KR20210156938A - Black soldier fly Spawning facility - Google Patents

Abstract

The present invention relates to a Black solider fly spawning facility with a pollution reduction device, and more particularly, to a Black solider fly spawning facility with a pollution reduction device, which comprises a darkroom-type eclosion room on a first floor and a relatively bright spawning room on the second floor so as to easily attract adult insects by light, and which is installed with a moving window between the first and second floors so as to be used as a passage for adult insects and as a work passage for workers, while the density of adult insects in the spawning room on the second floor can be controlled, and which is formed with an odor injection unit the spawning container to increase the working efficiency when replacing a spawning container. The facility comprises: an eclosion room (100) in which a plurality of eclosion boxes (110) located on the first floor are stacked and the light is blocked, so that pupae of Black solider fly are accommodated and induced to eclose and grow to adult insects; a spawning chamber (200) located on the second floor, in which a spawning tube (210) is disposed so that the grown insects are spawned, and the luminance is higher than that of the eclosion room (100) through natural or illuminated light; and a pollution reduction device (2000) installed at one end of the spawning room, so as to treat and reduce pollution factors existing inside the spawning room.

Description

A spawning facility in Dongae with a pollution reduction device {Black soldier fly Spawning facility}

The present invention relates to a spawning facility for dongae etc. having a pollution reduction device. More specifically, it is easy to attract adult insects by light, and it is easy to attract adults by light by configuring a darkroom-shaped first-floor alligator room and a relatively bright second-floor spawning room. By installing a moving window between the floors, it can be used as a passage for adults and as a work passage for workers, and at the same time, the density of adults in the spawning room on the second floor can be adjusted. It relates to a spawning facility for dongae, etc. having a pollution reduction device characterized in that it is.

In general, waste is generated during human life, and as civilization develops and industry develops, the types of waste produced are becoming very diverse.

Environmental pollution caused by these wastes is getting more serious day by day, and as the harmful effects are becoming a reality, various waste treatment technologies and pollution prevention technologies and policies have been proposed to respond to them.

In particular, food waste and manure waste, which are wastes containing organic matter, are being treated in various ways.

Of these, some food waste is recycled as feed and compost, and most of the rest has been disposed of by landfilling and incineration. have.

However, in the case of direct feed of food waste, it causes various diseases, and in the case of composting, soil contamination became a problem due to salinity and leachate. post-treatment was necessary to prevent And secondary environmental pollution leading to groundwater pollution is becoming a problem.

In addition, in the case of livestock manure, it has become a major resource as a nutrient source for crops or a soil conditioner in rural areas instead of chemical fertilizers. There was a problem.

Due to the above problems, a method for treating organic waste using Dongae, etc. has been developed.

As a representative environmental purifying insect, they only feed during the larval stage, but do not feed during the adult stage.

They move to the forest to avoid people, and they live in places where organic wastes such as livestock and household waste and food waste are stored.

Therefore, during the larval stage, the larvae eat food waste and livestock manure with a strong appetite to decompose them, and even when they become adults, they do not enter the house or cause infection or transmission to humans, unlike flies.

The period to adult larvae is about 37 to 41 days, and the larval period to decompose organic waste is 14 days. reduced quality compost.

In addition, larvae and pupae can be used as animal or fish feed, fishing bait, etc., but there are many limitations to mass reproduction because it is difficult to satisfy the fable and spawning conditions, and it is difficult to emit odors.

Korean Patent No. 10-1846282

The present invention has been devised to solve the above problems, and it is easy to attract adult insects by light by configuring a darkroom-type first-floor alligator room and a relatively bright second-floor scattering room, and a moving window is installed between the first and second floors. By installing it, it can be used as a passage for moving adults and as a work passage for workers, and at the same time, the density of adults in the spawning room on the second floor can be adjusted. The purpose of this is to provide a spawning facility for Dongae, etc. that can induce both the attraction of adult insects through the odor and the effect of emitting the odor.

