KR200414744Y1 - Feeder for breed larvae of a fly larva breeding device - Google Patents

Abstract

The present invention relates to a fly larvae rearing device, and conventionally, the organic wastes are repeatedly sprayed or mixed with the appropriate amount of fly seed larva every day in a bad environment of the facility, and the organic wastes are fixed. It was difficult to spread the seed larvae evenly in proportion.

Therefore, the present invention is a storage hopper (100), the seed larvae and the cortex are mixed and stored, one side is connected to the storage hopper 100 and the other is the transfer pipe 200 located on the upper side of the flat belt conveyor (710) and It is installed in the conveying pipe 200, and the plurality of conveying wire 300 is provided with a plurality of conveying plate 310 at a predetermined interval, and circulates the conveying wire 300 in the conveying pipe 200 A plurality of motor transfer device 400 and the feed pipe 200 are installed at regular intervals, and a discharge hole 510 is formed at a bottom thereof so as to communicate with the hole 210 of the feed pipe 200. The discharge member 500, the flange 520 is formed in an extended state and one side is connected to the operation lever 610, the other side is installed in close proximity along the conveying pipe 200 while the discharge member 500 Is individually connected to the flange 520 of the By constituting the lock operation line 600, the seed larvae and steel blood is transported along the transport pipe 200 by the transfer wire 300 and the transfer plate 310, the discharge member according to the operation of the operation line 600 When the 500 is slid so that the discharge hole 510 of the discharge member 500 and the hole 210 of the transfer pipe 200 coincide with each other, the seed larvae and the cortex of the seed are located in some sections of the transfer pipe 200. It is possible to further improve the efficiency of the fly larvae breeding device by being discharged to the outside through the organic waste spreading on the flat belt conveyor 710 safely and uniformly separated apart.

Flies, seed larvae, breeders, pipes, wires, discharge members, conveyors, organic waste

Description

Feeding for seed larvae of fly larvae breeding equipment {Feeder for breed larvae of a fly larva breeding device}

1 is a perspective view showing the main part of the seed larva feeding device of the fly larvae breeding apparatus according to the present invention.

Figure 2 is a main cross-sectional view illustrating a part of the configuration of the seed larva feed device according to the present invention.

Figure 3 is a sectional view of the main part illustrating the overall configuration of the seed larva supply device according to the present invention.

Figure 4a, 4b is a sectional view showing the main part of the operation process of the seed larva supply device according to the present invention.

Figure 5 is a perspective view illustrating a discharge member of the seed larva supply device according to the present invention.

Explanation of symbols for the main parts of the drawings

100: storage hopper 200: transfer pipe

300: transfer wire 310: transfer plate

400: motor feeder 500: discharge member

510: discharge hole 520: flange

600: operating line 610: operating lever

620: Drum 710: Flat Belt Conveyor

The present invention relates to a fly larvae rearing device, and more specifically, the seed larvae supply structure of the fly larvae rearing device is configured as a seed larvae supplying device which can be supplied to the organic waste evenly mixed at a constant rate. It relates to a seed larva feeding device of the fly larvae rearing device to be improved to improve the efficiency of the fly larvae rearing device.

In general, when landfills or dumping of organic wastes such as animal waste from livestock farms, food waste from households and restaurants, and various organic sludges are dumped on land, marine soil pollution occurs very seriously.

Therefore, in the modern society, various technologies for effectively treating the organic wastes have been developed and applied, and in particular, more attention has been paid to technologies for recycling and recycling organic wastes.

For example, naturally fermenting juicy food waste or nutrients is anaerobic fermentation, and various decaying bacteria, etc., grow, causing a bad odor, so when used as a compost, the crops become sick and weeds grow.

In addition, forcibly drying by hot air to reduce moisture also has a bad smell and a lot of maintenance costs due to the warm air, with the high temperature fermentation heat generated by the fermentation in farmland when crops are easily killed.

