JP5403577B2 - Deodorization device - Google Patents

Description

  The present invention relates to a deodorization technique. For example, there are many types of odors such as station buildings, highway service areas, department store toilets, water treatment facilities in the basement of complex facilities, garbage sorting places, garbage storage places, medical waste storage places, The present invention relates to a deodorization technique in a space where a type 3 ventilation system is adopted as a ventilation facility.

  Deodorization in a space where odors are generated or filled, for example, a space where a first-class ventilation system or a second-class ventilation system is installed, can be done in the air supply duct. A duct-in type ion air generator is provided to convert the air supplied into ion air, send the ion air into a space to be deodorized, decompose the odor components by the action of the ion air, and perform deodorization.

  However, there is no air supply duct when the supply air is of the natural ventilation type 3 ventilation system. Therefore, a duct-in type ion air generator cannot be used.

  Therefore, the problem to be solved by the present invention is to provide a deodorizing device provided in a third type ventilation type odor generating space.

The above issues are
It is a deodorizing device provided in the odor generating space of the third type ventilation method,
The deodorizing device is
A box having an opening on one end and an opening on the other end ;
A slit-shaped punching metal provided in an air flow path between the opening on the one end side and the opening on the other end side of the box;
An air filter with a lytic enzyme provided in an air flow path between the slit punching metal and the opening on the other end side ;
A plurality of intake DC axial fans provided in an air flow path between the air filter with the lytic enzyme and the opening on the other end ;
A plurality of ion air generators provided in an air flow path between the fan and the opening on the other end side ;
A universal grill provided in an air flow path between the ion air generator and the opening on the other end side ;
The ion air generator includes a cylindrical glass tube, a cylindrical punching metal body provided in the cylindrical glass tube, a cylindrical metal mesh provided on the outer surface of the cylindrical glass tube, and the cylindrical punching metal body. And a power source for applying a voltage of 2000 to 4000 V between the cylindrical wire mesh and oxygen flowing outside the cylindrical glass tube is ionized by corona discharge caused by turning on the power source. Is configured to occur,
The universal grill is configured such that, when viewed from the opening on the other end side , the horizontal blade is provided on the front side and the vertical blade is provided on the back side, and the horizontal blade can be changed up and down and the vertical blade can be changed left and right. This is solved by a deodorizing device characterized in that.

  According to the present invention, it is possible to effectively perform deodorization in a space where supply / exhaust is insufficient, for example, in a third type ventilation type odor generating space.

  The present invention is a deodorizing apparatus. And it has a casing body which has an entrance part and an exit part. Moreover, it has the slit-shaped punching metal provided in the air flow path between the said inlet part and outlet part of the said casing body. Moreover, it has the air filter with a lytic enzyme provided in the air flow path between the said slit-like punching metal and the said exit part. Moreover, it has the fan provided in the air flow path between the said air filter with a lytic enzyme, and the said exit part. In addition, an ion air generator is provided in an air flow path between the fan and the outlet. Moreover, it has the universal grill provided in the air flow path between the said ion air generator and the said exit part. In particular, the ion air generator includes a cylindrical glass tube, a cylindrical punching metal body provided in the cylindrical glass tube, a cylindrical wire mesh provided on the outer surface of the cylindrical glass tube, and the cylindrical punching metal. A power source for applying a voltage of 2000 to 4000 V between the body and the cylindrical wire mesh, and oxygen flowing outside the cylindrical glass tube is ionized by corona discharge caused by turning on the power source. Thus, ion air is generated.

The deodorizing apparatus of the present invention is suitable for, for example, N-type odor mainly composed of ammonia, S-type odor mainly composed of hydrogen sulfide or mercaptan, and other odors such as perfume, liquor odor or body odor. Effective deodorization.
That is, deionization is performed by the ion air from the ion air generator acting as follows.
Ammonia (NH ₃ ) + Ion air (.OO ⁻ ) → Decomposition → Nitrogen (N ₂ ) + Water (H ₂ O)
Hydrogen sulfide (H ₂ S) + ion air (• OO ⁻ ) → decomposition → SO ₂ + water (H ₂ O)
Water _(H 2 O) + ionized air ^{(· OO -) → H-} O · + H-OO -
→ H-O-O · + H-O -
SO ₂ + HO— → SO ₃ + HO—
Organic matter (hydrocarbon) + ion air (· OO−) → decomposition → CO ₂ + H ₂ O

  Well, in station buildings, there are many cotton-like dust from clothes. Therefore, if a filter is provided, the filter is clogged in a short time. And it costs for cleaning of a filter. In addition, the filter life is short and the running cost is high.