As a means for achieving the above object,

The present invention is located on the first floor, and the pupae are accommodated in Dongae, etc., and a plurality of allegorical boxes 110 to induce them to emerge as adults are stacked, and the light is blocked; a scattering chamber 200 located on the second floor, in which a scattering tube 210 is disposed so that the larvae are spawned, and the illuminance is higher than that of the brood chamber 100 through natural or illuminated light; It is installed at one end of the spawning room and includes a pollution reduction device 2000 that treats and reduces pollution factors existing inside the spawning room, and the pollution reduction device 2000 is in the form of a cylindrical pipe or a polygonal barrel pipe. an air input tube 2100 through which air is introduced by external power; a pump device 2200 connected to one end of the air input tube 2100 to transfer air by external electric power; a case 2400 for a tornado-type air circulation device to which the air input tube is connected to the upper part to receive air; a tornado-type air circulation device 2300 installed inside the case for the tornado-type air circulation device to rotate and compress the air to heat the air; an air output pipe 2500 installed on the bottom surface of the case for the tornado-type air circulation device to output air; a container-shaped diffusion chamber 2600 installed in the lower portion of the air output tube 500 and configured to spread air that has passed through the air output tube while splashing in all directions in the inner space; a motor input tube 2700 connected to the air input tube to input polluted external air; a final output line 2800 installed on the output side of the diffusion chamber; It is installed in the final output line 2800 and is made by further installing a polluting factor detection and processing device 10A for detecting and processing the polluting factor; The tornado-type air circulation device 2300 has a polygonal panel-shaped upper plate 2310 having a cylindrical pressure control cap 2311 with a closed upper portion installed thereon, and a polygonal panel-shaped upper plate, and has an air discharge hole at the lower portion Installed between the lower plate 2320 having 2321 and the upper plate 2310 and the lower plate 2320, the upper plate and the lower plate coupling part are inserted and coupled in a spiral form from the edge to the center direction, and the flowing air is rotated and compressed to output It is characterized by comprising at least two tornado-type panels 2330 .

In addition, it is characterized in that a plurality of air circulation holes 2312 are further formed on the side surface of the pressure control cap 2311 .

In addition, the tornado panel 2330 is characterized in that the width of the inlet through which air is input is formed to be large, and the width of the outlet through which air is output is formed to be relatively small compared to the width of the inlet.

In addition, the contaminant detecting and processing apparatus 10A includes: a light emitting element 2 installed at one end of the final output line to project light to check polluted air; a light receiving element (3) installed to be spaced apart from the light emitting element by a predetermined distance and for receiving light from the light emitting element and detecting a contaminant present in the output line; a variable resistor (VR) for controlling the amount of light emitted by the light receiving element (3); a capacitor (C1) connected to one axis of the light receiving element (3) to remove a DC component included in the voltage signal; an inverter unit 5 for amplifying the weak AC output signal of the capacitor C1; a signal correction unit 7 for shaping the signal of the inverter unit 5; It is characterized in that it includes a control unit 8 that receives the signal from the signal correction unit and operates the corona discharge device according to the state of the polluted air.

In addition, the contaminant detecting and processing apparatus 10A includes: a photosensor 5 having a light emitting element 2 and a light receiving element 3 and detecting the inflow of dust; an inverter unit 6 for inverting and amplifying the output signal of the photosensor 5; a controller (8) for reading the output signal of the photosensor (5) to detect an inflow amount of dust, and for converting and outputting a pulse duty so that the amount of light of the light-emitting device can be adjusted according to the collector voltage of the light-receiving device; a light quantity adjusting unit (8a) for adjusting the light quantity of the light emitting device (2) which is the photosensor (5) according to the output signal of the control unit (8); a corona discharge device (9) for outputting discharge under the control of the control unit; The light quantity control unit 8a is connected in parallel to the base terminal of the transistor TR to smooth the output pulse of the control unit 8, and a smoothing circuit 9 is connected in parallel to the base terminal of the transistor TR for power supply. It is characterized in that the voltage dividing resistors R3 and R4 for dividing the voltage are connected in parallel.

According to the present invention, it is easy to attract adult insects by light by configuring the darkroom-shaped first-floor alligator room and the relatively bright second-floor spawning room. As it is used as a passage, it has the effect of simultaneously improving the working efficiency and the efficiency of attracting adults, and controlling the density of the adults in the spawning room on the second floor.

1 is a front view showing a spawning facility according to an embodiment of the present invention.
Fig. 2 is a plan view of the second floor of Fig. 1;
3 is an overall configuration diagram of the tornado type pollution reduction device of the present invention.
Figure 4 is a perspective view of a tornado-type air circulation device of the present invention.
5 is an exploded perspective view of a tornado-type air circulation device of the present invention.
Figure 6 is a state diagram inserting the tornado-type air circulation device of the present invention in the case.
7 is a cross-sectional view showing the concept of operation of the tornado-type air circulation device of the present invention.
8 is a plan view showing the concept of operation of the tornado-type air circulation device of the present invention.
9 is a conceptual diagram of the operation of the diffusion chamber of the present invention.
10 is an exemplary view of the installation of the light emitting device, the light receiving device and the corona discharge means in the present invention.
11 is a diagram of an embodiment of an apparatus for detecting and processing contaminants according to the present invention;
12 is another embodiment of the apparatus for detecting and processing contaminants according to the present invention;

Hereinafter, the principle of operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. However, the drawings shown below and the description to be given below relate to a preferred implementation method among various methods for effectively explaining the characteristics of the present invention, and the present invention is not limited only to the following drawings and description.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout the present invention.

