JPH09301504A - Deodorizing device for garbage pneumatic transportion device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a deodorizing device capable of reducing a space, a cost and a running cost and efficiently eliminating malodor contained in air separated from garbage. SOLUTION: The tip of a deodorant supplying pipe 11 for making an air pipe 7a self-suck a deodorant by using fluctuation of suction pressure in transporting of garbage is connected to a part in which suction pressure on a blower 6 suction side of a wind pie through which air separated from garbage is passed is fluctuated, the rear end of the pipe is connected to a container 12 provided with an outside air taking-in port 12a and in which a deodorant is filled, so that the amount of the deodorant to be supplied may be automatically increased or decreased by pressure fluctuation (negative pressure fluctuation) in the air pipe 7a.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an odor contained in the air separated from waste in an air transportation plant in which the waste introduced into a waste introduction port of a building or the like is pneumatically transported by a transportation pipe and collected in a collection center. The present invention relates to a deodorizing device capable of efficiently deodorizing.

[0002]

2. Description of the Related Art Conventionally, in an air transportation plant that collects waste put in a waste input port of a building, etc., by a transportation pipe and collects it at a collection center, it removes the bad odor contained in the air separated from the waste. Deodorizing devices are known.
For example, in the conventional waste air transportation device disclosed in Japanese Patent Laid-Open No. 59-7601, an activated carbon type deodorizing device is provided in series on the exhaust side or the intake side of a blower and is accompanied by a foul odor or sewage. It is disclosed that the dust is sealed and conveyed in a watertight container or the like having a strength that does not damage the dust.

[0003]

However, when an activated carbon type deodorizing device is provided in series on the exhaust side of the blower, an air cooler is provided between the deodorizing device and the blower in order to enhance the adsorption capacity. It is necessary to keep the exhaust temperature from the blower at 40 ° C or lower, and extra equipment such as an air cooler is required in addition to the deodorizing device. For this reason, it is inevitable that the plant becomes complicated, and the space and the cost increase.

When the activated carbon type deodorizing device is installed in series on the intake side of the blower, the deodorizing device must be installed in a pressure resistant container (for example, -5000 mmH ₂ O),
Further, since it is used within a negative pressure, it is unavoidable that the processing air expands and the apparatus becomes larger than when it is provided on the exhaust side. Therefore, the cost and the space become large, and it can be applied only to the small diameter pipes (150A to 250A) having a small air flow rate.

[0005] In addition, the capsule-type transportation has a high cost to make a capsule that cannot be broken, and cannot be put to practical use.

In view of the above points, the present invention makes it possible to reduce the space, cost, and running cost, and to efficiently deodorize the bad odor contained in the air separated from the dust. The purpose is to provide a device.

[0007]

A deodorizing device for a refuse pneumatic transportation device according to claim 1 of the present invention has the following configuration. That is, the blower generates an air flow in the transportation pipe to transport the dust by air, and the collection center separates the dust from the air and collects the dust. In a dust air transportation device that exhausts air through a wind pipe, the deodorant is sucked into the wind pipe by itself using the fluctuation of suction pressure during dust transportation at the part where the suction pressure on the blower suction side of the wind pipe fluctuates. Connect the tip of the deodorant supply pipe for
The rear end of the pipe is connected to a container having an outside air intake port and containing a deodorant. Therefore, if a flow control valve is installed on the blower suction side of the air duct,
The tip of the deodorant supply pipe is connected to the upstream side of the flow rate control valve. In the invention of claim 1, the dust and the dust thrown away from the dust input port of the building etc. are pneumatically transported in the transport pipe by the suction pressure of the blower, and the dust and the air are separated at the collection center to collect the dust. It The air separated from the dust flows into the suction side air duct, is sucked by the blower, and then is compressed and exhausted from the exhaust side air duct. The suction pressure (negative pressure) in the suction-side air tube becomes high during waste transportation.
At this time, a large amount of the deodorant is sucked into the air duct together with the outside air through the deodorant supply pipe from the container containing the deodorant, and the malodor contained in the air in the air duct is chemically decomposed. Further, when the suction pressure (negative pressure) in the air duct becomes low, the amount of the deodorant sucked into the air duct by itself through the deodorant supply pipe automatically decreases. In this way, the suction pressure (negative pressure) in the air duct sucks the deodorant by itself,
The amount of deodorant supplied is automatically increased / decreased by the pressure fluctuation (negative pressure fluctuation) in the air duct, so a compressor or fan for deodorant supply is not required, and it is a control device linked to the plant operation. Can be eliminated and the device can be simplified. Therefore, the construction cost can be kept low, and
The deodorant can be saved and the running cost can be reduced. Furthermore, since the container containing the deodorant has an outside air intake port and is always placed in a state where the outside air can be introduced (under atmospheric pressure), it is not necessary to use a pressure resistant container, and the conventional intake air Compared to the side-mounted activated carbon deodorizing device, the device can be significantly downsized, and space and construction costs can be reduced accordingly, and it can also be applied to large diameter pipes (500A) with large air volume. Becomes

