JP4522286B2 - Deodorizing device - Google Patents

Description

  The present invention relates to a deodorizing apparatus, and more particularly to a deodorizing apparatus provided with an insect repellent mist separator.

  Odor components discharged from sewage treatment plants and human waste treatment plants include, for example, ammonia, hydrogen sulfide, methyl mercaptan, and methyl disulfide. Deodorizers that remove these components are first to maintain deodorizing ability for a long time. The original odor is ventilated in the mist separator to remove the original odor mist (water). Depending on the source of the original odor to be collected, in addition to the original odor, mist, sludge scattered by aeration, and insects that live in the source of the original odor may flow in a large amount.

The deodorizing apparatus according to the prior art also has a system configuration similar to the system configuration according to the present invention shown in FIG.
The system includes a mist separator 1 that removes mist composed of water contained in a fluid to be treated as an original odor, an ozone generator 2 that generates ozone from air or oxygen, and a deodorizer that collects and discharges the original odor. The fan 3 and the deodorizing tower 4 filled with a catalyst, activated carbon or the like for promoting the oxidation of the original odor by ozone.

A mist separator of a deodorizing apparatus according to the prior art is provided with a mist separator element that collides with mist as moisture contained in a fluid to be treated as a raw odor housed in a mist separator casing and distributed in the mist separator casing. .
The mist contained in the original odor collides with the mist separator element inside the mist separator by inertia force, becomes water droplets and is discharged as drain. At that time, if the original odor contains a large amount of insects and sludge, the insects and sludge are mixed with the mist to increase the adhesive force, and concentrate on the element first plate on the treated fluid inlet side of the mist separator element. May be deposited.

Due to its characteristics, this deodorization equipment is installed as an accessory to the sewage treatment and human waste treatment equipment, so it is not frequently checked or carefully checked for operating conditions, and is checked only after a failure occurs. This is often a facility. Therefore, it is a facility that is operated almost as an unmanned facility, and this deodorizing device needs to be a device that can withstand long-term unmanned and uninspected operation.
In addition to mist, sludge scattered by aeration and insects that inhabit the original odor generation source often flow into the source of the original odor collected in this deodorization device. When the insects and sludge that adhere to the first plate of the element and adhere strongly to the element first plate accumulate for a long time, the surface of the mist separator element is covered with deposits, making it difficult for the mist to collide with the element. Therefore, when it is difficult to remove the mist and it is used without being inspected for a long time, the deodorizing fan will be submerged in water, the deodorizing tower will contain a large amount of moisture, and the deodorizing performance will deteriorate early. There were problems such as causing troubles such as troubles caused by blockage of the main deodorizing pipe.

In the prior art, it has already been proposed to remove solids contained in a fluid by centrifugal force due to the circulation of the fluid (see, for example, Patent Document 1).
However, in such a prior art, there is no disclosure about an appropriate configuration for removing deposits in the deodorizing apparatus.

JP 2001-234730 A (3rd page, FIG. 1)

  The present invention provides a deodorizing apparatus that can efficiently remove deposits of a moisture removal treatment element with a simple configuration, maintain the removal treatment performance of the moisture removal treatment element, reduce maintenance costs, and improve reliability. The purpose is to do.

In the deodorizing apparatus according to the present invention, the deodorizing fan that introduces the fluid to be treated in order to collect the original odor contained in the fluid to be treated, and the raw odor and ozone contained in the fluid to be treated are brought into contact and mixed to be treated. Included in the fluid to be treated, an ozone generator for generating ozone for oxidizing the original odor contained in the fluid, a moisture removing element for removing moisture from the fluid to be treated distributed by the deodorizing fan, and the fluid to be treated A deodorizing tower filled with an oxidation promoting medium for promoting oxidation by ozone mixed with the raw odor, and rotated by circulation of the fluid to be treated at the end of the moisture removal treatment element on the fluid inlet side being driven provided the discharge means comprising a discharging rotatable member for discharging the sediment of the water removal treatment elements Rutotomoni, provided opposite to said discharging rotatable member, said discharge The relative movement of the rotating member is provided with a scraping member to facilitate the discharge of deposits attached to the rotating member for the discharge.