In addition, preferred embodiments of the present invention implemented below are already provided in each system functional configuration in order to efficiently describe the technical components constituting the present invention, or system functions normally provided in the technical field to which the present invention belongs The configuration is omitted as much as possible, and the functional configuration to be additionally provided for the present invention will be mainly described.

If a person of ordinary skill in the art to which the present invention pertains, will be able to easily understand the functions of the components already used in the prior art among the functional configurations omitted without being shown below, and the configuration omitted as described above Relationships between elements and components added for purposes of the present invention will also be clearly understood.

In addition, the following examples will be used with appropriate modifications of terms so that those of ordinary skill in the art to which the present invention pertains can clearly understand in order to effectively describe the key technical features of the present invention, thereby It is never limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for efficiently explaining the technical spirit of the present invention to those of ordinary skill in the art to which the present invention belongs. it's just

Moreover, it is to be understood that all detailed description reciting specific embodiments, as well as principles, aspects, and embodiments of the invention, are intended to include structural and functional equivalents of such matters. It should also be understood that such equivalents include not only currently known equivalents, but also equivalents developed in the future, i.e., all devices invented to perform the same function, regardless of structure.

Thus, for example, the block diagrams herein are to be understood as representing conceptual views of illustrative circuitry embodying the principles of the present invention. Similarly, all flowcharts, state transition diagrams, pseudo code, etc. may be tangibly embodied on computer-readable media and be understood to represent various processes performed by a computer or processor, whether or not a computer or processor is explicitly shown. should be

The functions of the various elements shown in the drawings including a processor or functional blocks represented by similar concepts may be provided by the use of dedicated hardware as well as hardware having the ability to execute software in association with appropriate software. When provided by a processor, the functionality may be provided by a single dedicated processor, a single shared processor, or a plurality of separate processors, some of which may be shared.

In addition, the clear use of terms presented as processor, control, or similar concepts should not be construed as exclusively referring to hardware having the ability to execute software, and without limitation, digital signal processor (DSP) hardware, ROM for storing software. It should be understood to implicitly include (ROM), RAM (RAM) and non-volatile memory. Other common hardware may also be included.

In the claims of the present specification, a component expressed as a means for performing the function described in the detailed description includes, for example, a combination of circuit elements that perform the function or software in any form including firmware/microcode, etc. It is intended to include all methods of performing the functions of the device, coupled with suitable circuitry for executing the software to perform the functions. Since the present invention defined by these claims is combined with the functions provided by the various enumerated means and in a manner required by the claims, any means capable of providing the functions are equivalent to those contemplated from the present specification. should be understood as

The above objects, features and advantages will become more apparent through the following detailed description in relation to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains can easily implement the technical idea of the present invention. There will be. In addition, in the description of the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

Before describing various embodiments of the present invention in detail, it will be understood that the application is not limited to the details of the construction and arrangement of components described in the following detailed description or shown in the drawings. The invention is capable of being embodied and practiced in other embodiments and of being carried out in various ways. Also, device or element orientation (eg, “front”, “back”, “up”, “down”, “top”, “bottom”) The expressions and predicates used herein with respect to terms such as ", "left," "right," "lateral," etc. are used merely to simplify the description of the invention, and the associated apparatus Or it will be appreciated that it does not simply indicate or imply that an element must have a particular orientation.

1 is a front view showing a spawning facility according to an embodiment of the present invention.

Figure 2 is a plan view of the second floor of Figure 1;

3 is an overall configuration diagram of the tornado type pollution reduction device of the present invention.

Figure 4 is a perspective view of a tornado-type air circulation device of the present invention.

5 is an exploded perspective view of a tornado-type air circulation device of the present invention.

Figure 6 is a state diagram inserting the tornado-type air circulation device of the present invention in the case.

7 is a cross-sectional view showing the concept of operation of the tornado-type air circulation device of the present invention.

8 is a plan view showing the concept of operation of the tornado-type air circulation device of the present invention.

9 is a conceptual diagram of the operation of the diffusion chamber of the present invention.