Further, the deodorizing device of the waste air transportation device according to claim 2 of the present invention is provided with a control valve for adjusting the opening degree according to the waste transportation distance in the middle of the deodorant supply pipe. Is. According to the second aspect of the invention, the control valve provided in the middle of the deodorant supply pipe allows the opening degree to be adjusted according to the distance for transporting the waste and the four seasons (the odor concentration differs in summer and winter), and the annual opening can be adjusted. It is possible to reduce the consumption of deodorant through.

Further, the deodorizing device of the refuse pneumatic transportation device according to claim 3 of the present invention is provided with a nozzle having a plurality of holes at the tip of the deodorant supply pipe and projecting into the air duct. . In the invention of claim 3, since the deodorant can be supplied from the plurality of holes of the nozzle projecting into the air duct, the deodorant dispersion efficiency is improved and the deodorant effect can be stabilized.

According to a fourth aspect of the present invention, there is provided a deodorizing device for a waste air transportation device, wherein a tip of a deodorant supply pipe is branched into a plurality of pipes, and each branch pipe is connected to a plurality of circumferential positions of a wind pipe. It is a thing. In the invention of claim 4, since the deodorant can be supplied from a plurality of circumferential positions of the air duct by each branch pipe, the deodorant dispersion efficiency can be improved and the deodorant effect can be stabilized.

According to a fifth aspect of the present invention, there is provided a deodorizing device for a waste air transportation device, wherein a filter and a check valve that opens to the outside air intake side are provided at the outside air intake port of the container containing the deodorant. It is a thing. In the invention of claim 5, since the dust in the air introduced into the container can be removed by the filter, the deodorant is prevented from being contaminated by the introduced air. Further, the check valve opening to the outside air intake side can prevent the deodorant diffused in the container from escaping to the outside, and can maintain the saturated state when the operation is stopped.

Further, a deodorizing device for a refuse pneumatic transportation apparatus according to claim 6 of the present invention uses a moldable sublimable deodorant as the deodorant, and the sublimable deodorant is used to take in outside air in the container. The air passage extending from the mouth to the deodorant supply pipe connecting portion is formed with a plurality of walls having labyrinth passages. In the invention of claim 6, since the labyrinth passage is formed in the container by the plurality of moldable sublimable deodorant walls, the contact time of the introduced air with the deodorant can be lengthened. As a result, the concentration of the deodorant in the air in the container can be increased. Therefore, the deodorizing effect can be improved and stabilized.

Further, the deodorizing device of the waste air transportation device according to claim 7 of the present invention uses a liquid deodorant as a deodorant, and a compressed air jet nozzle or a nozzle for ejecting compressed air into the liquid deodorant tank in the container. An ultrasonic vibrator is provided, and when the suction pressure during dust transportation is low, compressed air is supplied from the jet nozzle or the ultrasonic vibrator is vibrated to generate mist, which is sucked together with the introduced air. It is a thing. In the invention of claim 7, when the compressed air is used as the means for generating the mist, the compressed air may be supplied to the ejection nozzle from outside the system or inside the system. If used, a fan or the like for generating compressed air can be eliminated. In any case, the liquid deodorant is used as the deodorant, and the mist of the liquid deodorant is forcibly generated by the injection of compressed air from the nozzle or the vibration of the ultrasonic vibrator. The deodorant concentration in the air in the container can be further increased. Therefore, the deodorizing effect can be further improved and stabilized.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. First, prior to the description of the embodiments, a development process and a basic concept of a deodorizing device for a refuse pneumatic transportation device according to the present invention will be described. As a method of deodorizing the bad odor contained in the exhaust gas without using the activated carbon method (adsorption method), a method of supplying a deodorant into the air duct to chemically decompose the bad odor is effective. As a deodorant supply method, for example, a liquid deodorant may be used as the deodorant, and compressed air may be used to eject the deodorant. However, in this case, since the deodorizing device is basically independent of the plant,
A large amount of deodorant must be constantly supplied according to the maximum value of the odor concentration in the exhaust gas, which inevitably increases the running cost. Such a problem can be solved by using the fluctuation of the suction pressure at the time of transporting the dust to suck the deodorant into the air duct by itself. In this way, if the deodorant is sucked by itself, the deodorizing device can be of a plant interlocking type, and the deodorant can be supplied according to the odor concentration in the exhaust gas.