According to this invention, the discharge rotary member that is rotationally driven by the flow of the fluid to be treated efficiently removes the deposits of the moisture removal treatment element with a simple configuration, and maintains the removal treatment performance of the moisture removal treatment element. The main deodorizing pipe from the mist separator to the deodorization tower due to deposits such as insects and sludge can be prevented from being blocked , reducing maintenance costs and being attached to the discharge rotating member by relative movement with the discharge rotating member. By the scraping member that promotes the discharge of the deposit, it is possible to provide a deodorizing apparatus that can more efficiently remove the deposit of the moisture removal treatment element with a simple configuration and improve the reliability.

Embodiment 1 FIG.
Embodiment 1 of the present invention will be described with reference to FIGS. FIG. 1 is a block diagram showing a system configuration of the deodorizing apparatus according to the first embodiment. FIG. 2A is a side view showing the configuration of the mist separator in the first embodiment. FIG. 2B is an end view showing the configuration of the mist separator in the first embodiment. FIG. 3A is a side view showing the configuration of the element fin in the first embodiment. FIG. 3B is a front view showing the configuration of the element fin in the first embodiment.

  In FIG. 1 showing the system configuration of the deodorizing apparatus in the first embodiment, the deodorizing apparatus DA includes a mist separator 1 that removes moisture consisting of mist contained in the gaseous treated fluid TF as an original odor, and air or Ozone generator 2 that generates ozone from oxygen, a deodorizing fan 3 that vents a gaseous treated fluid TF to the inside of the deodorizing device DA to collect and discharge the original odor, and oxidation of the original odor by ozone And a deodorization tower 4 filled with activated carbon or the like. Each device may be unitized on a common base or may be individually installed.

In FIG. 2 showing the configuration of the mist separator in the first embodiment, the mist separator casing 5 forming the outer shell of the mist separator 1 has a mist or insect contained in the gaseous treated fluid TF as the original odor. A mist separator element 7 is disposed as a moisture removal treatment element provided on the inflow side of the gaseous treatment target fluid TF serving as the original odor.
In the mist separator casing 5 of the mist separator 1, the gaseous treated fluid TF as the original odor is generated from the left side shown in FIG. 2A by the wind pressure generated by the rotation operation of the deodorizing fan 3 (see FIG. 1). The fluid flows in through the fluid inlet 5a to be treated and flows out to the right through the fluid outlet 5b in the mist separator casing 5 to form an air flow inside the mist separator casing 5. ing.
The mist separator element 7 disposed inside the mist separator casing 5 of the mist separator 1 performs a removal process by adhering moisture composed of mist contained in the gaseous fluid TF as the original odor to the element piece. Then, the water composed of mist is discharged from a water discharge port 5 c provided in the mist separator casing 5.
In the mist separator element 7, sludge such as insects and dust mixed in the gaseous fluid TF as the original odor mainly adheres to the element first plate 6 and becomes a deposit.
The element first plate 6 provided at the end of the mist separator element 7 on the side into which the fluid TF to be treated flows requires a power source such as a power source due to the wind pressure generated by the rotational operation of the deodorizing fan 3 (see FIG. 1). Element fins 8 that serve as a discharging means and serve as a discharging means are provided that serve to scrape away insects and sludge attached to the element first plate 6 without rotating.

The element fins 8 whose side views are shown in FIGS. 2A and 3A and whose front views are shown in FIGS. 2B and 3B are the element first plate 6 of the mist separator element 7. Have two blades 8a and 8b attached to a rotary shaft 6x.
The blades 8a and 8b of the element fin 8 are rotationally driven around the rotation shaft 6x by the airflow formed in the mist separator casing 5 by the wind pressure generated by the rotation operation of the deodorizing fan 3 (see FIG. 1). The deposit DP deposited on the plate 6 is scraped off and discharged from a deposit discharge port 5d provided in the mist separator casing 5.
A scraping member 9 comprising a scraping valve attached to a mist separator casing 5 which is a fixed portion is provided facing the outer peripheral portion of the element fin 8 where the blades 8a and 8b rotate. The scraping member 9 has a tapered shape as it extends from the base attached to the mist separator casing 5 to the tip, the tip faces the blades 8a and 8b in the element fin 8, and is scraped from the element first plate 6. The deposit DP is curved so as to guide and discharge the deposit DP to the deposit outlet 5d, and the deposit DP such as insects and sludge scraped off by the element fin 8 is sent to the outside of the fin by the rotation of the element fin 8. It is configured to scrape off deposits DP such as insects and sludge, and send them to the deposited object discharge port 5d. The sediment DP such as sludge scraped off by the scraping member 9 can be efficiently discharged from the deposit discharge port 5d without scattering.

