KR100423253B1 - Past speed formentability liquid manure a preparator - Google Patents

Abstract

The present invention is to ferment the organic by-products (axial manure, ink, rice bran, fish meal, blood powder, etc.) in a short time to be used as a liquid fertilizer, more specifically, the upper and lower predetermined areas of the manhole to accommodate water Organic barrier products are bound to each other by a partition wall separating the partition wall into a predetermined area, a first wire mesh installed to cover one side area of the lower end of the partition wall, and a plurality of binding straps bound to the upper manhole of the upper part of the first wire mesh. And a blower fan for supplying air so that a predetermined amount of air is injected from the air injection port disposed at a predetermined position under the other side area separated by the separation wall, and protruding from the upper portion of the air injection port into the manhole. And a heater configured to dissipate heat of a predetermined temperature by the power source.

Therefore, it is possible to ferment into a liquid fertilizer in a short time by supplying the appropriate dissolved oxygen to the liquid fertilizer to be manufactured even without the expertise of fermentation, and to recycle all the organic by-products of the surroundings. to provide.

Description

Fast speed formentability liquid manure a preparator

The invention allows fermentation of organic by-products (pure manure, ink, rice bran, fish meal, blood meal, etc.) in a short time so that it can be used as a liquid fertilizer. In particular, it supplies dissolved oxygen suitable for liquid fertilizers manufactured without the expertise of fermentation. It can be fermented into a liquid fertilizer in a short time by heating and warming, and it is possible to recycle all the organic by-products surrounding the economical high-speed fermentation liquid fertilizer preparation.

In general, liquid fertilizers have been used in farmhouses are provided with a manhole of a predetermined size to accommodate the water, and the organic organic by-products, ie manure, salt, rice bran, fish meal, blood meal, etc. are mixed in the manhole, It was housed in a manhole to allow the organic byproducts to ferment.

As described above, the apparatus of the conventional liquid fertilizer preparation is very simple, and by adopting the conventional method also in the fermentation method, it takes a long time because the organic by-product takes time for fermentation for 2 to 3 months There was a disadvantage to be, because it is not fermented rather than fermented rather than fermented because it is left without the process of warming water or injecting oxygen in order to adjust the amount of dissolved oxygen that can be fermented. Rather than producing poisons that adversely affect soil, vegetables or plants.

In addition, as described above, liquid fertilizers must be fermented over two to three months, which makes it impossible to use them on time. Even though water and organic by-products can be fermented properly to serve as fertilizers, they have to miss their use time and decay. There was a problem that caused no situation.

The present invention devised to solve the above problems is to put the organic by-products in the mantle and hang in a manhole without expertise in fermentation so that water and organic by-products can be fermented and used in the shortest time, fermented liquid fertilizer is commercially available Its purpose is to achieve proper circulation of water in order to be able to produce products of superior quality than those of nutrients, and to ensure that the amount of dissolved oxygen required for fermentation is always adjusted to prevent water corruption. .

1 is a simplified view of the liquid fertilizer dispenser of the present invention.

2 is a view showing the structure of the liquid fertilizer preparation machine of the present invention.

Explanation of Drawings

101-manhole 102-dividing wall 103-first wire mesh

104-tie string 105-mesh 106-air jet

107 blower fan 108 heater 109 outlet

110-First discharge valve 111-Supply line 112-Drain line

113-supply valve 114-secondary outlet valve 115-third outlet valve

116-Circulating feed pump 117-Secondary wire mesh 118-Germanium stone

119 Heater Housing 120 Refill Tank

The above object is, according to the present invention, the separation wall 102 for separating the upper and lower predetermined area of the manhole 101 to accommodate the water flows into the predetermined area, and one side area of the lower portion of the separating wall 102 The mesh wire 105 is attached to the first wire mesh 103 and the plurality of binding straps 104 bound to the upper part of the manhole 101 above the first wire mesh 103 to cover the organic byproducts. And a blowing fan 107 for supplying air so that a predetermined amount of air is injected from the air injection hole 106 disposed at a predetermined position under the other region separated by the separating wall 102, and the air injection hole 106. It is achieved by a high-speed fermentation liquid fertilizer dispenser, characterized in that it comprises a heater 108 protruding into the manhole 101 in the upper portion and dissipating heat of a predetermined temperature by the power supplied.