Next, how the deodorizing device of the refuse pneumatic transportation device according to the present invention is embodied will be described based on the illustrated embodiment. FIG. 1 is a system diagram of equipment in a collection center of a waste air transportation plant for explaining a deodorizing device of the waste air transportation apparatus according to claims 1 and 2 of the present invention.

In the figure, 1 is a waste transportation pipe connected to a waste input port of a building or the like, 2 is a separator consisting of a cyclone dust collector for separating the waste transported in the transportation pipe 1 from the air, and 3 is a separator It is a container compactor for storing and discharging the waste separated in 2, and has a function of continuously compressing and filling the waste separated in the separator 2 in a container 4 under vacuum pressure. The container 4 in which dust is compressed and filled is separated from the container compactor 3 and loaded on a vehicle or the like, and secondarily transported to an incinerator or a landfill. 5 is a bag filter that collects fine dust that is not separated by the separator 2 by passing it through a filter cloth, and 6 is that air in the transport pipe 1 is sucked through the separator 2 and the bag filter 5. A blower 7a for generating an air flow in the transport pipe 1 is a suction-side air pipe connecting between the bag filter 5 and the blower 6, and the odor-containing air separated from dust and dust in the suction-side air pipe 7a. Flows. 8 is a flow rate control valve provided immediately before the blower 6 of the suction side wind pipe 7a, 9 is a deodorizing device that sucks the deodorant into the suction side wind pipe 7a by itself by utilizing the fluctuation of the suction pressure at the time of waste transportation, Reference numeral 7b is a wind pipe which is connected to the exhaust side of the blower 6 and serves as an exhaust duct for discharging deodorized air to the atmosphere.

The deodorizing device 9 includes a deodorant supply pipe 11 having a tip connected upstream of the flow rate control valve 8 of the suction side air pipe 7a, and a deodorant supply pipe 11 containing the deodorant.
The container 12 is connected to the rear end thereof, and the container 12 is provided with an outside air intake 12a in which a filter 13 is installed. A control valve 14 that can be manually operated is provided in the middle of the deodorant supply pipe 11 so that the opening degree can be adjusted according to the distance to transport the dust.

In the deodorizing device of the waste air transport device of this embodiment, the dust transported by air in the transport pipe 1 is separated from the air in the separator 2 and the container compactor 3 below.
Inside, the container 4 is continuously compressed and filled under vacuum pressure in the container compactor 3. The container 4 in which dust is compressed and filled is separated from the container compactor 3 and loaded on a vehicle or the like, secondarily transported to an incinerator or a landfill, and disposed of.

On the other hand, the air separated from dust in the separator 2 and further separated from fine dust by the bag filter 5 is
After flowing into the suction side air tube 7a and being sucked by the blower 6, it is compressed and exhausted from the exhaust side air tube 7b. In this process, the suction pressure (negative pressure) in the suction-side air tube 7a increases during the transportation of dust. At this time, the container 12 containing the deodorant
A large amount of the deodorant is sucked into the suction side air duct 7a by itself from the deodorant through the deodorant supply pipe 11 and the suction side air duct 7a.
The malodor contained in the air inside is chemically decomposed. Also,
When only air is transported, the suction pressure (negative pressure) in the suction side air tube 7a becomes low. Therefore, the deodorant supply pipe 11
The amount of the deodorant that is sucked into the suction side air duct 7a by itself automatically decreases.

Thus, the deodorant is sucked by itself by the suction pressure (negative pressure) in the suction side air tube 7a, and
Since the amount of deodorant supplied is automatically increased or decreased by the pressure fluctuation (negative pressure fluctuation) in the suction side wind pipe 7a, a compressor or fan for supplying the deodorant is not required, and it is possible to operate the plant. A control device for interlocking can be eliminated and the device becomes simple. Therefore, the construction cost can be kept low, the deodorant can be saved, and the running cost can be reduced.