  Therefore, in the present invention, the slit-shaped punching metal is provided at the air inlet (in front of the filter). Thereby, dust adheres to the slit-like punching metal before adhering to the filter, and adhesion to the filter can be prevented. Even if dust adheres to the punching metal, unlike a filter, it is made of metal and has high strength, so that it can be easily removed with, for example, a vacuum cleaner. Alternatively, it can be easily removed with a wet rag. And the lifetime of a filter becomes a long thing.

  Incidentally, an air filter with a lytic enzyme is provided at the next position of the slit-like punching metal. This air filter with a lytic enzyme collects fine dust, dust, bacteria, and microorganisms in the air after the cotton dust is removed. Bacteria and the like collected by this air filter are obtained by lysing the lytic enzyme (modified lytic enzyme) fixed to the air filter by hydrolysis of the binding part (glycoside, amide, peptide, etc.) constituting the bacterial cell wall. A hole is made in the cell wall, and the cell membrane inside the bacterium is ruptured and killed by osmotic pressure. Note that the lytic enzyme (modified lytic enzyme) is generally safe, chemically bonded to the filter constituent fibers at the molecular level, and does not peel off and scatter.

  A fan is provided on the side of the air filter with the lytic enzyme to suck in air containing odor. In particular, an axial fan is attached to the mounting plate. That is, the air in the space is sucked from the inlet of the casing body by the operation of the axial fan. And it blows off from an exit part through a slit-like punching metal, an air filter with a lytic enzyme, an axial fan, an ion air generator, and a universal grill.

  Note that the air resistance when passing through a slit-like punching metal, an air filter with a lytic enzyme, a universal grill or the like is small, only a pressure loss of about 50 to 100 pa, and is within the range of the performance of the axial fan. An axial fan is preferable because of its compact structure and low noise. The axial fans include an AC axial fan driven by an AC power source from a motor driving power source system and a DC axial fan driven by a DC power source. The amount of air is approximately proportional to the rotational speed of the axial fan, and the noise is proportional to the sixth power of the rotational speed of the axial fan. It is particularly preferable to use a DC axial flow fan that is easy to handle.

  The ion air generator is a cylindrical glass tube, for example, a cylindrical glass tube, one end of which is fixed in the axial direction with an insulator fixed with an insulator, and the other end is closed, and the cylindrical glass tube is made of cylindrical stainless steel coaxially. A punching metal is provided in connection with the mounting screw, a cylindrical stainless steel wire mesh is provided coaxially on the outer surface of the cylindrical glass tube, and 2000 to 4000 V is provided between the cylindrical stainless steel punching metal and the cylindrical stainless steel wire mesh. In particular, a voltage of 2500 to 3000 V is applied, and oxygen flowing outside the cylindrical glass tube is ionized by the induced corona discharge to generate ion air. In addition, it is preferable that the length of the cylindrical stainless steel punching metal and the cylindrical stainless steel wire mesh is substantially the same. The amount of ion generation is approximately proportional to the length. When deodorization is performed using the deodorization apparatus of the present invention, it is possible to deodorize a space larger than the size of the ion air generation apparatus. For example, deodorization in a space about 1000 to 5000 times larger was effectively performed.

  In the present invention, the universal grill is provided at the next position of the ion air generator. In other words, the universal grill efficiently diffuses ion air generated by the ion air generator in the space in the vertical and horizontal directions of the ion air generator and effectively performs deodorization.