10 is an exemplary view of the installation of the light emitting device, the light receiving device and the corona discharge means in the present invention.

11 is a diagram of an embodiment of an apparatus for detecting and processing contaminants according to the present invention;

12 is a diagram of another embodiment of the apparatus for detecting and processing contaminants of the present invention;

Referring to the drawings, the spawning facility 1000 according to an embodiment of the present invention is largely located on the first floor, and an allegory room 100 in which a plurality of allegorical boxes 110 are stacked to induce larvae to be accommodated and to emerge as adults. And, it is located on the second floor and consists of a spawning room 200 in which a spawning tube 210 is disposed so that the grown imago can spawn.

Here, the alligator room 100 is provided to grow larvae such as Dongae, etc., so that the alligator room 100 can be divided into a plurality of rooms as shown in FIGS. 1 to 2, and 1 It is preferably located on the floor.

In addition, the allegory room 100 is formed in a dark room form so that no separate lighting or natural light is introduced, and the spawning room 200, which will be described later, is a spawning room for adults that have grown in the alligator room 100 through lighting or natural light. It is configured to be attracted to the spawning room 200 for the purpose.

In addition, the allegory box 110 stacked in the allegory room 100 is provided to grow until the pupae are accommodated in Dongae, etc. and emerge, and a plurality of these allegory boxes 110 are stacked in the vertical direction to improve the production yield. However, it is preferable to be configured so that a stable arrangement is possible by stacking them so as to be in contact with the inner wall of the divided room.

In addition, the spawning room 200 is provided so that the adult insects of the alligator, such as fowl, are attracted in the alligator room 100 to be spawned. An opening/closing window 240 serving as a moving passage function is installed.

It is preferable that the opening/closing window 240 is configured so that the first and second floors can move in correspondence with each other for each partitioned room, thereby preventing the concentration of adults in a specific location or in a specific room, and the opening/closing window 240 ), it is also possible to control the amount of adults accommodated in the spawning room on the second floor through selective opening and closing.

Meanwhile, in the spawning chamber 200 , a scattering tube 210 is disposed so that adults can spawn, and the scattering tube 210 is preferably uniformly arranged for each room of the divided scattering chamber 200 .

In the present invention, the odor injection unit 120 for supplying odor to the spawning tube 210 and the odor discharge hood unit 220 for discharging the odor of the spawning tube 210 to the outside are provided on the lower side and the upper side, respectively. This is to facilitate the collection of eggs by inducing a smooth spawning of the larvae and the spawning in the spawning tube 210 .

That is, adult insects such as Dongae react sensitively to a specific odor and have a characteristic of gathering at the odor generating point. ) is configured so that scattering is made within.

To this end, as described above, the odor is supplied to the spawning trough 210 through the odor injection unit 120 and the odor is continuously discharged through the odor discharge hood 220 to prevent the odor from being emitted due to the continuous supply of the odor. make this happen

The odor injection part 120 penetrates on the bottom surface 200a of the second-floor scattering chamber 200 and has one end positioned in the injection tube 121, and the injection tube 121 is located at the other end of the injection tube. It is composed of an odor generating device 122 that supplies odor to the spawning tube 210 through 121 .

Here, the injection tube 121 may be configured to supply an odor at a predetermined position on the lower side of the scattering tube 210 , or may be configured such that the end of the injection tube 121 is received through and received into the scattering tube 210 to supply the odor.

In addition, the odor discharge hood unit 220 is disposed in a dome shape at a predetermined distance on the spawning tube 210 to reduce the odor emission, and the hood cover 221 communicates with the hood cover 221 at one end and the other end. As it communicates with the outside of the spawning room 200, it includes a discharge pipe 222 for discharging odors to the outside.

At this time, it is preferable that the hood cover 221 has a dome shape or a polygonal or circular shape with an open lower side and is disposed so as to surround the scattering tube 210 at a predetermined distance from each other, which causes odor to occur in the scattering chamber 200 . This is to further improve the effect of attracting adult insects by preventing the dissipation of the whole and at the same time increasing the odor density in the space adjacent to the spawning tube 210 .

That is, if the odor supplied by the odor injection unit 120 stays around the spawning tube 210 and spreads throughout the spawning chamber 200 without being discharged, the adults do not spawn in the spawning tube 210 and the spawning chamber 200 ) may be scattered on the bottom surface or inner wall surface, etc., in this case, it causes a problem in that the egg collection amount and collection efficiency of Dongae, etc. is reduced.