Further, since the container 12 containing the deodorant has the outside air intake port 12a in which the filter 13 is installed and is always placed in a state where the outside air can be introduced (under atmospheric pressure), There is no need to use a pressure-resistant container, and the device can be significantly downsized compared to the conventional activated carbon type deodorizing device arranged on the intake side, and space and construction costs can be reduced accordingly.
It can also be applied to large diameter pipes (500A) with large air flow.

Further, the control valve 14 provided in the middle of the deodorant supply pipe 11 makes it possible to adjust the degree of opening according to the distance of transportation of dust and the four seasons (the odor concentration differs in summer and winter), and the deodorant is adjusted throughout the year. The consumption of odorant can be reduced. That is, in the case of a relatively weak plant where the suction pressure of the blower 6 is about -3000 mmH ₂ O, the pressure when not collecting dust is generally -1000 to -1500 mmH ₂ O or less, so the control valve 14 is manually operated. Then, the opening is set to a large value so as to match the fluctuation of the suction pressure at the time of transporting the dust. As a result, even in a plant in which the suction pressure of the blower 6 is weak, the deodorant can be sufficiently sucked by itself by the suction pressure during the transportation of the waste, and the supply amount of the deodorant can be adjusted according to the fluctuation of the suction pressure. It can be changed (increased or decreased) automatically. If the dust collection area is large and the dust transport distance is long, set the suction pressure of the blower 6 to -6
It is necessary to strengthen before and after 000 mmH ₂ O. in this case,
The suction pressure during air operation (when not collecting dust) is −
The width becomes as wide as 1000 to −4000 mmH ₂ O, and if the opening of the control valve 14 is fixed as described above, the deodorant is unnecessarily supplied even during air operation with low odor concentration. Therefore, in the case of a plant having a long waste transportation distance, the control valve 14 can automatically adjust the opening degree. As a result, it is possible to reduce the consumption of the deodorant even in a plant having a long waste transportation distance.

Here, the description has been given by taking as an example the one in which the deodorizing device 9 is provided in the line of the system in which the flow rate control valve 8 is provided immediately before the blower 6 to adjust the flow rate. Therefore, although the deodorizing device installation site (the site where the suction pressure fluctuates) is on the upstream side of the flow rate control valve 8, the flow rate control valve is not necessary in the case of the line in which the blower 6 is controlled by the inverter. Therefore, it goes without saying that the deodorizing device 9 may be installed anywhere in the suction side air tube 7a.

Embodiment 2 FIG. FIG. 2 shows Claim 1 of the present invention.
It is a schematic block diagram which shows the principal part of the deodorizing apparatus of the refuse air transportation apparatus which concerns on 2, 3, and the said 1st Embodiment (FIG. 1) in a figure.
Are given the same reference numerals.

The deodorizing device of the refuse pneumatic transportation device according to this embodiment has a plurality of holes 15 at the tip of the deodorant supply pipe 11.
A nozzle 15 having a and projecting into the suction side air duct 7a is provided, and the other configuration is the same as that of the first embodiment described above.

In the deodorizing device of the refuse air transporting device of this embodiment, the nozzle 15 protruding into the suction side air tube 7a.
Since the deodorant can be supplied from the plurality of holes 15a, the deodorant dispersion efficiency can be improved and the deodorant effect can be stabilized.

Embodiment 3 FIG. 3 shows claims 1 and 2 of the present invention.
It is a schematic block diagram which shows the principal part of the deodorizing apparatus of the refuse air transportation apparatus which concerns on 2, 3, 4, and in the figure, the same code | symbol is attached | subjected to the part corresponding to the above-mentioned 1st Embodiment (FIG. 1). is there.

In the deodorizing device of the waste air transportation device according to this embodiment, the tip of the deodorant supply pipe 11 is branched into a plurality (here, three), and the respective branch pipes 11a, 11b, 11c are sucked into the suction side wind. The pipe 7a is arranged at three locations in the circumferential direction at equal intervals and connected, and the other configuration is the same as that of the first embodiment described above.

In the deodorizing device of the refuse air transporting device of this embodiment, since the deodorant can be supplied from each of the branch pipes 11a, 11b and 11c from three locations in the circumferential direction of the suction side air duct 7a, the deodorant can be dispersed. The efficiency is improved and the deodorizing effect can be stabilized.