Then, the first discharge valve 110 is coupled to the outlet 109 of the lower end of the manhole 101, the supply pipe 111 and the discharge pipe 112 is connected to the lower portion and the supply pipe 111 on both sides of the discharge port 109 and The supply valve 113 and the second discharge valve 114 are coupled to the discharge pipe 112, respectively, and ends of the discharge pipe 112 are connected to the upper part of the manhole 101, and the second discharge valve 114 and the discharge pipe 112 are connected to each other. It is preferable to connect the third discharge valve 115 to a predetermined position between the ends, and to couple the circulation supply pump 116 to the discharge pipe 112 at a predetermined position.

In addition, further comprising a second wire mesh 117 formed on the air injection port 106 and the heater 108, the germanium stone is placed on the upper portion of the first wire mesh 103 to generate far infrared rays ( 118) more preferably.

Hereinafter, the configuration and operation of the present invention will be described in Figures 1 to 2 as follows.

First, as shown in FIGS. 1 and 2, the manhole 101 is divided into a predetermined area by the partition wall 102, and the first wire mesh 103 is formed at the lower end of a part of the divided area as shown in FIG. 2. 1 and a predetermined amount of germanium 118 is loaded.

Here, the germanium stone 118 generates far-infrared rays, so it is bacteriostatic and supplies minerals to prevent eutrophication of the water, and also contributes to the supply of oxygen, so administration of the germanium stone 118 may be very desirable. I will.

On the other hand, the upper part of the first wire mesh 103, as shown in Figure 1, containing organic by-products in the bag (105), which has a myriad of fine holes formed therein, bound them with a tie string 104, and then the manhole 101 Hang or hang on top of

Here, as a means for binding the tie strap 104 to the upper portion of the manhole 101, a ring (not shown) may be formed on the upper portion of the manhole 101, and the tie string 104 from the outside of the manhole 101 is formed. May be extended to be inserted to a predetermined depth of the manhole 101, and the present invention does not limit the binding means of the binding strap 104 as described above.

As described above, when the mesh 105 containing the organic by-product is suspended in the manhole 101, it is suspended in the air as shown in FIG. 1, and as the water circulates as described below, the mesh 105 is shaken and organic. Elution of by-products is facilitated.

On the other hand, in the other region separated by the separating wall 102, as shown in Fig. 1 to 2, the air injection port 106 is installed in the lower predetermined position, the air injection port 106 is the manhole 101 Is connected to the blowing fan 107 installed on the outside of the air, when the blowing fan 107 is operated, the air is injected by the blowing fan 107, the injected air is inside the manhole 101 through the air injection port 106 As shown in FIG. 1, when air is injected from the air injection port 106, the air rises in the other area separated therefrom, thereby raising the water. Accordingly, the water is disposed at the upper end of the separation wall 102. Flows from one side to the separation zone.

Accordingly, the water contained in the manhole 101 causes convection by air injected from the air injection port 106, and at this time, a predetermined portion of the air injection port 106 is located at an upper portion of the air injection port 106 as shown in FIG. The heater 108, which is configured to generate heat, protrudes to warm the water.

That is, the water rising by the air injection port 106 is heated by the heater 108, so that the convection phenomenon can be made more naturally, and the water warmed by the heater 108 further increases the organic by-products. It will help to ferment quickly will be able to further shorten the fermentation time.

Here, the heater 108 accommodates the fruit in the heater housing 119 in order to maintain a proper amount of the heated state, the heater 108 warms the fruit, the heater housing 119 is heated by the heated fruit It is desirable to allow the water to be indirectly warmed.

The fruit supplement tank 120 coupled to the heater 108 shown in FIG. 1 is installed to be replenished into the heater 108 housing from the fruit supplement tank 120 when the fruit in the heater housing 119 is insufficient. .

Meanwhile, as shown in FIGS. 1 and 2, the upper part of the heater 108 installed in the other separation area is provided with the second wire mesh 117 to break the air bubbles injected to supply the dissolved oxygen to the water. It is desirable to make it smooth.