Therefore, it is important to induce adult insects to spawn in the spawning tube 210 by maintaining a remarkably high odor density only in or in the vicinity of the spawning tube 210 .

In addition, in the past, odor-generating substances were accommodated in the spawning cask to induce odor generation, and in this case, after the spawning trough 210 was collected, the eggs were collected and even the odor-generating substances were replaced. .

Therefore, the replacement of the odor-generating material was done manually, which caused a burden on the worker due to the bad odor. The hassle of replacement can be omitted.

Meanwhile, a separate blower fan 223 may be installed in the odor exhaust hood 220 to forcibly discharge the bad odor at the middle point or the outer end of the discharge pipe 222 to increase the emission control and efficiency.

In addition, it is preferable that one end of the odor discharge hood 220 and the odor injection unit 120 is disposed for each room of the scattering chamber 200 divided into a plurality and are connected to each other to form a single discharge passage. .

In addition, a plate network is provided on the end side of the injection tube 121 of the odor injection unit 120 and the hood cover 221 of the odor discharge hood 220 to prevent adult insects from moving to the injection tube 121 and the discharge tube 222 . formed, of course.

On the other hand, the outer wall surface 200b and the ceiling surface 200c of the scattering chamber 200 are formed of a transparent material such as polycarbonate or glass to maximize the inflow of natural light. It can be configured to increase thermal efficiency by minimizing heat loss in a low-temperature environment.

In addition, in order to prevent temperature rise due to inflow of natural light in a high temperature environment such as summer, a light shielding net 230 may be detachably installed on the upper side of the ceiling to selectively block sunlight.

Accordingly, even in winter or summer, it is possible to provide an environment in which larvae or adults can stably grow and spawn even in winter or summer without a separate boiler or temperature maintaining means such as an air conditioner.

In addition, as shown in FIGS. 1 and 2 , when the ceiling surface of the spawning room 200 is formed in a dome shape, by blocking the upper side of the spawning room 200 through the insect screen 250, the adult insects are prevented from moving between the rooms. It can be configured to prevent

As described above, according to this embodiment, the spawning facility has a double-layered structure of 1st and 2nd floors, with a hatch room and a spawning room formed, respectively, and the lure of adults is made naturally through lighting or natural light brightness of the spawning room, so work efficiency and space efficiency can be maximized.

On the other hand, in the present invention, a pollution reduction device 2000 is additionally installed at one end of the spawning room, and the pollution reduction device of the present invention causes the air to collide while collecting and generate constant heat, and heat is generated as described above. while inducing the contaminants present in the polluted air to be partially removed.

That is, heat is generated as the polluted air collides with each other, and a certain portion is naturally removed by friction of the polluted air.

The components of the present invention are largely an air input pipe 2100, an air input pump device 2200, a tornado-type air circulation device 2300, a tornado-type air circulation device case 2400, and an air output pipe ( 2500 , a diffusion chamber 2600 , a motor input line 2700 , and a final output line 2800 .

The air input pipe 2100 is a pipe erected in a vertical shape, and is a pipe through which air passes through the operation of the air input pump device 2200 . The air input tube 2100 passes the air transmitted from the motor and serves to transfer the air to the tornado-type air circulation device.

The air input pump device 2200 receives external power to rotate the impeller to pump air into the air input tube 2100 . The operating range of the pump device 2200 for air input is capable of appropriately adjusting the rotation speed of the pump according to the circulation and temperature of the air, which means that when the pump device is rotated at a high speed, the circulation speed of air is increased and the temperature rises rapidly, If the operating speed is slowed, the air circulation speed is slowed and the air temperature rises slowly. In the present invention, the circulation speed is varied and used for the purpose of adjusting the temperature of the air at an optimized speed by appropriately adjusting the rotation speed of the pump device 2200 for air input.

The tornado-type air circulation device 2300 is made of a polygonal panel-shaped upper plate 2310 having a cylindrical pressure control cap 2311 with a closed upper portion installed thereon, and a polygonal panel-shaped air outlet hole ( 2321), the upper plate 2310 and the lower plate 2320 are inserted between the upper plate and the lower plate coupling portion edge to the center direction in a spiral form inserted and coupled in two or more directions tornado panel (2330) is done

The tornado-type air circulation device 2300 installs two or more circuitry-type panels 2330 to generate two or more air input spaces D, and the input air is mixed into one air exhaust pipe 2500 while Inducing flow, this is to increase the temperature of the air while the air flowing in from two or more points gathers in one place.

