the air flowing in the direction of the arrow M2 in the ground by using a biological method using aerobic microorganisms in the ground. it can. Therefore, according to the deodorizing apparatus 1 which concerns on one Embodiment of this invention, the odor complaint from a building owner and a neighboring inhabitant can be prevented.

  On the other hand, the deodorizing apparatus 1 has a filler 15. The filler 15 is disposed around the vent pipe 10 embedded in the ground. That is, the deodorizing apparatus 1 has an underground space 100 around the ventilation pipe 10. Since the ventilation pipe 10 is porous, the air sent from the septic tank 2 in the direction of the arrow M2 can flow in the direction of the arrow M20 through the through-hole portion 11, and can be diffused into the underground space 100. In addition, since the filler 15 is preferably granular or crushed stone, the underground space 100 with good air permeability can be formed in the ground.

  As described above, since the deodorizing apparatus 1 has the underground space 100 that is a breeding space for aerobic microorganisms around the ventilation pipe 10, the deodorizing device 1 in the air diffused from the underground space 100 in the direction of the arrow M20. Odor can be deodorized in the ground by biological methods. Therefore, the deodorizing apparatus 1 can prevent odor complaints from the building owner and neighboring residents.

  Moreover, since the deodorizing apparatus 1 can perform a deodorizing process by a biological method, a power source such as a power source is unnecessary, and the installation location can be easily selected. Therefore, according to the structure of the purification equipment which concerns on one Embodiment of this invention, construction work can be performed efficiently.

  Similarly, since the deodorizing apparatus 1 performs a deodorizing process using a biological method by the structure by which the filler 15 is arrange | positioned around the ventilation pipe 10, there is no danger of a failure. Therefore, the maintenance cost can be reduced, and it can be used stably over a long period of time.

  The deodorizing apparatus 1 can deodorize the odor components in the air flowing through the vent pipe 10 and can also deodorize the odor components in the air diffused from the vent pipe 10 into the underground space 100. , Has an excellent deodorizing effect.

  Furthermore, when the zeolite 15 is used for the filler 15, the deodorizer 1 can perform a deodorizing process using the filler 15 itself, and thus has an excellent deodorizing effect.

  Since the deodorizing apparatus 1 described with reference to FIGS. 1 to 4 is embedded in the ground, the installation location can be easily selected, and the construction work can be performed efficiently.

  Since the ventilation pipe 10 is buried in the ground, it can be constructed alone together with the septic tank 2. Therefore, the installation work of the septic tank and the deodorizing apparatus 1 by the water supply company can be carried out without being obstructed by the facilities and scaffolding of the house builder, and the construction work can be performed efficiently.

  Further, since the ventilation pipe 10 is buried in the ground, the installation work of the deodorizing apparatus 1 should be performed without the installation location being restricted by the rain gutter or roof structure provided in the existing building. Can do. Therefore, construction work can be performed efficiently.

  Similarly, since the ventilation pipe 10 is buried in the ground, it is possible to perform an inconspicuous construction. Therefore, it is possible to solve the problem that the appearance is impaired, such as being misunderstood as a collection toilet.

  Furthermore, since the filler 15 is granular or crushed stone, it is possible to easily follow the scale of the septic tank 2 by adjusting the volume of the underground space 100 formed around the ventilation pipe 10 and to perform appropriate deodorization. The deodorizing apparatus 1 which has an effect can be provided.

  The filler 15 preferably constitutes a plurality of layers having different particle sizes in the underground space 100. Since the particle size of the filler 15 is set so as to increase as it approaches the vent pipe 10, it is possible to prevent rainwater, earth and sand, dust and the like from entering the vent pipe 10, and The surrounding space 100 has good air permeability, and it is possible to secure a wide underground space 100 preferable as a breeding space for aerobic microorganisms.

  Since the protective layer 3 is provided on the upper part of the vent pipe 10 and the filler 15, the aerobic microorganisms in the ground are removed from the bottom face side and both side faces of the vent pipe 10 and the filler material 15. It is possible to guide the inside of the underground space 100 and further to the inside of the ventilation pipe 10.

  5 to 8 are end views showing a method for installing the purification equipment according to the present invention. 5 to 8, the same components as those shown in FIGS. 1 to 4 are denoted by the same reference numerals.

  5 to 8 includes a deodorizing apparatus 1 and a septic tank 2. The deodorization apparatus 1 is what was demonstrated with reference to FIG. 1 thru | or FIG. The septic tank 2 has an exhaust port 23.

  In installing the purification equipment, first, referring to FIG. 5, the installation hole 4 is excavated. Inside the installation hole 4, the exhaust port 23 of the septic tank 2 is guided, and a first rod 13 and a second rod 14 are arranged at the bottom 40. The first flange 13 is provided with a first connection hole 132 opposite to the first connection hole 142 of the second flange 14. The exhaust port 23 is connected to the second connection hole 133, and the first tub 13 and the septic tank 2 are connected in an aeration manner.