The element fin 8 is provided with a rotation shaft 6x at the center, and the blades 8a and 8b are given a predetermined angle so as to rotate by the flow of the gaseous fluid TF to be treated from the vertical direction. A plurality of blades 8a and 8b of the element fin 8 are provided in a balanced manner so that the shaft 6x is not decentered during rotation.
By providing a clearance of several millimeters between the blades 8a and 8b of the element fin 8 and the element first plate, the element fin 8 can easily scrape the deposit DP such as insects and sludge adhering to the element first plate 6. it can.
In addition, if the rotational speed of the element fin 8 provided with the blades 8a and 8b is too high, centrifugal force may be applied to cause the deposit DP such as insects and sludge scraped around the mist separator casing 5 to be scattered and adhered. For this reason, a structure that can adjust the rotation speed by adjusting the angle of the fins composed of the blades 8a and 8b as necessary is also considered.

Operation | movement of the deodorizing apparatus DA in Embodiment 1 is demonstrated.
The gaseous to-be-processed fluid TF containing the original odor circulates inside the mist separator casing 5 in the mist separator 1 by the wind pressure generated by the rotation operation of the deodorizing fan 3 (see FIG. 1). The gaseous to-be-processed fluid TF containing the original odor passes through the inside of the mist separator casing 5 from the to-be-processed fluid inlet 5a provided in the mist separator casing 5, and flows out from the to-be-processed fluid outlet 5b.
The mist separator element 7 disposed inside the mist separator casing 5 in the mist separator 1 adheres and drops water composed of mist contained in the gaseous fluid TF to the element piece constituting the mist separator element 7. Then, the water is discharged from the water outlet 5c.
Deposits DP such as insects and sludge adhering mainly to the first element plate 6 of the mist separator element 7 are scraped off by the rotation of the element fins 8 provided with the blades 8a and 8b. Deposits DP such as insects and sludge adhering to the blades 8 a and 8 b of the eighth blade are scraped off by the tip of the scraping member 9 facing the outer peripheral portion of the blades 8 a and 8 b, and by the curved portion of the scraping member 9. It is guided and discharged from the deposit discharge port 5d.

In the mist separator 1 in the mist separator casing 5, ozone gas supplied from the ozone generator 2 that generates ozone from air or oxygen is supplied to the gaseous process fluid TF containing the original odor flowing out from the process fluid outlet 5 b of the mist separator casing 5. It is mixed and sent to the deodorizing tower 4 through the deodorizing fan 3.
In the deodorization tower 4, the oxidation of the raw odor contained in the fluid TF is promoted by the oxidation promoting medium such as the catalyst or activated carbon for promoting the oxidation of the raw odor with ozone, and the deodorization treatment is performed. The treated fluid TF after processing is discharged as exhaust EF.

  In the first embodiment, the element fin 8 constituting the discharging rotary member is provided as the discharging means. However, the rotational power from the rotational power source similar to the element fin 8 driven by the flow of the fluid TF to be processed is provided. It is also possible to provide a reciprocating motion conversion mechanism for converting the reciprocating power into reciprocating power, and to constitute a discharging means for discharging the deposit DP by a reciprocating member that reciprocates by the output of the reciprocating motion converting mechanism.

  According to Embodiment 1 of the present invention, a deodorizing fan 3 that introduces a gaseous treated fluid containing an original odor to collect the original odor contained in the gaseous treated fluid TF, and a gaseous Ozone generator 2 for generating ozone gas to oxidize the original odor contained in the fluid to be treated by contacting and mixing the original odor contained in the fluid to be treated with ozone, and the gaseous state distributed by the deodorizing fan 3 A moisture removal treatment element comprising a mist separator element 7 disposed in a mist separator casing 5 forming an outer shell of a mist separator 1 for removing moisture comprising mist of a fluid to be treated; Deodorizing tower as a deodorizing means filled with an oxidation promoting medium composed of a catalyst, activated carbon or the like for promoting oxidation by ozone gas mixed with the raw odor contained in the processing fluid And is driven to rotate by the flow of the gaseous fluid to be treated by the wind pressure of the deodorizing fan 3 to the element first plate 6 at the end of the moisture removal treatment element comprising the mist separator element 7 on the fluid inlet side. Discharging means constituted by a discharging rotary member including element fins 8 provided with blades 8a and 8b for discharging insects and dust deposits DP adhering to the moisture removing element consisting of the mist separator element 7 is provided. Therefore, the discharge rotary member that is rotationally driven by the flow of the fluid to be treated efficiently removes the deposits of the moisture removal treatment element with a simple configuration, maintains the removal treatment performance of the moisture removal treatment element, and insects and sludge Maintenance costs can be reduced by preventing clogging of the main deodorizing pipe from the mist separator to the deodorizing tower due to sediment. Together, it is possible to provide a deodorizing device capable of improving reliability.