Therefore, a number of methods for fermenting and aging organic wastes such as animal waste and food waste have been developed. Among them, representative recycling methods include a fermentation tank and a treatment method using a stirring tea.

In other words, when organic waste is a large amount, moisture control agents such as sawdust or rice husk and organic waste are mixed and stored in a fermentation tank, and then agitated with agitation tea to supply air to aerobic microorganisms and artificially aerobic fermentation, followed by drying with fermentation heat. To make it compost.

However, the method of using the fermentation tank and the stirring tea requires a place of considerable size to equip the fermentation agitation facility, the equipment cost is excessively expensive, and even when the fermentation process is expensive and difficult to obtain a large amount of sawdust or chaff In terms of the production cost of compost, there are many factors that contribute to the cost increase.

And livestock manure treatment device was developed using the fly larva and registered in the Patent No. 376758 (Publication 2001-0094594).

However, the livestock manure treatment apparatus using the conventional fly larva as described above had the following problems.

In other words, the treatment device of the present invention is sprayed by feeding a certain amount of fly seed larvae at a constant ratio every time the organic waste is collected or the method of seed larvae and its amount is irregular and unbalanced so that organic waste and seed larvae are not evenly mixed. There was a problem.

Therefore, the object of the present invention is to solve the above problems, so as to configure the seed larvae supply device so that the seed larvae of flies enough and effectively mixed with organic waste to further improve the efficiency of the fly larvae rearing device. To provide a seed larvae feeding device of a fly larvae rearing device.

The purpose of the present invention is to configure the seed larvae supply device in the fly larvae breeding apparatus for mass breeding mature larvae using organic wastes as food as the organic waste and seed larvae are moved along a plurality of flat belt conveyors,

Storage hopper mixed with the seed larvae and bark of freshly hatched flies in eggs,

One side is connected to the lower outlet of the storage hopper and connected, the other side is a conveying pipe spaced apart from the top of the upper flat belt conveyor,

It is installed inside along the conveying pipe, the conveying wire is formed on the surface a plurality of conveying plates in a constant interval,

A motor feeder for circulating the feed wires installed in the feed pipes along the feed pipes;

A plurality of discharge pipes are installed at regular intervals, and a discharge hole is formed in the bottom surface thereof so as to communicate with the holes of the transfer pipe, and a discharge member having a flange formed in an extended state at the bottom end thereof;

One end is connected to the operating lever, and the other side is achieved by configuring an operating line installed so as to be installed in close proximity along the conveying pipe and individually connected to the flange of the discharge member, and the end of which is wound around the drum.

The present invention is such that the seed larva mixed in the storage hopper and the seed larvae is placed on the upper side of the flat belt conveyor using a transfer wire and a transfer plate that transfers the inside of the transfer pipe, and then the discharge member is discharged by the operation line. When the feed wire is continuously moved while the holes of the ball and the feed pipe are matched, an appropriate amount of seed larvae and the bark of the feed pipe are discharged through the matched discharge hole and the hole to the organic waste of the flat belt conveyor. Seed larvae can be effectively mixed with organic waste as it falls uniformly and evenly, which can be achieved for the above purpose because it can further improve the efficiency of fly larvae rearing apparatus.

Hereinafter, with reference to the accompanying drawings, the technical configuration and operation effects as a preferred embodiment that can effectively achieve the features of the present invention as follows.

That is, Figure 1 is a perspective view of the main part of the seed larva feeding device of the fly larvae breeding apparatus according to the present invention, Figure 2 is a sectional view of the main part illustrating a part configuration of the seed larva feeding device according to the present invention, Figure 3 Fig. 4a and 4b are main cross-sectional views illustrating an operation process of the seed larva feeder according to the present invention, and Fig. 5 is a seed larval feed according to the present invention. A perspective view illustrating the discharge member in the apparatus.

