KR102318901B1 - Compost fermentation seed dispenser - Google Patents

Abstract

In the present invention, disclosed is a compost fermentation seed distributer which is developed to age and decompose compost in a rapid period of time by inoculating microbial starters in a gaseous state to be uniformly distributed in the compost.

Description

Compost fermentation seed dispenser

The present invention relates to a compost fermenting seed dispenser, and more particularly, to a compost fermenting seed dispenser developed so that the compost can be matured and fermented in a short time by inoculating the microbial seed in a vaporized state and evenly distributing it in the compost. it's about

In general, sludge such as livestock manure discharged from livestock farms is used as compost by rubbing sawdust and rice husks for recycling.

One of the conventional methods of making such compost is to rub sludge, sawdust, rice husk, etc., pile it up like a mountain, wait 4 to 8 months for the compost to ripen naturally, or use equipment such as a fork crane to turn the compost while turning over microorganisms. There is a method to promote the ripening of compost by sprinkling it.

However, since the natural fermentation method takes too long, there is a problem that there is not enough space to accumulate the compost for a long period of time. Therefore, it is difficult to apply it practically in livestock farms with insufficient funds and manpower.

Meanwhile, Korean Patent Registration Nos. 10-0863190 and 10-1984395 disclose examples of composting devices.

However, the conventional composting device disclosed in the above patent has a problem that it is difficult to install in a general livestock farm because it is expensive because the structure is large and complicated as well as expensive equipment.

1) Republic of Korea Patent Registration No. 10-0863190 (Registration date: October 07, 2008), title of invention: "Step separation device, multi-stage composting device and composting method" 2) Republic of Korea Patent Publication No. 10-1984395 (published date: May 24, 2019), title of invention: "Composting device for organic fertilizer production by mixed fermentation of livestock manure, agricultural and fishery by-products or leftover food" 3) Republic of Korea Patent No. 10-0181684 (Registration Date: December 08, 1998), Title of Invention: "Agitating device with blower used in organic waste composting system" 4) Republic of Korea Patent No. 20-0406817 (Registration Date: January 16, 2006), Title of Invention: "Tower Type No Agitation Composting Device"

The present invention has been proposed to improve the above problems, the purpose of which is to rub sawdust, rice husk, etc. on sludge such as livestock manure, and then simply drive a number of inoculation pipes into the compost piled up like an acid, and the microbial spawn will be gas An object of the present invention is to provide a compost fermentation seed dispenser that allows the compost to be matured and aged in a short time by inoculating it in a way that is evenly distributed in the compost in a burnt state.

The above-mentioned purpose, the main pipe; a microbial spawn storage container that is installed to be connected to a middle part of the main pipe and through a seed supply hose, and is stored therein in a liquid state to guide and supply the microorganism spawn to the main pipe; a control valve installed on a part of the seed supply hose to control whether or not to supply the microorganism seed to be supplied to the main pipe and the amount of supply; a blower connected to the main pipe and blowing air into the main pipe; a branch pipe connected to the end of the main pipe to branch the main pipe into several pipe parts; a plurality of corrugated pipes connected to each pipe part of the branch pipe and having a shape that can be freely deformed; and an inoculation pipe each connected to the end of the corrugated pipe, a plurality of air outlet holes formed through the lower portion, and an inoculation pipe having a sharp tip so as to be embedded in the compost; When air is blown into the main tube through the blower while dropping the microbial spawn drop by drop into the main tube, the microbial spawn is vaporized by the air and blows off, passes through the branch tube and the corrugated tube, and is supplied into the compost through the contact pipe to make the compost fermented. and a plurality of pipe parts formed in the branch pipe are divided into a straight pipe part arranged in a straight line with the main pipe and a refractive pipe part arranged to be refracted with the main pipe, and a cutout groove is formed in a part of the straight pipe part to communicate with the internal passage, A stop key is inserted into the cut-out groove and installed to block a part of the internal passage of the straight pipe part, and some of the air supplied along the straight pipe part is configured to be guided to the refractive pipe part by colliding with the stop key, so that the supplied air is connected to the straight pipe part and the straight pipe part It is configured to be evenly distributed in the refractive pipe section and guided to the corrugated pipe, and the stop key is installed to block the rest except for the upper part of the inner passage of the straight pipe section, so that even if the microbial spawn flows into the straight pipe section in a liquid state, the stop key It is blocked from being guided to the corrugated pipe and is configured to be guided to the corrugated pipe only in a gasified state, and the air discharge hole formed in the inoculation pipe is formed at a predetermined interval along the lengthwise direction at the lowermost part of the circumference. , A plurality of second heat exhaust holes formed in a diagonal direction on the upper left side at a predetermined distance from the first heat exhaust hole, and a plurality of diagonally formed on the upper right side at a predetermined distance from the first heat exhaust hole symmetrically to the second row exhaust hole The bar is composed of the third heat exhaust hole, and the first heat exhaust hole, the second heat exhaust hole, and the third heat exhaust hole are arranged in a triangular shape, and when the air discharged through the air exhaust hole and the microbial seed is supplied as compost, it is a straight line in the downward direction. And it is configured to be supplied in an oblique line, and the inoculation pipe prevents the air outlet hole from being formed in a certain section from the end connected to the corrugated pipe, so that the air outlet hole is exposed to the outside when it is put into the compost. It is configured not to occur, and the blower is fixedly installed on the cart through a bracket in a state where it is installed to be wrapped in the case, and the microbial spawn storage container is fixedly installed on the upper part of the case, so that the operator can move the cart to the required place while pushing the cart. It is achieved by a fermentation seed distributor, characterized in that.