  Further, according to Embodiment 1 of the present invention, in the configuration of the preceding paragraph, the blades 8a and 8b are provided facing the outer peripheral portion of the discharging rotary member including the element fins 8 provided with the blades 8a and 8b. A scraping member 9 that promotes the discharge of the deposit DP adhering to the discharging rotary member comprising the element fin 8 provided with the blades 8a and 8b by relative movement with the discharging rotary member comprising the element fin 8 provided with The scraping member that promotes the discharge of deposits attached to the discharge rotating member by relative movement with the discharge rotating member makes it possible to more efficiently remove the deposits of the moisture removal processing element with a simple configuration. Removes and maintains the removal performance of the moisture removal treatment element and prevents clogging of the main deodorization pipe from the mist separator to the deodorization tower due to deposits such as insects and sludge It is possible to reduce maintenance costs Te, it is possible to provide a deodorizing device capable of improving reliability.

Embodiment 2. FIG.
A second embodiment of the present invention will be described with reference to FIG. FIG. 4A is a side view showing the configuration of the element fin in the second embodiment. FIG. 4B is a front view showing the configuration of the element fin in the second embodiment.
In the second embodiment, the configuration other than the specific configuration described here has the same configuration contents as the configuration in the first embodiment described above, and exhibits the same operation. In the drawings, the same reference numerals indicate the same or corresponding parts.

In FIG. 4 which shows the structure of the element fin in Embodiment 2, the mist separator 7 in the mist separator casing 5 (FIG. 4) which the mist, insect, and sludge contained in the gaseous to-be-processed fluid TF as an original odor collide initially. 2), the element first plate 6 is rotated by the wind pressure of the deodorizing fan 3 without using a power source such as a power source, and scrapes such as insects and sludge adhering to the element first plate 6 are scraped off. A high holding force type element fin that adheres for a long time and is sent to the deposit outlet 5d (see FIG. 2) when deposits such as insects and sludge that are scraped off are relatively difficult to adhere. 10 is attached. With this high holding force type element fin 10, the deposited deposits such as insects and sludge can be quickly discharged from the deposit discharge port 5 d without being scattered around the element casing 5.
On the blade end portion 10p of the blades 10a and 10b attached to the rotating shaft 6x constituting the high holding force type element fin 10, a scraping protruding portion that protrudes and extends in the axial direction of the rotating shaft 6x is formed. It is possible to powerfully scrape deposits such as insects and sludge attached over a long period of time.

  According to the second embodiment of the present invention, the deodorizing fan 3 for introducing the gaseous treated fluid containing the original odor in order to collect the original odor contained in the gaseous treated fluid TF, Ozone generator 2 for generating ozone gas to oxidize the original odor contained in the fluid to be treated by contacting and mixing the original odor contained in the fluid to be treated with ozone, and the gaseous state distributed by the deodorizing fan 3 A moisture removal treatment element comprising a mist separator element 7 disposed in a mist separator casing 5 forming an outer shell of a mist separator 1 for removing moisture comprising mist of a fluid to be treated; Deodorizing tower as a deodorizing means filled with an oxidation promoting medium composed of a catalyst, activated carbon or the like for promoting oxidation by ozone gas mixed with the raw odor contained in the processing fluid (See FIGS. 1 and 2), the element first plate 6 at the end of the moisture removal treatment element comprising the mist separator element 7 on the treatment fluid inlet side has a fluid to be treated due to the wind pressure of the deodorizing fan 3. A scraping protrusion that protrudes in the axial direction and extends to the blade end portion 10p of the blades 10a and 10b for discharging insect and dust deposits that are rotationally driven by circulation and adhere to the moisture removal processing element comprising the mist separator element 7. Since the discharge means composed of the rotary member for discharge composed of the high holding force type element fin 10 formed with the portion is provided, the deposit attached to the moisture removal treatment element for a long time with a simple configuration can be efficiently Removes and maintains the removal treatment performance of the moisture removal treatment element, from the mist separator to the deodorization tower by deposits such as insects and sludge With occlusion of the deodorizing main pipe can be reduced to prevent to maintenance costs that can provide a deodorizing device capable of improving reliability.