  Next, referring to FIG. 6, after the process shown in FIG. 5, the filler 15 is laid on the bottom 40 of the installation hole 4. The filler 15 is laid below a dotted line region X that connects the connection hole 132 of the first rod 13 and the connection hole 142 of the second rod 14 horizontally. In the portion indicated by the dotted line region X, the vent pipe 10 is disposed.

  Next, referring to FIG. 7, after the step shown in FIG. 6, the ventilation pipe 10 is disposed inside the installation hole 4, one end 101 is connected to the first connection hole 132, and the other end 102 is connected to the first hole. Connected to the connection hole 142. The first ridge 13 and the second ridge 14 are connected to each other through the ventilation pipe 10 in an aeration manner.

  Next, referring to FIG. 8, after the step shown in FIG. 7, the upper portion of the vent pipe 10 is covered with the filler 15. Further, the protective layer 3 is provided on the filler 15 and is covered with backfilling soil.

  The purification equipment installed by the method described with reference to FIGS. 5 to 8 has all the advantages described with reference to FIGS.

  Furthermore, according to the installation method of the purification equipment demonstrated with reference to FIGS. 5-8, construction work can be performed efficiently. For example, the deodorizing apparatus 1 can easily set the underground space 100 having an appropriate deodorizing effect following the scale of the septic tank 2 by adjusting the volume of the installation hole 4 filled with the filler 15. Can do.

  9 and 10 are end views of the purification equipment according to another embodiment of the present invention. 9 and 10, the same reference numerals are given to the same components as those shown in FIGS. 1 to 8.

  First, referring to the purification equipment shown in FIG. 9, it can be seen that the arrangement of the ventilation pipe 10 and the configuration of the second basket 14 are different from the deodorizing apparatus 1 shown in FIGS. 1 to 8. Hereinafter, the difference will be mainly described.

  In the deodorizing apparatus 1 shown in FIG. 9, the vent pipe 10 is provided on the bottom surface of the installation hole, and the filler 15 is provided so as to cover the vent pipe 10 from above. That is, according to the configuration in which the filler 15 is not provided on the bottom surface side of the vent pipe 10 in the deodorizing apparatus 1, the installation work of the vent pipe 10 and the laying work of the filler 15 can be performed efficiently.

  Further, according to the configuration in which the ventilation pipe 10 is provided on the bottom surface of the installation hole and the filler 15 is provided so as to cover the ventilation pipe 10 from above, the aerobic microorganisms that inhabit the bottom surface can be easily removed. 10 can be guided inside. Therefore, the deodorizing apparatus 1 has an excellent deodorizing function.

  Next, in the deodorizing apparatus 1 shown in FIG. 9, the second bag 14 includes a lattice-like portion in which the lid portion 141 has air permeability. That is, according to the configuration in which the lid portion 141 is a so-called lattice lid 141, air sent from the direction of the arrow M1 and the arrow M2 through the vent pipe 10 can be dissipated in the external direction M3 through the lattice lid 141. The air sent from the exhaust port 23 can be discharged smoothly.

  As described with reference to FIGS. 1 to 4, the odor components in the air sent from the directions of the arrows M1 and M2 use the aerobic microorganisms in the ground inside the ventilation pipe 10. Since the deodorizing process is performed using a biological method, no odor complaints are generated from the building owner or the neighboring residents for the air diffused in the external direction M3.

  Referring to the purification facility shown in FIG. 10, it can be seen that the presence or absence of the first and second rods 13 and 14 is different from the purification facility shown in FIGS. Hereinafter, the difference will be mainly described.

  First, in the purification facility shown in FIG. 10, one end 101 of the vent pipe 10 is directly connected to the exhaust port 23 in a breathable manner. According to this configuration, the first rod 13 shown in FIGS. 1 to 9 is not necessary, so that the construction work can be performed efficiently.

  Next, the purification equipment shown in FIG. 10 is provided with a diffusion pipe 16 in place of the second rod 14 shown in FIGS. 1 to 9. In the diffusion tube 16, the other end 102 of the ventilation tube 10 is connected to the first connection hole 162, and the ventilation tube 10 is connected to the internal space 160 in an air-permeable manner.

  The diffusion tube 16 is a so-called elbow return, and according to the configuration in which the diffusion port 161 is arranged to face the ground surface G, the air discharged from the directions of the arrows M1 and M2 through the ventilation tube 10 is discharged to the diffusion port 16. Since the air can be diffused in the external direction M3 through 161, the air sent from the exhaust port 23 can be discharged smoothly.

  In addition, as described with reference to FIG. 9, the air diffused in the external direction M3 is biologically generated using underground aerobic microorganisms in the process of being sent through the ventilation pipe 10 in the direction of the arrow M2. Since the method is used for deodorizing, no odor complaints from the owners and neighbors will occur.