On the other hand, the reason for installing the pressure control cap 2311 is that overpressure occurs in the process of rotating while the air is mixed, collides with the air existing inside the air output tube 2500 by the pressure, and is pulled upward, at this time The air pulled up to the top plays a role in creating a free space that rotates according to the flow of air.

If the pressure control cap 2311 is not installed, there is no place for the raised air to stay when an aggravated pressure is generated due to the rotation of the air, and in that case, when the air is discharged along the air output pipe 2500, it is If one space part is not secured, a gurgling phenomenon occurs.

Since the pressure control cap 2311 of the present invention secures a space for rotating the air previously present in the air output pipe 2500 according to the overpressure generated by the rotating air, the air discharged along the air output pipe 2500 is pressure The air output space is secured under the influence of the air present in the control cap 2311, so that it can be continuously rotated and discharged smoothly.

That is, the air is smoothly discharged while rotating around the space only when a space is secured at the point where the air is discharged by the pressure control cap 2311. Without the pressure control cap 2311, the space at the air discharge point is not secured. As a result, a gurgling phenomenon appears, and the air cannot be discharged at a constant speed, and then continuous heat generation cannot be achieved.

Therefore, in the present invention, the pressure control cap 2311 is formed and pressure is generated in the pressure control cap 2311 by the rotating air, and accordingly, the pressure control cap 311 is applied to the pressure control cap 311 while raising the air of the air discharge pipe 2500. The first space (A) is secured, and at the same time, the second space (B) is secured on the central axis between the tornado air circulation device and the air output pipe, so that the first space (A) and the second space are Since the air is discharged while rotating in a state that does not invade (B), continuous discharge is made and continuous heat generation is made.

And the reason for further forming a plurality of air circulation holes 2312 on the side of the pressure control cap 2311 is that the air is initially filled in the inner space of the pressure control cap. This is because the air space portion C present in the cap 2311 is pushed outward to push the air outward, and the air pushed outward must be discharged to the outside. If the air circulation hole 2312 is not formed, the pressure control cap 2311 is filled with air, so that the air cannot be sucked in, and thus the air cannot be smoothly discharged.

Therefore, when the air circulation hole 2312 is formed on the side of the pressure control cap 2311 as in the present invention, the air is pulled up from the air discharge pipe 2500 generated according to the rotation and compression of the air and the air is pulled up. The air present in the pressure control cap 2311 is pushed outward by a certain amount to the outside of the pressure control cap 2311 through the air circulation hole 2312, and the air discharged through the air circulation hole 2312 Air is again input through the tornado-type panel 2330 to be discharged to the bottom through the air discharge pipe (2500).

The case 2400 for the tornado-type air circulation device has a rectangular parallelepiped shape and includes the tornado-type air circulation device 2300 inside to close the outer shell, and the air input tube 2100 is connected through the upper panel and , is made by connecting the air output tube 2500 through the lower panel.

Therefore, the air transferred through the air input tube 2100 is transferred to the case 2400 for the tornado type air circulation device, and then the circuitry type air circulation device 2300 is inserted into the case 2400 for the circuitry type air circulation device. After passing through the air is transferred through the output pipe (2500).

The diffusion chamber 2600 has a cylindrical or polygonal shape connected to the lower end of the air output tube, and the end of the air output tube is configured to be inserted into the body of the diffusion chamber 2600 by a predetermined length.

The reason for the configuration by inserting the diffusion chamber 2600 into the lower portion of the air output tube 2500 as described above is that the air passing through the air output tube 2500 rotates very quickly and is transferred, so as to fall into the diffusion chamber 2600, various This is to allow air to spread in the direction.

The overall operation of the present invention will be described below.

First, when the pump device for air input is operated, air vertically rises through the air input tube 2100 disposed vertically. The vertically raised air flows along the inner periphery of the air input tube 2100 to the inside of the case 2400 for the circuitry-type air circulation device after the air is moved to the upper part of the case 2400 for the circuitry-type air circulation device.

On the other hand, the air that has flowed into the case 2400 for the circuit-less type air circulation device is inserted into the circuit-less panel 2330 of the tornado-type air circulation device 2300, and the circuit-less type air circulation device 2300 is the top plate 2310 ) and the lower plate 2320 and the tornado-type panel 2330 because it is closed by the upper plate 2310 and the lower plate 2320, so the air is between the upper plate 2310 and the lower plate 2320 between the tornado-type panel 2330 It flows while being compressed and rotated while passing through, and then flows through the pressure control cap 2311 and the air output pipe 2500. At this time, a plurality of tornado-type panels 2330 are installed between the upper plate 2310 and the lower plate 2320 Therefore, when the air is compressed and rotated and discharged, heat rises in the process of mixing with each other.