Embodiment 3 FIG.
A third embodiment of the present invention will be described with reference to FIG. FIG. 5A is a side view showing the configuration of the element fin in the third embodiment. FIG. 5B is a front view showing the configuration of the element fin in the third embodiment.
In the third embodiment, the configuration other than the specific configuration described here has the same configuration contents as the configuration in the first embodiment described above, and has the same function. In the drawings, the same reference numerals indicate the same or corresponding parts.

In FIG. 5 which shows the structure of the element fin in Embodiment 3, the mist separator 7 in the mist separator casing 5 which the mist, insect, and sludge contained in the to-be-processed fluid TF as an original odor collide first (refer FIG. 2). The element first plate 6 provided on the element rotates without the need for a power source such as a power source due to the wind pressure of the deodorizing fan 3, and scrapes off deposits such as insects and sludge attached to the element first plate 6. A low-retention-force element fin 11 for sequentially scraping and sending it to the deposit outlet 5d (see FIG. 2) when deposits such as insects and sludge scraped off as element fins are relatively easy to adhere. It is attached. This low holding force type element fin 11 can prevent deposits such as insects and sludge from adhering to the element fin 11 and inhibiting the rotation of the element fin 11.
The blades 11a and 11b attached to the rotary shaft 6x constituting the low holding force type element fin 11 have a tapered shape extending from the attachment portion attached to the rotary shaft 6x to the outer peripheral tip, such as insects and sludge. When deposits are relatively easy to adhere, it is suitable for sequential scraping.

  According to the third embodiment of the present invention, the deodorizing fan 3 for introducing the gaseous treated fluid containing the original odor in order to collect the original odor contained in the gaseous treated fluid TF, Ozone generator 2 for generating ozone gas to oxidize the original odor contained in the fluid to be treated by contacting and mixing the original odor contained in the fluid to be treated with ozone, and the gaseous state distributed by the deodorizing fan 3 A moisture removal treatment element comprising a mist separator element 7 disposed in a mist separator casing 5 forming an outer shell of a mist separator 1 for removing moisture comprising mist of a fluid to be treated; Deodorizing tower as a deodorizing means filled with an oxidation promoting medium composed of a catalyst, activated carbon or the like for promoting oxidation by ozone gas mixed with the raw odor contained in the processing fluid (See FIGS. 1 and 2), the element first plate 6 at the end of the moisture removal treatment element comprising the mist separator element 7 on the treatment fluid inlet side has a fluid to be treated due to the wind pressure of the deodorizing fan 3. Discharge consisting of low holding force type element fins 11 in which blades 11a and 11b for discharging insect and dust deposits which are rotationally driven by circulation and adhere to the moisture removal treatment element consisting of the mist separator element 7 are tapered. Since the discharge means composed of the rotary member for the operation is provided, the deposits rapidly attached to the moisture removal treatment element with a simple construction are sequentially and efficiently removed, and the removal treatment performance of the moisture removal treatment element is maintained. Maintenance costs can be reduced by preventing clogging of the main deodorizing pipe from the mist separator to the deodorization tower due to deposits such as water and sludge Rutotomoni, it is possible to provide a deodorizing device capable of improving reliability.

Embodiment 4 FIG.
A fourth embodiment of the present invention will be described with reference to FIG. FIG. 6A is a side view showing a modified configuration of the element fin in the fourth embodiment. FIG. 6B is a front view showing a modified configuration of the element fin in the fourth embodiment.
In the fourth embodiment, the configuration other than the specific configuration described here has the same configuration contents as those in the first to third embodiments described above, and has the same operation. Is. In the drawings, the same reference numerals indicate the same or corresponding parts.