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When the fermentation seed distributor according to the present invention operates by simply driving a number of inoculation pipes into the compost piled up like an acid, the microbial seed is evenly distributed in the compost in a gaseous state, so that the compost can be aged and fermented in a remarkably quick time. there is an effect

In addition, since the fermentation seed distributor according to the present invention has a stop key installed in the straight pipe part of the branch pipe connected to the main pipe, the air supplied to the branch pipe through the main pipe is uniformly guided to the straight pipe part and the refractive pipe part of the branch pipe As a result, not only the microbial seed is evenly supplied with air to all inoculation pipes, but also the structure of the air outlet formed in the inoculation pipe is improved to enable efficient inoculation without clogging. It has the effect of distributing and inoculating without it.

1 is a side view showing the entire fermentation seed distributor according to the present invention;
2 is a partial side sectional view and a front sectional view shown to explain the stop key structure in the fermentation seed distributor according to the present invention;
3 is a bottom view showing an enlarged view of only the inoculation pipe in the fermentation seed distributor according to the present invention;
4 is a side view of another embodiment of the fermentation seed distributor according to the present invention as a whole;
5 is a photograph of a state in which the inoculation pipe of the fermentation seed dispenser according to the present invention is installed and fermented with compost.

The present invention will be described in detail with reference to the accompanying drawings as follows.

1 to 3, the fermentation seed distributor according to the present invention is a main pipe 100, a microbial seed storage container 200, a blower 300, a branch pipe 500, a corrugated pipe 600, an inoculation pipe 700 ) is included.

First, the main pipe 100 is connected to the blower 300 and the microbial spawn storage container 200 to be described later, and serves to guide and supply the microbial spawn and air.

Next, the microbial seed storage container 200 is installed to be connected through a middle part of the main pipe 100 and the seed supply hose 210, and the microbial spawn in a liquid state is stored therein. And a control valve 220 is installed in a part of the seed supply hose 210 to select the opening and closing of the seed supply hose 210 . Therefore, the microbial spawn stored in the microbial seed storage container 200 is supplied to the main pipe 100 through the seed feed hose 210 . At this time, whether or not the microbial seed is supplied and the supply amount is adjusted according to whether the control valve 220 is opened or closed. Preferably, it is adjusted so that the microbial seed in the liquid state is supplied in a drop-by-drop manner to the main tube 100 . Here, the control valve 220 may be implemented automatically or manually, and a detailed description thereof will be omitted because the structure may be applied to a known product.

Next, the blower 300 is connected to the main tube 100 and serves to blow air into the main tube 100 . The blower 300 is provided with a suction pipe 312 for sucking external air, and a discharge pipe 320 for discharging the sucked air. And a filter 312 is installed in the suction pipe 312 to filter the sucked air, and the discharge pipe 320 is installed to be connected to the main pipe 100 . Therefore, when the blower 300 is operated, air is sucked through the suction pipe 312 and supplied to the main pipe 100 through the discharge pipe 320 . Since the technology of the blower 300 is a known technology, a detailed description thereof will be omitted. Meanwhile, the blower 300 and the control valve 220 may be configured to be controlled through a separate controller.

In addition, the blower 300 is fixedly installed to the wheeled cart 400 through the bracket 420 in a state in which it is installed to be wrapped around the case 410 . And the microbial seed storage container 200 is fixedly installed on the upper part of the case 410 . Therefore, the operator is configured to be able to move to a required place while pushing the cart 400 .

Next, the branch pipe 500 is connected to the end of the main pipe 100 serves to branch the main pipe 100 into several pipe parts.