At this time, the pressure control cap 2311 formed on the upper plate serves to adjust the pressure according to the air flow, and when the compressed air passes through the tornado type panel 2330, the pressure inside the tornado type air circulation device 2300 is At this time, a low pressure is formed in the pressure control cap 2311, sucking up the air in the air output tube, so that the pressure of the air is properly adjusted, and accordingly, the air that is rotated and compressed and output is smoothly discharged at a constant speed .

In addition, when the air circulation hole 2312 is formed on the side of the pressure control cap 2311, the air raised by the low pressure pushes the air present in the inner space of the pressure control cap 2311 to the outside. is output to the outside along the air circulation hole 2312, and the output air is again input to the tornado-type panel 2320, so that a continuous circulation process is made.

After all, the present invention is to install a tornado-type air circulation device 2300 inside the case 2400 for a tornado-type air circulation device, but the air is compressed and rotated while flowing between a plurality of tornado-type panels 2330, and the compressed air It is possible to provide a pollution reduction device with a simple structure and maximized efficiency by allowing heat to be generated as the ions merge together, and by allowing heat to be generated again in the diffusion chamber 2600 after passing through the air output tube 2500.

On the other hand, the present invention additionally installs a contaminant detecting and processing device (10A) in the final output line to determine whether a contaminating factor is present in the final output line, and if it is confirmed that the contaminating factor is present, contamination by corona discharge remove the argument

To this end, the apparatus for detecting and processing contaminants of the present invention has a photosensor having a light emitting element and a light receiving element. When the polluted air passes through the final output line, the light of the light emitting device prevents the light from reaching the light receiving device, and when the amount of the incoming polluted air is large, the amount of light from the light emitting device 2 reaching the light receiving device 3 is reduced, and when the amount of the incoming polluting factor is small, the amount of light reaching the light-emitting device 2 is increased by using the principle.

In addition, a photo sensor 4 comprising a light emitting element and a light receiving element is provided, and a variable resistor VR for controlling the amount of light emitted by the light receiving element 3 is connected to one axis of the light receiving element 3 and a voltage A capacitor (C1) for removing the DC component included in the signal, an inverter part (5) for amplifying the weak AC output signal of the capacitor (C1), and a signal beam for shaping the signal of the inverter part (5) It consists of a government 7 and a control unit 8 that receives a signal from the signal correction unit and operates the corona discharge device 9 according to the state of the polluted air.

In the contaminant detecting device using the photosensor configured as described above, when the contaminant flowing into the pipe 2800 does not exist, the total amount of light emitted from the light emitting device 2 is supplied to the light receiving device 3, so the phototransistor (PTR) is turned on to lower the collector voltage of the light receiving unit 3 to a low level, but when a contaminant is introduced into the pipe 2800, the light of the light emitting element 2 is partially blocked due to the influx of the contaminant. As the phototransistor (PTR) of (3) is turned off, the collector voltage rises to a high level.

The output voltage of the photosensor 4 is inverted and amplified as it passes through the inverter unit 6 after removing the DC component by the capacitor C1, and the output signal of the inverter unit 6 is converted to the signal correction unit 7 ) to generate a square wave and transmit it to the control unit 8, so that the inflow state can be known by the presence or absence of an output pulse of the signal correction unit 7, the more pulses per unit time, the greater the number of contaminants, and the pulse width The longer the length of , the larger the size of the contaminant.

As another embodiment of the contaminant detecting and processing device 10A, a photosensor 4 including a light emitting device 2 that emits a certain amount of light and a light receiving device 3 that receives the light from the light emitting device 2 ), and a capacitor C1 connected to one side of the light receiving element 3 to remove the DC component included in the voltage signal, and an inverter unit for inverting and amplifying the weak AC output signal of the capacitor C1 (5), and a signal part (7) for shaping the output signal of the inverter part (5), one side of the light receiving element (3) which is the photosensor (5) of the photosensor (5) A control unit 8 that reads an output signal to detect an inflow amount of dust and outputs a predetermined signal according to the detection result is connected, and a light quantity control unit 8a is connected to the output side of the control unit 8 and the light emitting device 2 is connected

In addition, in the light quantity control unit 8a, a smoothing circuit 8b composed of a resistor and a capacitor at the base terminal of the transistor TR and voltage dividing resistors R3 and R4 for dividing a power of 5V are connected in parallel.

And, the output terminal of the control unit 8 is configured to further include a corona discharge device 9 that receives the signal of the signal correction unit and provides discharge according to the state of the polluted air.