As exemplified in the present invention, as organic waste and seed larvae move over time along a plurality of flat belt conveyors, the seed larvae are supplied to a fly larvae breeding apparatus using the organic wastes as a prey for breeding seed larvae. In configuring the device for

Storage hopper (100) is stored in the larvae such as seed larvae and rice bran, wheat bran freshly hatched from eggs,

It is connected to the lower outlet of the storage hopper 100 is connected to one side, the conveying pipe 200 of the circulation type installed in a spaced apart state on the top of the flat belt conveyor 710,

It is installed inside along the conveying pipe 200, the conveying wire 300 is formed on the surface a plurality of conveying plates 310 at regular intervals, and

A motor transfer device 400 for circulating the transfer wire 300 installed in the transfer pipe 200 along the transfer pipe 200;

A plurality of the pipes are installed at regular intervals, and a discharge hole 510 is formed at a bottom thereof so as to communicate with the hole 210 of the transfer pipe 200, and a flange 520 is extended at a bottom end thereof. Discharge member 500 is formed,

One side is connected to the operating lever 610, the other side is installed in close proximity along the conveying pipe 200 and individually connected to the flange 520 of the discharge member 500 and the end of the drum 620 It is characterized by including the operating line 600 is installed to be wound on.

In the drawing, reference numeral 110 is a fixing part installed inside the storage hopper 100, 120 is a movable part hinged to the fixing part 110, and 130 is an end of the movable part 120. The roller is installed in, 720 is a hopper containing the organic waste, 730 is a transfer unit for transferring the organic waste of the hopper 720 to the flat belt conveyor 710.

The present invention, while supplying seed larvae to fly larvae rearing device, while the organic waste is laid out on the flat belt conveyor 710 of the fly larvae rearing device while the seed larvae on the top of the organic waste simple and safe As it is configured to be evenly supplied, it is possible to improve the efficiency of the breeding device through the effective supply of seed larvae.

That is, Figure 1 illustrates a seed larvae supply apparatus according to the present invention, the present invention is a multi-stage flat belt conveyor that receives the organic waste transported by the hopper 730 and the transfer unit 720 to drop down after transporting As a supply device for supplying seed larvae of the fly to the flat belt conveyor 710 installed in the upper portion of the flat belt conveyor 710 spaced apart from the surface by a certain distance in the horizontal state of the circular transfer pipe ( 200 is installed across, one side of the conveying pipe 200 is a motor transfer device 400 is installed with the storage hopper 100.

Here, the storage hopper 100 is stored in a state in which the seed larvae freshly hatched from the eggs of the fly larvae, and the cortex, such as rice bran or bran, and the lower exit of the storage hopper 100 Since the seed larvae and the steel blood contained in the storage hopper 100 may be moved to the inside of the transfer pipe 200 through the lower outlet of the storage hopper 100 because they are connected to the inside of the transfer pipe 200. will be.

In addition, a transfer wire 300 is installed along the transfer pipe 200 at an inner center of the transfer pipe 200, and the transfer wire 300 transfers a size corresponding to an inner diameter of the transfer pipe 200. Plate 310 is installed a plurality of while maintaining a constant interval in the vertical direction to the transfer wire (300).

In addition, the motor transport apparatus 400 installed on one side of the transport pipe 200 provides the driving force to allow the transport wire 300 to be circulated in the transport pipe 200. When the transfer wire 300 is cyclically moved in one direction from the inside of the transfer pipe 200, the transfer plate 310 which is installed at a predetermined interval on the transfer wire 300 is also stored in accordance with the movement Seed larvae and steel blood moved from the hopper 100 to the inside of the conveying pipe 200 are transferred between the conveying plate 310 and the conveying plate 310 of the conveying wire 300. The circular movement along the.

On the other hand, when the seed larvae and bark are contained in the storage hopper 100 is moved to the inside of the conveying pipe 200 through the narrow lower outlet of the bottom as shown above, the seed larvae and bark flock together in the narrow lower outlet bunch If so, the seed larvae and bark may not be able to move to the inside of the conveying pipe (200).