Although the number of branch pipes has been described as an example here, it is needless to say that the number of branch pipes may be two or three or more.

A plurality of nozzles with holes as shown in the second embodiment may be provided at the tip of each branch pipe, and in this case, the dispersion efficiency of the deodorant can be further improved. it can.

Embodiment 4 FIG. FIG. 4 shows claim 1 of the present invention.
It is a schematic block diagram which shows the principal part of the deodorizing device of the refuse air transportation apparatus which concerns on 2,3,4,5,6. In the figure, the same code | symbol is attached to the part corresponding to the above-mentioned 1st Embodiment (FIG. 1). Is attached.

The deodorizing device of the refuse pneumatic transportation device according to this embodiment is a container 12 containing the deodorant of the deodorizing device 9A.
A filter 13 and a flap valve 16 serving as a check valve that opens to the outside air intake side are provided at the outside air intake port 12a of
A moldable sublimable deodorant 17 is used as the deodorant, and the sublimable deodorant 17 allows the outside air intake port 12a in the container 12 to be removed.
A plurality of walls 19a, 19b, 19 having an air passage from the deodorant supply pipe 11 to the connection portion as a labyrinth passage 18.
c is formed. The other configurations are the same as those of the first
This is the same as that of the embodiment.

In the deodorizing device of the refuse air transporting device of this embodiment, since dust in the air introduced into the container 12 of the deodorizing device 9A can be removed by the filter, the sublimable deodorant 17 is contaminated by the introduced air. Is prevented.

Further, the flap valve 16 serving as a check valve that opens to the outside air intake side can prevent the sublimable deodorant 17 diffused in the container 12 from escaping to the outside and saturate when the operation is stopped. The state can be maintained.

Further, since the labyrinth passage 18 is formed in the container 12 by the plurality of walls 19a, 19b, 19c made of the moldable sublimable deodorant 17, the sublimable deodorant 17 for the introduced air is formed. The contact time can be lengthened and the concentration of the deodorant in the air in the container 12 can be increased. Therefore, the deodorizing effect can be improved and stabilized.

Embodiment 5 FIG. 5 shows claim 1 of the present invention.
It is a schematic block diagram which shows the principal part of the deodorizing device of the refuse air transportation apparatus which concerns on 2,3,4,5,7, and the said 1st Embodiment (FIG. 1) and 4th Embodiment (FIG. 4). The parts corresponding to () are given the same reference numerals.

The deodorizing device of the refuse air transporting device according to this embodiment uses the liquid deodorant 21 as the deodorant contained in the container 12 of the deodorizing device 9B, and the liquid deodorant tank in the container 12 is used. 22 is provided with a compressed air ejection nozzle 23 having a plurality of holes 23a, and when the suction pressure during dust transportation is small, a mist is generated by supplying compressed air from the plurality of holes 23a of the ejection nozzle 23. The air is sucked together with the introduced air.

In the middle of the air passage from the outside air intake 12a in the container 12 through the space above the liquid deodorant tank 22 to the connection with the deodorant supply pipe 11 (here, the liquid deodorant tank On the side), a wall 24 hanging from the top wall of the container is provided, and the introduced air moves downward from the space above the liquid deodorant tank 22 to the space formed between the wall 24 and the liquid deodorant tank 22. Flow, through a turn-back passage formed between the lower end of the wall 24 and the container bottom, then flows upward through the space formed between the wall 24 and the container side wall, and into the upper deodorant supply pipe 11. It's flowing. Therefore, the introduced air does not flow directly through the top wall of the container into the deodorant supply pipe 11, and the concentration of the deodorant in the air in the container 12 can be increased.

In the liquid deodorant tank 22, a level meter 2
5 is installed, the valve in the replenishing liquid supply pipe (not shown) is controlled to open and close based on the measurement result of the level meter 25, and the water level is always kept constant.

Further, the upper space of the liquid deodorant tank 22 is covered with a mist-passable filter 26, and the filter 26 prevents water splash when jetting compressed air from the nozzle 23. ing. Reference numeral 27 is a drain valve, and 28 is a control valve for compressed air supplied to the ejection nozzle 23. Other configurations are the same as those of the above-described first and fourth embodiments.

In the deodorizing device of the dust-air transporting device of this embodiment, the compressed air for generating the mist can be supplied either from outside the system or inside the system, but here the jet nozzle 23 is directed to the exhaust side of the blower. Connected to use the exhaust pressure. This made it possible to eliminate the need for a fan or the like for generating compressed air.