In FIG. 6 which shows the structure of the element fin in Embodiment 4, the mist separator 7 in the mist separator casing 5 in which mist, insects and sludge contained in the gaseous fluid TF as the original odor collide first (FIG. 6) 2), the element first plate 6 is rotated by the wind pressure of the deodorizing fan 3 without using a power source such as a power source, and scrapes such as insects and sludge adhering to the element first plate 6 are scraped off. Instead of the element fin 8 (see FIG. 2 and FIG. 3) provided with the two blades 8a and 8b in the first embodiment, three blades 12a, 12b, and 12c are attached as element fins that play a role. An element fin 12 provided with a rotating shaft 12x is provided.
The element fin 12 provided with the blades 12a, 12b, and 12c is obtained by increasing the number of blades 12a, 12b, and 12c in consideration of the balance of rotation according to the content of deposits such as insects and sludge. . Here, the three blades 12a, 12b, and 12c may be four or more.
Accordingly, the same effect can be obtained regardless of the amount of deodorized air, corresponding to a change in the capacity of the apparatus, such as changing the number of blades of the element fin in accordance with the amount of the deodorized air amount.

  Then, the element fin 10 (see FIG. 4) provided with the two blades 10a and 10b in the second embodiment, and the element fin 11 (see FIG. 5) provided with the two blades 11a and 11b in the third embodiment. Also, as shown in the fourth embodiment, the number of blades can be increased to three or four or more.

  According to the fourth embodiment of the present invention, the deodorizing fan 3 for introducing the gaseous treated fluid containing the original odor to collect the original odor contained in the gaseous treated fluid TF, Ozone generator 2 for generating ozone gas to oxidize the original odor contained in the fluid to be treated by contacting and mixing the original odor contained in the fluid to be treated with ozone, and the gaseous state distributed by the deodorizing fan 3 A moisture removal treatment element comprising a mist separator element 7 disposed in a mist separator casing 5 forming an outer shell of a mist separator 1 for removing moisture comprising mist of a fluid to be treated; Deodorizing tower as a deodorizing means filled with an oxidation promoting medium composed of a catalyst, activated carbon or the like for promoting oxidation by ozone gas mixed with the raw odor contained in the processing fluid (See FIGS. 1 and 2), the element first plate 6 at the end of the moisture removal treatment element comprising the mist separator element 7 on the treatment fluid inlet side has a fluid to be treated due to the wind pressure of the deodorizing fan 3. It consists of an element fin 12 provided with three or four or more blades 12a, 12b, 12c for discharging insect and dust deposits that are rotationally driven by circulation and adhere to the moisture removal processing element comprising the mist separator element 7. Since the discharge means composed of the rotary member for discharge is provided, the deposits of the moisture removal treatment element are efficiently removed according to the amount of deposit with a simple configuration, and the removal treatment performance of the moisture removal treatment element is maintained. Maintenance costs can be reduced by preventing clogging of the main deodorizing pipe from the mist separator to the deodorization tower due to deposits such as water and sludge Together, it is possible to provide a deodorizing device capable of improving reliability.

Embodiment 5 FIG.
A fifth embodiment of the present invention will be described with reference to FIG. FIG. 7A is a side view showing the configuration of the element fin in the fifth embodiment. FIG. 7B is a front view showing the configuration of the element fin in the fifth embodiment.
In the fifth embodiment, the configuration other than the specific configuration described here has the same configuration contents as those in the first to fourth embodiments described above, and exhibits the same operation. Is. In the drawings, the same reference numerals indicate the same or corresponding parts.

In FIG. 7 which shows the structure of the element fin in Embodiment 5, the mist separator 7 in the mist separator casing 5 to which mist, insects and sludge contained in the fluid TF to be treated as the original odor first collide (see FIG. 2) The element first plate 6 provided on the element rotates without the need for a power source such as a power source due to the wind pressure of the deodorizing fan 3, and scrapes off deposits such as insects and sludge attached to the element first plate 6. Instead of the single element fin 8 (see FIGS. 2 and 3) provided with the two blades 8a and 8b in the first embodiment as the element fins to be fulfilled, the two blades 13a and 13b are used as the rotation shaft 6x. The attached first element fin 13 and two blades 14a, 14b provided in series with the first element fin 13 in series with an axial interval maintained between the rotary shaft 6 And and a second element fins 14 attached to.
The first element fin 13 and the second element fin 14 are provided on the element first plate 6 in the mist separator casing 5 where the mist, insects and sludge contained in the original odor first collide, and the deodorizing fan 3 The flow of the gaseous fluid to be treated including the element fins that rotate by wind pressure without the need of a power source such as a power supply and scrape off the deposits such as insects and sludge adhering to the element first plate 6 A plurality of sheets are arranged in series in the direction. From the deposit outlet 5d (see FIG. 2), the adhesion of deposits such as attached insects and sludge is extremely high, and the lump of the deposits such as insects and sludge is crushed and not scattered around the element casing 5 It can be discharged quickly.