  Hereinafter, it demonstrates more concretely using FIGS. FIG. 1 is a cross-sectional view showing the overall configuration of the deodorizing apparatus of the present invention, and is a view taken along the line DD in FIG. 2 is an AA arrow view of the deodorizing apparatus, FIG. 3 is an explanatory view of the universal grill, FIG. 4 is an EE arrow view of the universal grill, FIG. 5 is a sectional view of the ion air generator, and FIG. FIG. 7 is a power system diagram of the punched metal.

  The deodorizing apparatus of the present invention has a casing body (housing body: box) 1. The casing body 1 includes an inlet portion 2 having a rectangular opening shape on one end side (upper side in FIG. 1), and an outlet portion having a rectangular opening shape on the other end side (lower side in FIG. 1). 3 is configured. Then, air in the outer space of the casing body 1 is sucked from the inlet portion 2, and the sucked air is ionized while passing through the inside of the casing body 1, and is discharged out of the casing body 1 from the outlet portion 3.

  Inside the casing body 1, in the air flow path connecting the inlet portion 2 and the outlet portion 3, from the inlet portion 2 side, a slit-like punching metal 4, an air filter 5 with a lytic enzyme, a plurality of DC axial fans ( A plurality of DC axial fans (6) attached to the mounting plate (7), a plurality of ion air generators (8), and a universal grill (9) are provided in this order.

  The details of the ion air generator 8 are as shown in FIG. That is, the ion air generator 8 has a cylindrical glass tube 10. A mounting screw 11 is fixed with an insulator 12 in the axial direction on one end side of the cylindrical glass tube 10. The other end of the cylindrical glass tube 10 is a closed cylindrical glass tube. In this cylindrical glass tube 10, a cylindrical stainless steel punching metal 13 is coaxially connected to the mounting screw 11. A cylindrical stainless steel wire mesh 14 is coaxially provided as an electrode on the outer surface of the cylindrical glass tube 10. A voltage of 2000 to 4000 V, particularly 2500 to 3000 V is applied between the cylindrical stainless steel punching metal 13 and the cylindrical stainless steel wire mesh 14. That is, corona discharge is caused by applying a high voltage between the electrodes. As a result, oxygen in the air flowing outside the cylindrical glass tube 10 is ionized to generate ion air. The ion air generator 8 is fixed to a transformer box 15 made of an insulator with a mounting screw 11. The transformer 16 provided in the transformer box 15 and the mounting screw 11 are connected by wiring so that a high voltage boosted by the transformer 16 is applied.

  FIG. 7 is an electrical system diagram of the ion air generator 8. That is, 100V AC power for home use is supplied from the plug 17, passes through the terminal 18, the ON-OFF switch 19, the circuit protector 20, and the operation lamp 21, and is converted into DC power by the switching regulator 22, and the rotation speed control plate 23 is variable. It is supplied to the DC axial flow fan 6 through the resistor 24. The DC axial flow fan 6 can adjust the rotation speed with a variable resistor 24. Further, 100 V AC power is supplied to the transformer 16 via the circuit protector 20 and the operation lamp 21, and the voltage is increased to 2500 to 3000 V by the transformer 6, so that a high voltage is applied to the ion air generator 8. In addition, when an overcurrent trouble occurs in the power supply system of the DC axial fan 6, the circuit protector 20 operates to stop the power supply of the DC axial fan 6, and the overcurrent occurs in the power supply system of the ion air generator 8. When this trouble occurs, the circuit protector 25 is activated, and the power supply to the ion air generator 8 is stopped. In addition, even if any circuit protector operates, a signal can be taken out from the terminal 27 to the outside. The electrical system ON-OFF switch 19, circuit protectors 20 and 25, operation lamps 21 and 26, variable resistor 24 and the like are in the electrical box 30, the switching regulator 22 and the rotation speed control plate 23, and the terminals 18 and 27 are in the electrical box. 31 is provided.

  The universal grill 9 is as shown in FIGS. That is, the universal grill 9 has a configuration in which the horizontal blades 28 are provided on the front side and the vertical blades 29 are provided on the back side when viewed from the outlet portion 3. And the horizontal blade | wing 28 can be changed up and down, the vertical blade | wing 29 can be changed to right and left, the horizontal blade | wing 28 and the vertical blade | wing 29 can each be adjusted up and down and left and right, and the blowing direction of the ion air blown from the universal grill 9 can be adjusted. It is like that. That is, ion air can be supplied in a desired direction with respect to the space.