In the deodorizing device of the refuse air transporting apparatus of this embodiment, the liquid deodorant 21 is used as the deodorant, and the mist of the liquid deodorant 21 is forced by jetting compressed air from the jet nozzle 23. Therefore, the concentration of the deodorant in the air in the container 12 can be further increased. Therefore, the deodorizing effect can be further improved and stabilized.

Here, although the description has been given by taking the example of using the compressed air from the ejection nozzle 23 as the means for generating the mist, it goes without saying that this may be replaced by an ultrasonic vibrator. Even in such a case, the same operational effect as the compressed air system can be obtained.

FIG. 6 is a diagram showing the relationship between the suction pressure of the blower and the amount of deodorant consumed according to the present invention. The amount of consumption is indicated as 100 when the deodorant is supplied to the exhaust side of the blower. There is. FIG. 7 is a diagram showing the relationship between the odor concentration before and after deodorization and the deodorant consumption, and the case where the deodorant is supplied to the exhaust side of the blower is indicated by a dotted line.

That is, in a plant with a pipe diameter of 500 A, the space required is less than that of an activated carbon adsorption type deodorizer.
We were able to reduce it to / 10 and the construction cost to 1/5. Further, the running cost was reduced by 50% in the case of the sublimable deodorant and 30% in the case of the liquid deodorant.

Further, the consumption of the deodorant can be reduced by 50% as compared with the case where the deodorant is supplied to the exhaust side of the blower. Furthermore, the compressor and fan for air supply are no longer needed, and the control device linked to the plant is no longer required, so the construction cost can be reduced by 25%.

Further, since the odor concentration in the air after transporting the waste air differs between summer and winter, the deodorant suction amount is changed by the control valve according to the season, thereby further increasing the deodorant consumption amount by 25. It has become possible to reduce by%.

[0049]

As described above, according to the first aspect of the invention, the deodorant is sucked by the suction pressure (negative pressure) in the wind tube by itself, and the pressure fluctuation (negative pressure fluctuation) in the wind tube is caused.
Since the amount of deodorant supplied is automatically increased or decreased, the compressor and fan for deodorant supply are not required, and the control device linked to the plant operation is also unnecessary. Was made simple. Therefore, the construction cost can be kept low, the deodorant can be saved, and the running cost can be reduced. Furthermore, the container that contains the deodorant is provided with an outside air intake port so that the outside air can always be introduced (under atmospheric pressure), so there is no need to use a pressure resistant container, and the conventional intake Compared to the side-mounted activated carbon type deodorizing device, the device can be significantly downsized, and space and construction costs can be reduced accordingly, and it can be applied to large diameter pipes (500A) with large air volume. became.

Further, according to the invention of claim 2, since a control valve for adjusting the opening degree according to the waste transportation distance is provided in the middle of the deodorant supply pipe, the waste transportation distance and the four seasons (summer) It is possible to adjust the opening according to the difference in odor concentration between winter and winter) and reduce the consumption of deodorant throughout the year.

Further, according to the invention of claim 3, since the nozzle having a plurality of holes and projecting into the air duct is provided at the tip of the deodorant supply pipe, the dispersion efficiency of the deodorant is improved. , The deodorizing effect could be stabilized.

Further, according to the invention of claim 4, since the tip of the deodorant supply pipe is branched into a plurality of parts and each branch pipe is connected to a plurality of positions in the circumferential direction of the wind pipe, the wind pipe is connected by each branch pipe. The deodorant can be supplied from a plurality of locations in the circumferential direction, the dispersion efficiency of the deodorant is improved, and the deodorant effect can be stabilized.

Further, according to the invention of claim 5, since the filter and the check valve which opens to the outside air intake side are provided at the outside air intake port of the container in which the deodorant is contained, it is introduced into the container. The dust in the air can be removed by a filter to prevent the deodorant from being contaminated by the introduced air, and the check valve that opens to the outside air intake side allows the deodorant diffused inside the container to be released outside. It was possible to prevent the vehicle from escaping to and maintain a saturated state when the operation was stopped.

Further, according to the invention of claim 6, a moldable sublimable deodorant is used as the deodorant, and the sublimable deodorant is used to connect the deodorant supply pipe from the outside air intake port in the container. Since multiple walls are formed with the labyrinth passage as the air passage leading to the section, the contact time of the introduced air with the deodorant can be extended and the concentration of the deodorant in the air in the container can be increased. did it. For this reason, the deodorizing effect could be improved and stabilized.