In addition, the first discharge valve 110 is coupled to the outlet 109 of the lower end of the manhole 101 as shown in Figure 1 and the supply pipe 111 and the discharge pipe 112 is connected to the 'T' shape at the bottom Bar, the supply valve 113 is coupled to the supply pipe 111 side, the second discharge valve 114 is connected to the discharge pipe 112 side, the third discharge valve 115 is spaced a predetermined distance to the discharge pipe 112 side The circulation supply pump 116 is coupled to a predetermined position between the second discharge valve 114 and the third discharge valve 115.

Therefore, when water is supplied to the manhole 101, the first discharge valve 110 is shut off, the supply valve 113 and the second discharge valve 114 are opened, and the circulation supply pump 116 is operated to operate the water. Is supplied to the upper portion of the manhole 101 from the raw material via the supply pipe 111 and the discharge pipe 112, in order to induce circulation of water contained in the manhole 101, the supply valve 113 is blocked and the first After opening the discharge valve 110, when the circulation supply pump 116 is operated, the water in the manhole 101 is pumped by the circulation supply pump 116 through the discharge port 109 to supply the upper portion of the manhole 101. Water will circulate.

In addition, when a predetermined period of time has elapsed in the manhole 101 and the liquid fertilizer is manufactured to use the liquid fertilizer, the first, second and third discharge valves 115 may be opened and then circulated. When the feed pump 116 is selectively operated, the liquid fertilizer in the manhole 101 is discharged to the third discharge valve 115. When the circulating feed pump 116 is not operated, the liquid fertilizer in the manhole 101 is discharged. Since the water level is higher than the third discharge valve 115, it is discharged to the third discharge valve 115 by water pressure.

Here, the operation of the circulation supply pump 116 may be made by a user's selection, and a predetermined amount of liquid fertilizer remains in the manhole 101, which is a microorganism contained in the fermented liquid fertilizer. This is because fermentation can be made faster by the microorganisms when the water is newly supplied and the organic by-products are administered.

As described above, the present invention is very simple to manufacture the liquid fertilizer even if the user does not acquire the expertise for fermenting organic by-products, so that the liquid fertilizer dispenser provided by the present invention can be operated for up to two to seven days. It is possible to obtain fermented liquid fertilizer within a short period of time, so that the liquid fertilizer can be used at an appropriate time to prevent the use of fermented liquid fertilizer to prevent rot. It is high quality and can reduce the price by 70% ~ 80% to minimize the purchase cost of nutrients and to recycle all the organic by-products around it, which is environmentally friendly, and minimizes the use of chemical fertilizers on crops. It is a great invention to fertilize.

Claims (4)

A dividing wall separating the upper and lower predetermined areas of the manhole to receive the water into predetermined areas so as to distribute water; A first wire mesh installed to cover one side area of the bottom of the dividing wall; A mesh that is respectively bound to a plurality of straps bound to an upper manhole on the upper part of the first wire mesh to accommodate organic byproducts; A blowing fan for supplying air such that a predetermined amount of air is injected from an air injection port disposed at a predetermined position under the other region separated by the separation wall; A high-speed fermentation liquid fertilizer preparation device, characterized in that the heater protrudes from the upper portion of the air injection port to heat the predetermined temperature by the power supplied. The method of claim 1, The first discharge valve is coupled to the outlet of the lower manhole, and the supply pipe and the discharge pipe are connected to the lower part thereof, and the supply valve and the second discharge valve are coupled to the supply pipe and the discharge pipe on both sides of the discharge port, respectively, and the end of the discharge pipe is connected to the upper part of the manhole. A high speed fermentation liquid fertilizer preparation device, characterized in that for connecting the third discharge valve to a predetermined position between the first discharge valve and the discharge pipe end, the circulation supply pump is coupled to the discharge pipe predetermined position. The method of claim 1, A high speed fermentation liquid fertilizer preparation machine further comprises a second wire mesh formed on the air injection port and the heater. The method of claim 1, A high speed fermentation liquid fertilizer preparation device further comprises a germanium stone is placed on the upper portion of the first wire mesh to generate far infrared rays.