  Then, the element fin 10 (see FIG. 4) provided with the two blades 10a and 10b in the second embodiment, and the element fin 11 (see FIG. 5) provided with the two blades 11a and 11b in the third embodiment. In addition, the element fins 12 (see FIG. 6) provided with three or four or more blades 12a, 12b, 12c in the fourth embodiment are also spaced apart from each other in the axial direction as shown in the fourth embodiment. The 1st element fin 13 and the 2nd element fin 14 which are kept and provided in series can be constituted.

  According to the fifth embodiment of the present invention, the deodorizing fan 3 for introducing the gaseous treated fluid containing the original odor in order to collect the original odor contained in the gaseous treated fluid TF, Ozone generator 2 for generating ozone gas to oxidize the original odor contained in the fluid to be treated by contacting and mixing the original odor contained in the fluid to be treated with ozone, and the gaseous state distributed by the deodorizing fan 3 A moisture removal treatment element comprising a mist separator element 7 disposed in a mist separator casing 5 forming an outer shell of a mist separator 1 for removing moisture comprising mist of a fluid to be treated; Deodorizing tower as a deodorizing means filled with an oxidation promoting medium composed of a catalyst, activated carbon or the like for promoting oxidation by ozone gas mixed with the raw odor contained in the processing fluid (See FIGS. 1 and 2), the element first plate 6 at the end of the moisture removal treatment element comprising the mist separator element 7 on the treatment fluid inlet side has a fluid to be treated due to the wind pressure of the deodorizing fan 3. Discharging means composed of a rotating member for discharging composed of element fins for discharging insect and dust deposits which are rotationally driven by distribution and adhered to the moisture removing treatment element composed of the mist separator element 7 are provided, and for the discharging Since a plurality of rotating members are provided in series while maintaining an interval in the axial direction, the discharging rotating member including the first element fins 13 and the second element fins 14 is configured. Efficiently removes a large amount of adhering deposits, maintains the removal performance of the moisture removal treatment element, and protects insects and dirt. It is possible to reduce maintenance costs by preventing clogging of the deodorization main pipe extending until the deodorization tower from the mist separator according sediments such, it is possible to provide a deodorizing device capable of improving reliability.

Embodiment 6 FIG.
Embodiment 6 according to the present invention will be described.
In the sixth embodiment, the configuration other than the specific configuration described here has the same configuration contents as those in the first to fifth embodiments described above, and exhibits the same operation. Is.

In the sixth embodiment, the element fin 8 (see FIGS. 2 and 3) is configured to be detachable in the configuration in the first embodiment, and the element fin 10 (in the configuration from the second embodiment to the fifth embodiment) ( 4 and the element fins 11 (see FIG. 5), the element fins 12 (see FIG. 6), and the element fins 13 and 14 (see FIG. 7).
The blades 8a and 8b of the element fin 8 attached to the rotary shaft 6x provided on the element first plate 6 are configured to be detachable from the rotary shaft 6x, and the element fin is attached to the rotary shaft 6x from which the blades 8a and 8b are removed. The blades 10a and 10b, the blades 11a and 11b of the element fin 11, the blades 12a and 12b of the element fin 12, and the blades 13a, 13b, 14a and 14b of the element fins 13 and 14 are attached.

  Here, the blades 8a and 8b of the element fin 8 are detachably attached to the rotary shaft 6x. However, the rotary shaft 6x to which the blades 8a and 8b are attached is detachable from the element first plate 6 and is implemented from the second embodiment. You may comprise so that it can replace | exchange for the element fin 10, the element fin 11, the element fin 12, and the element fins 13 and 14 with the rotating shaft 6x of the structure in the form 5 of this.