According to the invention of claim 7, a liquid deodorant is used as the deodorant, and a jet of compressed air or an ultrasonic vibrator is provided in the liquid deodorant tank in the container to remove dust. When the suction pressure during transportation is low, compressed air is supplied from the jet nozzle or a mist is generated by vibrating the ultrasonic vibrator to suck the mist together with the introduced outside air. The deodorant concentration was able to be further increased, the deodorizing effect was further improved, and it was possible to make it more stable.

[Brief description of drawings]

FIG. 1 is a system diagram of equipment in a collection center of a refuse air transportation plant for explaining a deodorizing device of a refuse air transportation apparatus according to a first embodiment of the present invention.

FIG. 2 is a schematic configuration diagram showing a main part of a deodorizing device of a dust pneumatic transportation device according to a second embodiment of the present invention.

FIG. 3 is a schematic configuration diagram showing a main part of a deodorizing device of a dust pneumatic transportation device according to a third embodiment of the present invention.

FIG. 4 is a schematic configuration diagram showing a main part of a deodorizing device of a dust pneumatic transportation device according to a fourth embodiment of the present invention.

FIG. 5 is a schematic configuration diagram showing a main part of a deodorizing device of a refuse air transportation device according to a fifth embodiment of the present invention.

FIG. 6 is a diagram showing the relationship between the suction pressure of a blower and the amount of deodorant consumed according to the present invention.

FIG. 7 is a diagram showing a relationship between odor concentration and deodorant consumption before and after deodorization according to the present invention.

[Explanation of symbols] 1 transport pipe 2 separator 3 container compactor 4 container 5 bag filter 6 blower 7a suction side wind pipe 7b exhaust side wind pipe 8 flow control valve 9, 9A, 9B deodorizing device 11 deodorant supply pipe 11a , 11b, 11c Branch pipe 12 Container 12a Outside air intake 13 Filter 14 Control valve 15 Nozzle 15a Plural holes 16 Flap valve (check valve) 17 Sublimable deodorant 18 labyrinth passage 19a, 19b, 19c plural Wall 21 Liquid deodorant 22 Liquid deodorant tank 23 Compressed air jet nozzle

Claims (7)

[Claims] 1. A blower generates an air flow in a transportation pipe to transport waste by air, and a collection center separates the waste from the air to collect the waste, and controls the flow rate of the air separated from the waste on the way. In a dust air transport device for exhausting air through a wind pipe having a valve and a blower, a deodorizing device is used to deodorize the inside of the wind pipe by utilizing the suction pressure fluctuation during transport of dust at a site where the suction pressure on the blower suction side of the wind pipe changes Waste air characterized in that the tip of a deodorant supply pipe for sucking the agent by itself is connected, and the rear end of the pipe is connected to a container having an outside air intake port and containing the deodorant. Deodorizing device for transportation equipment. 2. The deodorizing device for a refuse air transportation device according to claim 1, wherein a control valve for adjusting the opening degree is provided in the middle of the deodorant supply pipe in accordance with the dust transportation distance. 3. The deodorizing apparatus for a refuse air transporter according to claim 1 or 2, wherein a nozzle having a plurality of holes and projecting into the air duct is provided at the tip of the deodorant supply pipe. apparatus. 4. The deodorant supply pipe is branched into a plurality of ends, and each branch pipe is connected to a plurality of positions in the circumferential direction of the wind pipe, according to any one of claims 1 to 3. Deodorizing device for waste air transportation equipment. 5. A filter and a check valve that opens to the outside air intake side are provided at the outside air intake port of the container that contains the deodorant. Deodorizing device for the listed waste air transportation device. 6. A moldable sublimable deodorant is used as a deodorant, and the sublimable deodorant forms a labyrinth passage through an air passage from an outside air intake port in a container to a deodorant supply pipe connecting portion. 2. A plurality of walls are formed as follows.
A deodorizing device for a refuse air transportation device according to claim 5. 7. When a liquid deodorant is used as the deodorant and a nozzle for ejecting compressed air or an ultrasonic vibrator is provided in the liquid deodorant tank in the container to reduce the suction pressure during dust transportation. The compressed air is supplied from the jet nozzle or the ultrasonic vibrator is vibrated to generate mist, and the mist is sucked together with the introduced outside air. Deodorizing device for air transportation device.