  In the purification facility shown in FIG. 10, the ventilation pipe 10 and the diffusion pipe 16 are formed of separate members, but they may be integrally formed.

  FIG. 11 is an end view of the purification equipment according to still another embodiment of the present invention, and FIG. 12 is an end view showing a part of the purification equipment shown in FIG. 11 and 12, the same reference numerals are given to the same components as those shown in FIGS. 1 to 10.

  The purification equipment shown in FIGS. 11 and 12 is characterized in that the spherical body 5 is arranged inside the ventilation pipe 10. The spherical body 5 preferably has a diameter slightly smaller than the inner diameter of the vent pipe 10.

  As described above, according to the configuration in which the purification equipment includes the spherical body 5 inside the ventilation pipe 10, the flow of the air flowing in the M1 to M2 and M3 directions inside the ventilation pipe 10 is controlled, and the deodorizing effect of the deodorizing apparatus 1 is achieved. Can be improved.

  Describing in more detail with reference to FIG. 12, the air flowing in the M2 direction inside the ventilation pipe 10 is once blocked by the spherical body 5 and flows in the direction indicated by the arrow M21 through the through hole portion 11, thereby 100 is dissipated. That is, according to the configuration in which the vent pipe 10 includes the spherical body 5 inside, the amount of air dissipated into the underground space 100 increases, so that the deodorizing effect of the deodorizing apparatus 1 is improved.

  On the other hand, the air diffused in the M21 direction is absorbed into the ground as it is, or is returned to the inside of the ventilation pipe 10 indicated by the arrow M22 through the through-hole portion 11, and is sent out again in the M2 and M3 directions. Therefore, the purification equipment can improve the deodorizing effect of the deodorizing apparatus 1 without hindering the flow of air flowing from M1 to M2 and M3.

  Preferably, the spherical body 5 shown in FIGS. 11 and 12 is inserted into the inside of the vent pipe 10 from the one end 101 through the first ridge 13. The spherical body 5 arranged in the ventilation pipe 10 can be taken out from the second ridge 14 by air flowing in the M2 direction or by an artificial method using a tool. The spherical body 5 arranged in the vent pipe 10 may be fixed to the vent pipe 10 as it is. Therefore, construction work and maintenance work can be performed efficiently.

  In addition, since the activation position of the filler 15 can be controlled by the position of the spherical body 5 inside the vent pipe 10, the filler 15 can function effectively over its entire length. By appropriately setting the fitting of the spherical body 5 to the inside of the ventilation pipe 10, it is automatically sent by air pressure from the used filler 15 portion to the adjacent unused filler portion 15; The filler 15 can also function automatically and effectively over its entire length.

  The portion of the used filler 15 described above is released from the overload state of the deodorizing process by moving to the portion of the unused filler 15 with which the spherical body 5 is in contact, and is recovered and reinstated as time passes. Activate. Therefore, according to the configuration in which the activation position of the filler 15 can be controlled by the position of the spherical body 5 inside the ventilation pipe 10, the purification equipment having an excellent deodorizing function can be efficiently and stably for a long period of time. Can be used.

  Furthermore, according to the structure in which the vent pipe 10 includes the spherical body 5 therein, it is possible to quickly respond to various construction conditions and requests from the construction owner.

  Although the contents of the present invention have been specifically described above with reference to the preferred embodiments, it is obvious that those skilled in the art can take various modifications based on the basic technical idea and teachings of the present invention. It is.

It is an end elevation of purification equipment concerning one embodiment of the present invention. It is an end elevation which expands and shows a part of purification equipment shown in FIG. It is an end view which shows the usage condition of the deodorizing apparatus shown in FIG.1 and FIG.2. It is an end view which expands and shows a part about the usage condition of the deodorizing apparatus shown in FIG. It is an end view which shows the installation method of the purification equipment which concerns on one Embodiment of this invention. FIG. 6 is an end view showing a step after the step shown in FIG. 5. FIG. 7 is an end view showing a step after the step shown in FIG. 6. FIG. 8 is an end view showing a step after the step shown in FIG. 7. It is an end view of the purification equipment which concerns on another embodiment of this invention. It is an end elevation of purification equipment concerning another embodiment of the present invention. It is an end elevation of purification equipment concerning another embodiment of the present invention. It is an end elevation which expands and shows a part about the purification equipment shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Deodorizing device 10 Vent pipe 101 One end 15 Filler 2 Septic tank 23 Exhaust port

Claims (2)

A purification facility including a septic tank and a deodorizing device,
The septic tank has an exhaust port and is buried in the ground,
The deodorization device has a vent pipe and a filler, and is embedded in the ground,
The vent pipe is porous, and one end is connected to the exhaust port of the septic tank,
The filler is granular,
The said aeration pipe is the purification equipment by which it is embed | buried under the ground and the said filler is arrange | positioned around. The purification facility according to claim 1,
The purification facility, wherein the filler is zeolite.

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