The corona discharge device 9 serves to burn polluted air by electrical discharge.

100: fable room 110: fable box
120: odor injection part 121: injection pipe
122: odor generating device 200: spawning room
1000: spawning facility

Claims (5)

an alligator room 100 in which a plurality of allegorical boxes 110 located on the first floor are stacked and the light is blocked;
a scattering chamber 200 located on the second floor, in which a scattering tube 210 is disposed so that the larvae are spawned, and the illuminance is higher than that of the brood chamber 100 through natural or illuminated light;
It is installed at one end of the spawning room, and includes a pollution reduction device 2000 that treats and reduces pollution factors existing inside the spawning room,

The pollution reduction device 2000,
An air input tube 2100 into which air is introduced by external power in the form of a cylindrical pipe or a polygonal tube pipe;
a pump device 2200 connected to one end of the air input tube 2100 to transfer air by external electric power;
a case 2400 for a tornado-type air circulation device to which the air input tube is connected to the upper part to receive air;
a tornado-type air circulation device 2300 installed inside the case for the tornado-type air circulation device to rotate and compress the air to heat the air;
an air output pipe 2500 installed on the bottom surface of the case for the tornado-type air circulation device to output air;
a container-shaped diffusion chamber 2600 installed in the lower portion of the air output tube 500 and configured to spread air that has passed through the air output tube while bouncing in all directions in the inner space;
a motor input tube 2700 connected to the air input tube to input polluted external air;
a final output line 2800 installed on the output side of the diffusion chamber;
It is installed in the final output line 2800 and is made by further installing a polluting factor detection and treatment device 10A for detecting and processing the polluting factor;

The tornado-type air circulation device 2300 is,
A polygonal panel-shaped upper plate 2310 having a cylindrical pressure control cap 2311 with a closed upper portion installed thereon, and a polygonal panel-shaped lower plate 2320 having an air discharge hole 2321 at the lower portion; It is installed between the upper plate 2310 and the lower plate 2320, but is inserted and coupled in a spiral form from the edge of the upper plate and the lower plate coupling part to the center, and rotates and compresses flowing air to output at least two tornado-type panels 2330. A spawning facility in Dongae, etc. having a pollution reduction device, characterized in that it is made by The method of claim 1,
On the side of the pressure control cap 2311,
A spawning facility for dongae etc. having a pollution reduction device, characterized in that it is formed by further forming a plurality of air circulation holes (2312). The method of claim 1,
The tornado-type panel 2330 is,
A spawning facility for dongae etc. having a pollution reduction device, characterized in that the width of the inlet through which air is input is formed to be large, and the width of the outlet through which air is output is formed to be relatively small compared to the width of the inlet. The method of claim 1,
The contaminant detection and processing device 10A,
a light emitting device installed at one end of the final output line and projecting light to check polluted air;
a light receiving element (3) installed to be spaced apart from the light emitting element by a predetermined distance and for receiving light from the light emitting element and detecting a contaminant present in the output line;
a variable resistor (VR) for controlling the amount of light emitted by the light receiving element (3);
a capacitor (C1) connected to one axis of the light receiving element (3) to remove a DC component included in the voltage signal;
an inverter unit 5 for amplifying the weak AC output signal of the capacitor C1;
a signal correction unit 7 for shaping the signal of the inverter unit 5;
and a control unit (8) for receiving the signal from the signal correction unit and operating the corona discharge device according to the state of the polluted air. The method of claim 1,
The contaminant detection and processing device 10A,
a photosensor 5 having a light emitting element 2 and a light receiving element 3 and detecting the inflow of dust;
an inverter unit 6 for inverting and amplifying the output signal of the photosensor 5;
a controller (8) for reading the output signal of the photosensor (5) to detect an inflow amount of dust, and for converting and outputting a pulse duty so that the amount of light of the light emitting device can be adjusted according to the collector voltage of the light receiving device;
a light quantity adjusting unit (8a) for adjusting the light quantity of the light emitting device (2) which is the photosensor (5) according to the output signal of the control unit (8);
a corona discharge device (9) for outputting discharge under the control of the control unit;
The light quantity control unit 8a is connected in parallel to the base terminal of the transistor TR to smooth the output pulse of the control unit 8, the smoothing circuit 9 is connected in parallel to the base terminal of the transistor TR for power supply A spawning facility in Dongae etc. having a pollution reduction device, characterized in that the voltage dividing resistors (R3) (R4) for dividing the voltage are connected in parallel.

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