Therefore, the fixing part 110 is formed on the inner surface of the storage hopper 100 so as to solve the above problems, the movable part 120 is hinged to the fixing part 110, the end of the movable part 120 When the roller 130 is installed so that the lower part of the roller 130 is positioned inside the transfer pipe 200, the roller 130 is moved when the transfer wire 300 is moved inside the transfer pipe 200. As the ascending and descending naturally while hitting the conveying plate 310 that is continuously moved with the transfer wire 300, even if the seed larvae and the cortex gather in the narrow area due to the lifting and lowering of the roller 130 As the seed larvae and the cortex are effectively dispersed, they can be easily moved into the transfer pipe 200.

In addition, a plurality of holes 210 are formed at predetermined intervals in a portion of the transfer pipe 200 positioned at the upper portion of the flat belt conveyor 710, and the outer portion of the transfer pipe 200 is formed at a portion where the hole 210 is formed. Discharge members 500 are respectively installed to be wrapped around the discharge member 500, and a discharge hole 510 is formed at the bottom of the discharge member 500, and an extended flange 520 is formed at one end of the bottom. will be.

At this time, the hole 210 of the transfer pipe 200 and the discharge hole 510 of the discharge member 500 should be in an inconsistent state. When the discharge member 500 slides to one side, the hole 210 and the discharge are discharged. The balls 510 are intended to be matched with each other.

On the other hand, as a means for sliding the discharge member 500 to match the hole 210 of the discharge pipe 500 and the hole 210 of the transfer pipe 200 as described above, the transfer pipe 200 Install one operating line 600 in close proximity along the one end is provided with a return spring (not shown in the figure) is configured to be wound on the drum 620 that can have elasticity when rotating, the other end of the operating lever ( To be connected to the 610, wherein the flange 520 of the discharge member 500 which is installed at regular intervals in the conveying pipe 200 is individually connected to the operation line (600).

Accordingly, when the operation lever 610 is pulled downward, the operation line 600 is released from the drum 620, and the drum 620 has a constant elastic force by the release of the operation line 600.

And when the operation line 600 is pulled as described above, the discharge member 500 is slid along the surface of the conveying pipe 200 by the flange 520 which is individually connected to the operation line 600, respectively. At this time, as the holes 210 of the transfer pipe 200 and the discharge holes 510 of the discharge member 500 which are inconsistent with each other coincide with each other, the transfer wires through the matched holes 210 and the discharge holes 510 are matched with each other. Seed larvae and cortex were moved by the 300 and the transfer plate 310 is discharged.

Therefore, when the transfer wire 300 continues to move in the above state, the seed larvae and the cortex gathered in a predetermined section of the transfer wire 300 are always discharged through the matched hole 210 and the discharge hole 510. Appropriate amount of seed larvae and bark are discharged.

And when the operation lever 610 is pulled up to the opposite side, the operation string 600 is applied to the drum 620 as the drum 620 having the elastic force is returned to its original state by the release of the previous operation string 600. As it rewinds, the discharge member 500 is slid in the opposite direction so that the hole 210 of the transfer pipe 200 and the discharge hole 510 of the discharge member 500 are inconsistent again, so that discharge of the seed larvae and the cortex is blocked. .

Looking at the overall operation of the seed larva feeder having such a possible in detail through the illustrated drawings as follows.

That is, when the seed larvae and the cortex are filled in the storage hopper 100 as shown in FIG. 2, the seed larvae and the cortex are sequentially transported through the lower outlet of the storage hopper 100. It is to be placed between the transfer plate 310 and the transfer plate 310 of the transfer wire 300 installed inside the transfer pipe 200 while moving into the furnace.

And the flat belt conveyor 710 located in the upper of the plurality of flat belt conveyor as shown in Figure 3 to be evenly spread the organic waste moved through the hopper 730 and the conveying unit 720 and then one side of the conveying pipe 200 When operating the motor transfer device 400 installed in the transfer wire 300 and the transfer plate 300 and the transfer plate 310 installed in the transfer pipe 200 is circulated along the transfer pipe 200, the transfer plate from the storage hopper 100 Seed larvae and cortex separated between the 310 is to be circulated along the transfer pipe (200).