  According to the sixth embodiment of the present invention, the deodorizing fan 3 for introducing the gaseous treated fluid containing the original odor to collect the original odor contained in the gaseous treated fluid TF, Ozone generator 2 for generating ozone gas to oxidize the original odor contained in the fluid to be treated by contacting and mixing the original odor contained in the fluid to be treated with ozone, and the gaseous state distributed by the deodorizing fan 3 A moisture removal treatment element comprising a mist separator element 7 disposed in a mist separator casing 5 forming an outer shell of a mist separator 1 for removing moisture comprising mist of a fluid to be treated; Deodorizing tower as a deodorizing means filled with an oxidation promoting medium composed of a catalyst, activated carbon or the like for promoting oxidation by ozone gas mixed with the raw odor contained in the processing fluid (See FIGS. 1 and 2), the element first plate 6 at the end of the moisture removal treatment element comprising the mist separator element 7 on the treatment fluid inlet side has a fluid to be treated due to the wind pressure of the deodorizing fan 3. A discharge means composed of a rotary member for discharge composed of element fins 8 for discharging insect and dust deposits attached to the moisture removal treatment element composed of the mist separator element 7 that is rotationally driven by circulation is provided and implemented. The discharging rotary member composed of the element fins 8 (see FIGS. 2 and 3) of the first embodiment is detachable, and the element fins 10 (see FIG. 4) and element fins having the configurations of the second to fifth embodiments are used. 11 (see FIG. 5), element fins 12 (see FIG. 6) and element fins 13 and 14 (see FIG. 6). 7) so that it can be exchanged with the discharging rotary member, and the deposit on the moisture removal processing element can be efficiently removed by replacing the discharging rotary member in accordance with the accumulation state of the deposit with a simple configuration. Deodorization that maintains the removal performance of the moisture removal element and prevents blockage of the main deodorization pipe from the mist separator to the deodorization tower due to deposits such as insects and sludge, reducing maintenance costs and improving reliability An apparatus can be provided.

  It should be noted that the embodiment according to the present invention can be applied to a method in which the first embodiment is combined with the second embodiment, the third embodiment, or the fourth embodiment, and the same or similar effects can be exhibited. Nor.

It is a block diagram which shows the system configuration | structure of the deodorizing apparatus in Embodiment 1 by this invention. It is the side view and end elevation which show the structure of the mist separator in Embodiment 1 by this invention. It is the side view and front view which show the structure of the element fin in Embodiment 1 by this invention. It is the side view and front view which show the structure of the high retention strength type element fin in Embodiment 2 by this invention. It is the side view and front view which show the structure of the low holding power type element fin in Embodiment 3 by this invention. It is the side view and front view which show the structure of the element fin in Embodiment 4 by this invention. It is the side view and front view which show the structure of the element fin installed in series in Embodiment 5 by this invention.

Explanation of symbols

1 Mist separator, 2 Ozone generator, 3 Deodorizing fan, 4 Deodorizing tower, 5 Casing, 6 Element first plate, 7 Mist separator element, 8 Element fin, 9 Scraping valve, 10 High holding force type element fin, 11 Low Holding force type element fins, 12 Plural element fins, 13, 14

Claims (3)

The deodorizing fan that introduces the fluid to be treated to collect the raw odor contained in the fluid to be treated, and the raw odor contained in the fluid to be treated are mixed by contacting and mixing the raw odor and ozone contained in the fluid to be treated. An ozone generator for generating ozone for treatment, a moisture removal treatment element for removing moisture from the fluid to be treated distributed by the deodorizing fan, and ozone mixed with the original odor contained in the fluid to be treated And a deodorizing tower filled with an oxidation promoting medium for promoting oxidation by the water, and is rotationally driven by the flow of the treated fluid at the end of the moisture removing treatment element on the treated fluid inlet side of the moisture removing treatment element. Rutotomoni provided discharge means comprising a discharging rotatable member for discharging the deposits, provided opposite to said discharging rotatable member, the relative movement between the discharge rotary member Deodorizing apparatus characterized in that a scraping member to facilitate the discharge of deposit adhered to the discharge rotary member. The deodorizing apparatus according to claim 1 , wherein a plurality of the discharging rotation members are provided in series while maintaining an axial interval. The deodorizing apparatus according to claim 1 or 2 , wherein the discharging rotary member is detachable.

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