The various pipe parts formed in the branch pipe 500 are divided into a straight pipe part 510 disposed in a straight line with the main pipe 100 and a refractive pipe part 520 disposed to be refracted with the main pipe 100. Although the tube portion 510 and the refractive tube portion 520 are illustrated as three spheres, two or more four spheres may be applied. In addition, although the straight pipe part 510 and the refractive pipe part 520 are arranged in parallel on the drawing, it may be arranged in another form. In addition, it is preferable that the opening/closing valve 530 is installed in the refractive pipe part 520 to selectively open only the required refractive pipe part 520 among the plurality of refractive pipe parts 520 .

The branch pipe 500 may be connected in parallel in the longitudinal direction like the main pipe 100 as shown in FIG. 1 , and in parallel in a direction orthogonal to the main pipe 100 as shown in FIG. 4 . You can also connect

Of course, when installing as shown in FIG. 1 , one branch pipe 500 may be applied, but when installing as shown in FIG. 4 , a plurality of branch pipes 500 may be applied. At this time, the plurality of branch pipes 500 may be applied in parallel to a T-shape or an L-shape.

In addition, the present invention improves the structure of the straight pipe part 510 so that when air is supplied from the main pipe 100 to the branch pipe 500 , the straight pipe part 510 and the refractive pipe part 520 can be equally distributed. is characterized by That is, in a portion of the straight pipe part 510, a cut-out groove 512 is formed to communicate with the internal passage as shown in FIG. It is installed to block a part of the internal passage of the straight pipe portion (510). In particular, the stop key 524 has a structure in which the upper part is cut from the disk as can be seen in FIG. Part of the air supplied along the straight pipe part 510 by being installed to block the remaining parts except for the part collides with the stop key 524 and is configured to be guided to the refractive pipe part 520 . Therefore, the air supplied to the branch pipe 500 through the main pipe 100 is not all discharged to the straight pipe part 510, but some are discharged and some are refracted. It is evenly distributed and guided to a corrugated pipe 600 to be described later. For reference, if the internal passage of the straight pipe part 510 is configured to penetrate from the upper part, even if the microbial spawn flows into the straight pipe part 510 in a liquid state, it is blocked by the stop key 524 and the corrugated pipe 600 is guided. It is blocked and ensures that it can be guided only to the gaseous state.

Next, the corrugated pipe 600 is connected to each pipe portion of the branch pipe 500, and is configured to have a sufficient length and a shape that can be freely deformed. Therefore, according to the range (amount, height, length) of the piled up compost, it can be installed by bending it while freely increasing and decreasing it.

Next, the inoculation pipe 700 is connected to the ends of the corrugated pipe 600, respectively, a plurality of air outlet holes 710 are formed through the lower portion, and the tip end is configured to be sharp so as to be embedded in the compost.

Here, the air discharge hole 710 formed in the inoculation pipe 700 is composed of three lines. That is, a plurality of first heat discharge holes 712 formed at a predetermined interval along the lengthwise direction at the lowermost portion of the circumference, and a plurality of second heat discharge holes 712 formed in a diagonal direction on the upper left side at a predetermined interval from the first heat discharge hole 712 A plurality of third heat discharge holes 716 formed in a diagonal direction on the upper right side at a predetermined distance from the heat discharge hole 714 and the second heat discharge hole 714 symmetrically with the first heat discharge hole 712 is composed And the first heat exhaust hole 712 , the second heat exhaust hole 714 , and the third heat exhaust hole 716 are arranged in a triangular shape, and the air and microorganisms discharged through the air exhaust hole 710 are supplied as compost. It is configured to be supplied in a straight line and an oblique line in the downward direction. In this way, the reason for configuring the air outlet hole 710 in three rows is that the efficiency decreases when two rows are reduced, and the problem occurs when compost enters the air outlet hole 710 located next to the four rows.

In addition, the inoculation pipe 700 is a certain section (A) from the end connected to the corrugated pipe 600 so that the air outlet hole 710 is not formed, so that the air outlet hole 710 is exposed to the outside when it is put into the compost It is preferable that it is comprised so that a phenomenon does not generate|occur|produce. That is, when some of the air outlet holes 710 are exposed when the inoculation pipe 700 is put into the compost, the air leaks into the exposed air outlet holes 710, so the air is not sufficiently guided to the end of the inoculation pipe 700. because it doesn't

On the other hand, the main pipe 100, the branch pipe 500, the corrugated pipe 600, and the inoculation pipe 700 are connected through a separate coupling (C), and the coupling will be applicable to any of the commercially available products. .

Now, the installation and operation relationship of the compost fermentation seed dispenser according to the present invention configured as described above will be described.

In order to make the compost piled up using the present invention, first open the control valve 220 in a state in which the inoculation pipe 700 is driven into the compost and drop the microbial seed into the main pipe 100 drop by drop while blowing the blower 300. Air is blown into the main tube 100 through the Then, the microbial spawn is vaporized by the air and flies, passes through the branch pipe 500 and the corrugated pipe 600, and is evenly distributed, and is supplied into the compost through the inoculation pipe 700, thereby causing the compost to ripen.