At this time, the seed larva circulated along the conveying pipe 200 because the hole 210 of the conveying pipe 200 and the discharging hole 510 of the discharging member 500 located above the flat belt conveyor 710 are in an inconsistent state. Fruit and blood are not discharged to the outside.

Therefore, when the user pulls the operation lever 610 downward, as shown in FIG. 4A, the flange 520 is pulled together with the operation line 600, and the discharge member 500 moves to one side along the outer circumference of the transfer pipe 200. As the holes 210 of the conveying pipe 200 and the discharge hole 510 of the discharging member 500 coincide with each other, the seed belt larvae and the cortex of the conveying pipe 200 are flat belt conveyors in which organic waste is placed. 710) will fall on top.

After the transfer of the wire 300, the seed larva and the cortex in a certain section of the transfer wire 300 is discharged a certain amount through the matching hole 210 and the discharge hole 510, the discharge is completed When the pulled operation lever 610 is returned to its original state to return the sliding member 500 that has been slid to its original state, as shown in FIG. 4B, the hole 210 and the discharge member 500 of the transfer pipe 200 are discharged. As the ball 510 is mismatched, the supply of seed larvae and bark is stopped.

In this state, the seed larvae are matured for more than one day, and the seed larvae are reared and moved along the flat belt conveyor in multiple stages by rotating the flat belt conveyor 710 to move the flat belt conveyor below. .

As described above, the preferred embodiment of the present invention has been described, but the present invention can use various changes, modifications, and equivalents, and it is clear that the above embodiments can be appropriately modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention defined by the limitations of the following utility model registration claims.

As described above, in the present invention, in supplying seed larvae to the fly larvae breeding apparatus, the seed larvae and the bark in the storage hopper are transported along the conveying pipe by the conveying wire and the conveying plate to the upper part of the flat belt conveyor. Fly larvae do not suffocate seed larvae or mix seed stalks with organic wastes by allowing them to fall safely and evenly and evenly on top of organic wastes of flat belt conveyors according to the operation of a plurality of discharge members. The problem was that the breeding process was inefficient.

Claims (2)

In the construction of a device for supplying seed larvae to fly larvae rearing apparatus for mass breeding seed larvae using organic wastes as food as the organic waste and seed larvae move over time along a plurality of flat belt conveyors. A storage hopper 100 in which seed larvae and bark are mixed and stored; One side is connected to the lower outlet of the storage hopper 100 is connected to, the circulation pipe of the circulation type installed in a spaced apart state on the top of the flat belt conveyor 710; A conveying wire 300 installed inside the conveying pipe 200 and having a plurality of conveying plates 310 continuously formed at regular intervals on a surface thereof; A motor transfer device 400 circulating the transfer wire 300 installed in the transfer pipe 200 along the transfer pipe 200; A plurality of the pipes are installed at regular intervals, and a discharge hole 510 is formed at a bottom thereof so as to communicate with the hole 210 of the transfer pipe 200, and a flange 520 is extended at a bottom end thereof. Discharge member 500 is formed; One side is connected to the operating lever 610, the other side is installed in close proximity along the conveying pipe 200 and individually connected to the flange 520 of the discharge member 500 and the end of the drum 620 An operation line 600 installed to be wound on the line; Seed larvae supply device for flies larvae breeding apparatus, characterized in that made. The method of claim 1, The fixing unit 110 is formed on the inner side of the storage hopper 100, the movable unit 120 is hinged to the fixing unit 110, and a roller 130 is installed at the end of the movable unit 120. A seed larvae feeding device of the fly larvae breeding apparatus, characterized in that the lower portion of the roller 130 is in contact with the transfer plate 310 of the conveying pipe (200).

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