And the effect of the deodorizing apparatus comprised as mentioned above is demonstrated.
First, the number of negative ions and the like were measured with respect to the amount of ion air generated (amount of air blown) and the generated concentration when the number of axial fans 6 and the size and number of ion air generators 8 were changed. In addition, use of an ion air generator is shown in Table-1. The measurement results are shown in Table-2.

表−２

Table-1

Table-2

And since the deodorizing apparatus using the said ion air generator (2) was installed in the toilet of a station building and the deodorizing effect was investigated, the result is shown in Table-3. This survey was conducted by sampling the odor of the toilet at 1 pm and using the olfactory measurement method using the three-point comparative odor bag method specified by the Odor Control Law before and after 1 month of installation. And the odor concentration after 2 months. The volume of the toilet is about 60 m ³ , the third type ventilation system has an exhaust air volume of 1457 m ³ / hr, the number of exhausts is 24.3 times / hr, the ion generation amount of the ion air generator is 1050 m ³ / hr, The number of circulation times of ion air was 17.5 times / hr, the number of ions at the outlet of the ion air generator was 45000 / cm ³ , and the average number of ions in the toilet was 3140 / cm ³ .

Table-3
Odor concentration Deodorization efficiency Before installation 40
1 month after installation operation 25 37.5%
One month after installation operation 16 60.0%
* Deodorization efficiency = (Odor concentration before installation-Odor concentration after installation operation) / (Odor concentration before installation) x 100

  In addition, a portable odor measuring device KALMOR-Σ (Calmore Co., Ltd.) and odor analyzer KALMOR-MMS (Calmore Co., Ltd.) are installed in the toilet of the station building. Since the daily odor concentration in the later toilet was measured, the measurement data is shown in FIG. 8, and the daily Σ value Max value and the average value are shown in Table-4.

Table-4
Odor intensity Σ value Before installation Max. Value 1340 690 after 2 months of installation
Average 510 280
According to this, it turns out that the deodorizing apparatus of this invention provided in the odor generation space of the 3rd type ventilation system is performing deodorizing effectively.

Cross-sectional view of the deodorizing / reproducing apparatus of the present invention AA arrow view in FIG. Illustration of universal grill Illustration of universal grill Cross section of ion air generator Illustration of slit punching metal Power system diagram Odor concentration graph

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Casing body 2 Inlet part 3 Outlet part 4 Slit punching metal 5 Air filter 6 with lytic enzyme DC axial flow fan 8 Ion air generator 9 Universal grill

Representative Katsumi Udaka

Claims (1)

It is a deodorizing device provided in the odor generating space of the third type ventilation method,
The deodorizing device is
A box having an opening on one end and an opening on the other end ;
A slit-shaped punching metal provided in an air flow path between the opening on the one end side and the opening on the other end side of the box ;
An air filter with a lytic enzyme provided in an air flow path between the slit punching metal and the opening on the other end side ;
A plurality of intake DC axial fans provided in an air flow path between the air filter with the lytic enzyme and the opening on the other end ;
A plurality of ion air generators provided in an air flow path between the fan and the opening on the other end side ;
A universal grill provided in an air flow path between the ion air generator and the opening on the other end side;
The ion air generator includes a cylindrical glass tube, a cylindrical punching metal body provided in the cylindrical glass tube, a cylindrical metal mesh provided on the outer surface of the cylindrical glass tube, and the cylindrical punching metal body. And a power source for applying a voltage of 2000 to 4000 V between the cylindrical wire mesh and oxygen flowing outside the cylindrical glass tube is ionized by corona discharge caused by turning on the power source. Is configured to occur,
The universal grill is configured such that, when viewed from the opening on the other end side , the horizontal blade is provided on the front side and the vertical blade is provided on the back side, and the horizontal blade can be changed up and down and the vertical blade can be changed left and right. A deodorizing device characterized by that.

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