At this time, the inoculation pipe 700 is installed so that the air outlet hole 710 faces downward to be embedded in the compost. Then, there is no occurrence of compost, sediment or leachate entering the inoculation pipe 700 through the air outlet hole 710, and the microbial spores are reliably supplied to the compost together with air in a vaporized state. Then, as shown in FIG. 5, heat is generated while the microorganisms and oxygen are fermented together in the compost, and the compost is matured and aged in a short time.

In addition, in the present invention, since the stop key 524 is installed in the straight pipe part 510 of the branch pipe 500 connected to the main pipe 100 , the air supplied to the branch pipe 500 through the main pipe 100 . It is uniformly guided to the straight pipe part 510 and the refractive pipe part 520 of the branch pipe 500 so that all inoculation pipes 700 are uniformly supplied with the microbial spawn together with air.

In addition, the present invention improves the structure of the air outlet hole formed in the inoculation pipe 700 so that efficient inoculation is possible without clogging, so that the microbial seed can be evenly and without clogging in the compost piled up like an acid to be inoculated.

As described above, the present invention has been shown and described in relation to specific embodiments, but it is known in the art that various modifications and changes are possible without departing from the spirit and scope of the invention as defined by the claims. When you grow up, anyone will find out easily.

100: main tube 200: microorganism seed storage container
210: seed supply hose 220: control valve
300: blower 400: wagon
500: branch pipe 510: straight pipe part
512: incision groove 514: stop key
600: corrugated pipe 700: inoculation pipe
710: air exhaust hole

Claims (4)

main building; a microbial seed storage container that is installed to be connected to a middle part of the main pipe through a seed supply hose, and is stored therein in a liquid state to guide and supply the microorganism spawn to the main pipe; a control valve installed on a part of the seed supply hose to control whether or not the microbial seed is supplied and the amount supplied to the main pipe; a blower connected to the main pipe and blowing air into the main pipe; a branch pipe connected to the end of the main pipe to branch the main pipe into several pipe parts; a plurality of corrugated pipes connected to each pipe part of the branch pipe and having a shape that can be freely deformed; and an inoculation pipe connected to the end of the corrugated pipe, each having a plurality of air outlet holes in the lower part, and a sharp tip formed so as to be embedded in the compost;
When the inoculation pipe is inserted into the compost, the control valve is opened and air is blown into the main tube through the blower while dropping the microbial spawn drop by drop into the main tube. It is supplied into the compost through a pipe and is composed to ripen the compost,
The various pipe parts formed in the branch pipe are divided into a straight pipe part arranged in a straight line with the main pipe and a refractive pipe part arranged to be refracted with the main pipe,
A cut-out groove is formed in a part of the straight pipe part to communicate with the internal passage, and a stop key is inserted into the cut-out groove to block a part of the internal passage of the straight pipe part, and some of the air supplied along the straight pipe part is a stop key. It is configured to be guided to the refracting pipe section by colliding with it, so that the supplied air is evenly distributed between the straight pipe section and the refractive pipe section and is configured to be guided to the corrugated pipe,
The stop key is installed to block the remaining parts except for the upper part of the inner passage of the straight pipe part, so even if the microbial spawn flows into the straight pipe part in a liquid state, it is blocked by the stop key and is blocked from being guided to the corrugated pipe, and only in the vaporized state. It is designed to be guided,
The air discharge hole formed in the inoculation pipe has a plurality of first row discharge holes formed at a predetermined distance along the lengthwise direction at the lowermost part of the circumference, and a plurality of second rows formed in a diagonal direction on the upper left side at a predetermined distance from the first row discharge hole. The bar consists of a discharge hole and a plurality of third row discharge holes formed in a diagonal direction on the upper right side at a predetermined distance from the first heat discharge hole symmetrically with the second heat discharge hole, the first heat discharge hole, the second heat discharge hole, The three-row exhaust hole is arranged in a triangular shape so that the air discharged through the air exhaust hole and the microbial spawn are supplied in a straight line and an oblique line in the downward direction when supplied as compost,
The inoculation pipe is configured to prevent the air outlet hole from being exposed to the outside when the inoculation pipe is put in the compost by preventing the air outlet hole from being formed in a certain section from the end connected to the corrugated pipe,
The blower is fixedly installed on the cart through a bracket while being wrapped around the case, and the microbial seed storage container is fixedly installed on the upper part of the case, so that the operator can move the cart while pushing the cart. Fermentation, characterized in that spawn dispenser. delete delete delete

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